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The political, the urban, and the cosmopolitan : the 1970s generation in Romanian-German poetry
(2010)
This study is an introduction to the body of work produced by the German poets who were born during or after World War II in Romania and whose almost simultaneous debut lies in the relatively liberal period 1965 – 1971. Helped onto the Romanian-German literary scene by a propitious environment and informed by the socialist ideology they were born “into,” the poets born between 1942 and 1955 formed a remarkable generation unit which sought to significantly renew German-language literature in Romania. Rejecting identification with the insulary Romanian-German communities, the young poets strove to create a socially and politically relevant verse expressing an urban and cosmopolitan attitude. The growing nationalist rhetoric and isolationist stance of Romania's regime and the material and psychological hardships endured by its population through the 1970s and 80s forced the generation to revise its incipient enthusiasm for Romanian socialism. Increasingly, the poets' work came to depict the threatened existence of the German minority and the harsh general living conditions in Romania and to provide an alternative to the absurd official proclamations of a “golden age” under Ceauşescu, despite the poetry's growing reliance on obscuring literary techniques. The emigration of most of the generation members in the mid to late 1980s brought about the eventual unravelling of the generation unit and marks the end of my study. By following the evolution of three themes – social and political engagement, the German minority, and the urban environment – which define the poets as a generation throughout their literary careers in Romania, the analysis illuminates not only the generation's development from identification with Romanian socialism and rejection of the German minority to criticism of the country's policies and a renewed interest in the fate of the German community but also the changing possibilities and limits of literary expression under communism. In addition to providing an introduction to the body of work created by the 1970s generation in Romania, the study also expands the understanding of German literature in the 20th century by providing new material on literature written under totalitarianism and of intercultural German literature.
Philosophy is essentially dialectical. One gets into a dialectic by a puzzle, an aporia in thought and understanding. The point of philosophizing is not (necessarily) to get hold of the ultimate, objective, and immutably correct answers. The point is rather to come to be able to see one’s way out of the aporia, and to understand how one got into it in the first place.
The essay that follows – which I am submitting as my dissertation – is dialectical in two senses. As a piece of philosophizing, the essay is guided by a problem, the problem of understanding how laws of nature are possible, and how it is possible for us to know them. The movement of thought generated by attempts to get out of the problem then yields some ideas that do not stay in the original context in which the problem was felt to exist. Two important ones are, first, perceptual experience is not the only ultimate source of warrant we have for empirical knowledge claims, and second, perceptual experience is not the only epistemically significant experience we can have. Both are consequences of the idea that the mastery of skills is a form of interaction with nature that provides epistemic warrant for nomological claims. I shall leave it to the epilogue to examine how this view of skills contrasts with the ways skills are ordinarily thought of in philosophy and the implication of it for empiricism.
The other sense in which the essay is dialectical is more interesting, and it has to do with the way in which I approach the problem that got me into started, namely, by paying special attention to the dialectic exchange between the realists and the antirealists about the laws of nature. Antirealism about the lawfulness of nature has experienced something like a post-Humean revival since the publication of van Fraassen’s The Scientific Image. Most, including me, have strong realist intuitions about nomological “connections” in nature. Philosophical positions that are strongly counterintuitive have mostly not ended well in history. So it becomes something of a puzzle why antirealism about laws of nature manages to enjoy popularity every now and then.
The display of foreign polypeptides and proteins on the surface of viruses or cells provides an important tool for the engineering of biomolecules and the analysis of their interactions with binding partners. The most extensively used display platform is the coat protein of the filamentous bacteriophage (Smith, 1985). Phage display libraries have often been selected for polypeptides, e.g. single chain (sc) antibodies that bind to a protein of interest, but in vivo selection could only be demonstrated for peptides so far. An alternative display platform is the retrovirus murine leukemia virus (MLV). Here, polypeptides are displayed at the N-terminus of the viral envelope glycoprotein. Proof of principle for this platform was demonstrated for protease substrate libraries, which can be selected through coupling proteolytic activation with viral infectivity (Buchholz et al., 1998). Selection of the library CX4A on living cells resulted in viruses with more than three orders of magnitude improved spreading efficiency through tumor cells (Hartl et al., 2005). Also scAb libraries have recently been displayed and selected using retroviruses (Urban et al., 2005). The library scFvlibxMo displays the repertoire of phage display preselected sc antibodies for laminin-1 binding. The retrovirus based selection process resulted in laminin-specific sc antibodies with improved expression levels in mammalian cells.
This thesis describes the in vivo (i.e. in mouse tumor models) selection of the C-X4-A and scFvlibxMo for tumor homing upon systemic delivery.
For selection of the protease substrate library C-X4-A a subcutaneous tumor was induced in SCID mice followed by three systemic injections of the library. The selection process was monitored over a period of 34 days. After the incubation period mice were sacrificed and virus load in organs and tumor determined. PCR analysis after 34 days showed that virus from the library had preferentially infected the tumor. Sequence analysis showed the selection of protease substrates with the most prominent one with a frequency of over 65%. The four most prominent protease substrate variants where reconstituted into the original viral backbone for further investigation (C-SK-A, C-HI-A, C-HM-A and C-HS-A). Interestingly, these viruses exhibited a reduced spreading capacity in vitro on HT1080 cells as compared to the C-AK-A virus, which had previously been selected on HT1080 cells. When assayed for tumor homing, however, viruses C-HI-A and C-HS-A had clearly improved in comparison to C-AK-A. Tumor tissue had been infected at rates of over 55% while virus load of extratumoral organs was very low (infection rates <0.7 for C-HS-A and <0.02 for C-HI-A). Tumor targeting capacity had thus been improved over 10-fold by the in vivo selection of the C-X4-A library.
The experimental set up for the in vivo selection of the scFvlibxMo library was performed according to that of the C-X4-A library. Fingerprint analysis of the selected viruses that infected tumor tissue resulted in the identification of seven antibody variants showing unique CDR3 sequences. Two prominent clones (M49T-A and M49T-B) were cloned back into the MoMLV genome for further analysis of the reconstituted viruses. While variant B bound laminin-1 efficiently, variant A was unable to do so, although it was selected at highest frequency (76%). Both reconstituted viruses were equally well infectious and spread through HT1080rec1 cells at a similar efficiency as MoMLV. In an in vivo competition experiment the selected viruses clearly out-competed a laminin-1 binding reference virus L36xMo for tumor homing. To understand the molecular driving forces behind the in vivo selection process the epitope of the selected scFv M49T-A was identified using a phage peptide library approach. In silico analysis led to the identification of a small group of possible antigens, including tenascin, fibronectin and collagen.
The data described in this thesis demonstrate that the retrovirus display platform is capable of allowing the in vivo selection of protease substrates and scFvs. Notably, the replication competence of the system introduced an additional level of complexity to the library. The performed in vivo selections significantly enhanced tumor tropism. Selective infection of tumor cells combined with transfer of anti-tumoral genes is an attractive strategy for cancer therapy being in focus of current research. The viruses selected in this thesis build prime candidates for targeted retrovirus based tumor therapy.
Drug toxicity and viral resistance limit long-term efficacy of antiviral drug treatment for HIV
infection. Thus, alternative therapies need to be explored. Previously, group of “Prof. von Laer”
tested the infusion of T lymphocytes transduced with a retroviral vector (M87o) that expresses an
HIV entry inhibitory peptide (maC46). Gene-modified autologous T cells were infused into 10
HIV-infected patients with advanced disease and multidrug resistant virus during antiretroviral
combination therapy. T cell infusions were tolerated well with no severe side effects. A
significant increase of CD4 counts was observed post infusion. At the end of the one-year
follow-up, the CD4 counts of all patients were still around or above baseline. Gene-modified
cells could be detected in peripheral blood, lymph nodes and bone marrow throughout the oneyear
follow-up, whereby marking levels correlated with the cell dose. No significant changes of
viral load were observed during the first four months. Four of the seven patients that changed
their antiviral drug regimen thereafter responded with a significant decline in plasma viral load.
In conclusion, the transfer of gene-modified cells was safe, led to sustained levels of gene
marking and may improve immune competence in HIV-infected patients with advanced disease
and multidrug resistant virus. However, the low level of gene marking and the lack of substantial
long-term in vivo accumulation of gene-protected cells observed in this trial clearly demonstrate
the requirement for new vectors with new strategy.
In this thesis self‐inactivating lentiviral vectors harboring internal promoters and RNA elements
were therefore evaluated for their potential use in a clinical gene‐therapy trial. The results from
this work provide the basis for the selection of a suitable candidate vector for extensive
preclinical testing. Apart from being capable of transducing non‐dividing cells, lentiviral vectors
incorporate a number of additional features that are of potential value for gene therapeutic
applications. These include a larger packaging capacity, higher titers than γ‐retroviral vectors
and, most importantly, a reduced risk of deregulating cellular genes due to its natural integration
profile. The use of internal promoters to drive expression of the therapeutic transgene maC46
should further improve the safety profile of these new‐generation vectors, while an additional
artificial splice acceptor (SA) into the 5‟UTR of the transgene over all elevate transgene
expression. The rationale for this is that hematopoietic stem and progenitor cells will be
Summary
98
protected from enhancer‐mediated transactivation effects and also from potential side effects due
to the aberrant expression of maC46 while at the same time the full clinical benefit for the
patients is maintained.
In order to find a suitable candidate for preclinical studies, two candidate therapeutic vectors
harboring different regulatory elements were selected based on results from pilot experiments.
The internal promoters used to drive expression of codon optimized maC46 were the PGK
promoter and MPSV promoter. This work focuses on the transgene expression levels in
lymphoid cells and antiviral activity. The issues of long term expression, propensity to
methylation mediated silencing of the promoters, and genotoxicity were also touched. In a first
step the performance of different vectors was evaluated in the human T cell lines. Based on
promising data from ex vivo human peripheral blood mononuclear cells, the vector carrying the
MPSV promoter along with intron were selected for in vivo transplantation experiments.
In summary, the ex vivo data suggested the long term survival of lentiviral gene modified cells,
along with maintained expression of introduced genes. It was observed that the expression of
these constructs depends strongly on the activation and differentiation status of the targeted T
cells. This regulation was not linked to any specific promotor. In vivo study shows that maC46
can be introduced into murine multiple hematopoietic lineages via lentiviral vector and expressed
at high levels in their mulilineage progeny, without altering the hematopoiesis. There was no
sign of any kind of hematopoietic or lymphoid malignancies. Although gene-modified
lymphocytes persisted in-vivo, the downregulation of transgene expression was consistent with
the ex-vivo observation. In contrast to that the T cells transplanted group showed delayed
engraftment of donor cells and there was no expression of C46 in blood and lymphatic organs. .
In conclusion, when considering HIV gene therapy focusing CD4+ T cells, potential problems of
T cell activation status as related to the desired clinical effect must be addressed. These results
might open the way for a gene therapy targeting mainly or exclusively activated T cells and
could be exploited for immunostimulatory as well as suppressive approaches.
EGFL7 regulates adult neural stem cell maintenance and differentiation by inhibition of Notch1
(2010)
In neurobiology the preexisting dogma on the unchangeability of the adult mammalian brain and its inability to give rise to new neurons has been challenged since the early nineties. Generally, it is now accepted that neurogenesis persists in adults. Progress in developmental and stem cell biology in recent years led to an increasing interest in regeneration-based treatment strategies for damaged tissue of the central nervous system. Thus, the enhancement of the endogenous potential of the brain to repair itself is potentially a feasible therapeutic strategy to treat various types of brain damage. Therefore, it is of great interest to understand the molecular mechanism that regulate adult neurogenesis. One of the prominent pathways suggested to be involved here is the Notch signaling cascade. Previously, it has been shown that various components of Notch signaling are expressed in the stem cell niche of the adult subventricular zone (SVZ) in vivo. Interestingly, a recent study demonstrated that the self-renewal potential of adult neural stem cells (NSCs) isolated from the SVZ depend on Notch signaling in vitro.
Recently, we identified a novel non-canonical Notch ligand termed epidermal growth factor-like domain 7 (EGFL7), which was originally described as a protein secreted by endothelial cells and functionally implicated in cellular responses of the vascular system such as cell migration and blood vessel formation. We were able to show that secreted EGFL7 binds to a region in Notch that is involved in ligand-mediated receptor activation, thus acting as an antagonist of Notch signaling.
The present study identifies neurons of the human and murine brain as a novel source of EGFL7, which suggests functions of EGFL7 in the neural system. Expression analyses by quantitative RT-PCR (qRT-PCR) revealed EGFL7 is down regulated in the adult SVZ, which suggests that endogenous EGFL7 may act as a Notch modulator of NSCs. We assessed the expression of Notch pathway components in adult NSCs isolated from the SVZ of adult mice and demonstrated that inhibition of Notch activity by the γ-secretase inhibitor DAPT reduced the self-renewal potential of NSCs. Accordingly, adenoviral-mediated expression of EGFL7 in vitro decreased Notch-specific signaling and reduced proliferation and self-renewal of NSCs. Conversely, activation of Notch by a constitutive active form of Notch (NICD) rescued the EGFL7-mediated reduction of NSC self-renewal verifying that this effect was directly linked to Notch signaling. Congruent to the reduced proliferation rate measured in vitro, induced expression of EGFL7 in vivo significantly reduced the number of Ki-67 positive cells within the SVZ upon cerebroventricular injection of EGFL7 adenovirus.
Expression analyses in the developing brain showed single EGFL7-positive cells within the marginal zone of the neocortex as measured by in situ hybridization. These cells might be Cajal-Retzius cells, specialized neurons, which specifically express Reelin, which is a protein of the extracellular matrix known to control neuronal migration and differentiation. Interstingly, we could show that Reelin and EGFL7 are expressed in a subtype of neurons of the adult mouse cortex. This implied an interaction of both proteins and was verified by co-immunoprecipitation assays, suggesting an additional role for EGFL7 in neuronal maintenance. QRT-PCR based expression analyses in vitro comparing differentiated and non-differentiated NSCs displayed an increase in EGFL7 expression during the differentiation process, which was paralled by reduced Notch signaling. NSCs differentiated on coverslips coated with EGFL7 differentiated into all three cell types - neurons, oligodendrocytes and astrocytes. EGFL7 favored the formation of neurons as compared to control comparable to the effect of the Notch-inhibitor DAPT. Furthermore, additional oligodendrocytes were formed. These cells displayed a mature morphology with distinct sprouts and branches in contrast to the small and round oligodendrocytes that formed on control coverslips, which resembled us of precursor cells. Neurons and oligodendrocytes were formed at the expense of astrocytes. Congruently to the effect observed in vitro, adenoviral-based expression of EGFL7 in the SVZ yielded a slight induction of neuronal differentiation in vivo. Taken together, these results show for the first time a previously unrecognized role for EGFL7 in the brain by modulation of the Notch pathway in adult NSCs, which changes the proliferation and differentiation potential of adult NSCs in vitro and in vivo.
Gene therapy is a promising therapeutic strategy that emerged from the attractive idea of targeting therapy at the molecular level. For many patients who suffer from genetic and acquired diseases that cannot be effectively treated by conventional treatment approaches gene therapy remains a huge hope of cure in spite of the hurdles regarding efficacy and safety that need to be overcome. The development of efficient gene transfer vehicles, mainly retroviral vectors, led to the first successful gene therapy trial, to treat patients suffering from X-linked severe combined immunodeficiency syndrome (X-SCID) using gene modified stem cells (Hacein-Bey-Abina, Le Deist et al. 2002). Despite the success of this trial, it revealed the danger of retroviral insertional mutagenesis as a major adverse event of gene therapy using gene-modified stem cells (Hacein-Bey-Abina, von Kalle et al. 2003). In contrast to stem cells, T cells are relatively resistant to insertional mutagenesis and transformation even after transduction with potent oncogenes using retroviral vectors (Newrzela, Cornils et al. 2008). However, mature T cells can self-renew, proliferate and survive for long periods. These criteria are supposed to render T cells prone to transformation. Therefore, the questions of mature T cells transformability and the control mechanism limiting their transformation are still elusive.
Hallin and Mancini’s seminal work Comparing Media Systems: Three Models of Media and
Politics has generated great interest and enthusiasm among media scholars to advance comparative
studies by applying the four dimensions to analyze media performance in different countries. Media
scholars agree that the four variables suggested by the two authors, i.e. the structure of media
markets, political parallelism, role of the state, and professionalization of journalism, provide a
good theoretical framework for the analysis of relationship between political and media system.
Their models for comparing media systems are based on a ‘most similar’ strategy,
analysing media and journalism only in stable Western democracies (i.e. Western European and
North American nations), and the purpose of the research presented in this paper was to develop
the model to include other parts of the world as well.
The most recent attempts to integrate East Central European media systems into the Hallin
and Mancini model, the conclusion being that the East Central European media share most
similarities with the Polarized Pluralist model. This conclusion follows not only Hallin and
Mancini, but also Splichal. The researcher in his earlier works argued that the changes in post-
Soviet media systems could be best explained by referring to the concept of Italianization - the
media are under strong state control, the degree of mass media partisanship is strong, low level of
journalistic professionalism, commercialization.
In fact, out of the three models only two (the Liberal and the Democratic Corporatist
model) are models in any strict sense, whereas the third - Polarized Pluralism - is better defined
as the lack of a model: the Liberal and Democratic Corporatist model are both built on a
consensus around core values, whereas the key feature of the Polarized Pluralism model is that
there is no consensus and no core values. De Albuquerque introduced other variables that also
would be highly relevant to the comparative analysis of media systems, but that have no place in
the Hallin & Mancini framework, the most important one being whether the political system is
presidential or parliamentary. For example, it has been demonstrated that media in presidential systems are more likely to focus on individual politicians and the administrative aspects of
government, as well as acting as an intermediary between different branches of government, than
are media in parliamentary systems.
Scholars dealing with the East Central Europe (and elsewhere) are too interested in fitting
their respective nations to one of the three models, rather than focusing on the variables and on the
comparative dimension. The scholars focus on the variables and on the comparative dimension: it
is strucking that their conclusions are precisely that a strict modeling approach (i.e. trying to fit
any given nation into the three-system model) is not enough if we want to understand media
system differences properly.
Hallin and Mancini (2004: 305) write that “The Democratic Corporatist Model, we suspect,
will have particularly strong relevance for the analysis of those parts of Eastern and Central
Europe that share much of the same historical development, like Poland, Hungary, the Czech
Republic, and the Baltic States”. At the same time, however, they suspect that scholars working on
the East Central European media will find much that is relevant in their analysis of the
Mediterranean region.
The recent attempts integrate East Central European media systems into the Hallin and
Mancini model, the conclusion being that the East Central European media share most similarities
with the Polarized Pluralist model. This conclusion follows not only Hallin and Mancini, but also
Splichal. The researcher in his earlier works argued that the changes in post-Soviet media systems
could be best explaind by referring to the concept of Italianization - including the role of
clientelism, the strong role of the state, the role of the media as an instrument of political struggle,
and a low level of journalistic professionalism.
The Polarized Pluralist model all too often seems to be the default model – what is really
gained, analytically, by saying that post-Communist countries are all basically Polarized Pluralist
media system when they are different in many ways. This question needs further elaboration.
Instead of fitting the Italianization model into East Central Europe, scholars should start working on their own model, introducing other variables, that would allow them to investigate the
media in the region adequately.
European pea crabs - taxonomy, morphology, and host-ecology (Crustacea: Brachyura: Pinnotheridae)
(2010)
Pinnotherids are small crabs symbiotic to a variety of invertebrates. The European species infest bivalves and sea squirts. Their way of life is parasitic and poses a threat to commercially exploited bivalves. While juveniles of both sexes still look very similar - being agile swimmers and partially free living - a metamorphosis takes place in the female after mating and results in a conspicuous sexual dimorphism. Thereafter, the female settles in its host definitely and is morphologically strongly adapted to the parasitic life phase. A very high reproductive output was demonstrated among several pea crab species infesting bivalves. Despite from that, hardly any information is present in the literature on the pinnotherids’ reproductive biology and the underlying morphology.
Due to their cryptic way of life, the sexual dimorphism, and the different morphotypes of the female, the taxonomy of the Pinnotheridae is a serious challenge. Two widely accepted species are recognized on European coasts: Pinnotheres pisum and Nepinnotheres pinnotheres. Pinnotheres pectunculi was so far only known from the bivalve Glycymeris glycymeris in its type locality Roscoff (France), while Pinnotheres ascidicola and Pinnotheres marioni were described as living exclusively in ascidians without careful comparison with the previously described species. In order to produce standardized comparative descriptions, pea crabs were collected and studied from different hosts and localities in the Northeast Atlantic and in the Mediterranean. Nepinnotheres pinnotheres and Pinnotheres pisum were redescribed with consideration to characters of female and male. According to our morphological analysis, Pinnotheres ascidicola and Pinnotheres marioni are junior synonyms of Nepinnotheres pinnotheres, whereas the status of Pinnotheres pectunculi as a valid species was ascertained. Important characters are the mouthparts, the male gonopods, and especially chelipeds that showed consistent characteristics among different crab stages of both sexes.
Based on our sampling, we estimated the host-range of the European species. Nepinnotheres pinnotheres lives in ascidians and in the pen shell Pinna nobilis. Pinnotheres pisum infests numerous bivalve species - Pinna nobilis included. For Pinnotheres pectunculi novel host records are presented, all from the bivalve family Veneridae. Furthermore, feeding of the Pinnotheres-species was observed. They use a setae comb ventrally on the claw to brush mucus (and the accumulated food particles) from the bivalve gills. Feeding strategies and host-ecology will be thoroughly discussed in consideration to other Pinnotheridae.
We investigated the reproductive systems of European pinnotherids by histological methods, scanning and transmission electron microscopy, and confocal laser scanning microscopy.
The Eubrachyura have internal fertilization: paired vaginas enlarge into storage structures, the spermathecae, which are connected to the ovaries by oviducts. Sperm is stored until the oocytes are mature and transported into the spermathecae, where fertilization takes place. In the investigated pinnotherids, the vagina is of the ‘concave pattern’. Musculature is attached alongside flexible parts of the vagina-wall to control the dimension of its lumen. The genital opening is closed by a muscular mobile operculum.
The spermatheca can be divided into two distinct regions by function and morphology. The ventral part includes the connection with vagina and oviduct and is regarded as the zone where fertilization takes place. It is lined with cuticle except where the oviduct enters the spermatheca by the ‘holocrine transfer tissue’. At ovulation, the oocytes have to pass through this multi-layered glandular epithelium, which has a holocrine mode secretion. The dorsal part of the spermatheca is lined by a highly secretory apocrine glandular epithelium, which was to date only found in fiddler crabs of the genus Uca.
The male internal reproductive system consists of paired testes and corresponding vasa deferentia. The sperm morphology of pinnotherids conforms to other thoracotremes, with slight differences between Nepinnotheres pinnotheres and Pinnotheres pisum. Spermatozoa become enveloped into spermatophores in the secretory proximal vas deferens. The medial vas deferens is strongly enlarged and stores spermatophores embedded in seminal plasma. The distal vas deferens holds tubular appendices, which extend into the ventral cephalothorax and slightly into the pleon. These appendices produce and store vast quantities of seminal plasma. The copulatory system of the Brachyura is formed by paired penes and two pairs of gonopods, which function in sperm transfer. In pinnotherids, the long first gonopods transfers the sperm mass to the female. It holds the ejaculatory canal inside, which opens proximally and distally. The second gonopod is solid, short and conical. During copulation, the penis and the second gonopod are inserted into the base of the tubular first gonopod. The second gonopod functions in the transport of the sperm mass inside the ejaculatory canal towards its distal opening. The specific shape of the second gonopod is strongly adapted for a sealing of the tubular first gonopod with longitudinal cuticle foldings that interlock inside the first gonopod. The presented results are discussed concerning their function in reproduction and in respect of the systematic account.
The role of secretion in sperm transfer, storage and fertilization among the Brachyura is still under debate. It is notable that structure and function of secretion are more complex in pinnotherids and probably more efficient than in other brachyuran crabs, which will be discussed, in view of the parasitic way of life and the high fecundity of pinnotherids.
Tumor hypoxia and nutrient starvation are common phenomena in cancerous tissue. Cells that resist this hostile environment are selected for a more aggressive phenotype, usually accompanied by therapy resistance. The hypoxia inducible factors HIF-1a and HIF-2a play a key role in the adaptive homeostatic responses to these challenging conditions inducing a number of target genes that are involved in the regulation of a variety of cellular processes such as angiogenesis, proliferation, metabolism, self-renewal and cell death/cycle arrest. Thus, the HIF pathway encompasses opposing adaptive responses on tumor growthgrowth promoting abilities on the one hand and growth inhibiting on the other. A recent study in our lab uncovered that this switch between cell death and cell survival critically depends on HIF-2a protein levels. Since PHDs (HIF prolyl hydroxylases) are the main regulators of HIF protein abundance and hypoxia drives the malignant phenotype of tumors, we wanted to characterize HIF regulatory functions of PHDs under hypoxic conditions. Our intention was to reveal the importance of PHD contribution to the opposing functions of HIFs under hypoxia. Characterization of PHD1-4 mRNA and protein expression levels under normoxic and hypoxic conditions in glioblastoma cell lines led to the identification of PHD2 and PHD3 as hypoxia inducible PHD isoforms and highlighted their predominant function under hypoxia. Mechanistically, we demonstrated that HIF mediates the hypoxic induction of PHD2 and 3 within a negative feedback loop, promoting its own degradation during prolonged hypoxia. The functional impact of PHD2 and 3 abundance on cell viability under hypoxic conditions was analyzed by disrupting PHD2 and PHD3 function either through a siRNA mediated approach or by application of the PHD inhibitor DMOG. These experiments uncovered that PHD2 and 3 are protective under hypoxic conditions and that PHD inhibition expedites cell death. Combined HIF and PHD suppression under hypoxic conditions abrogated this increased susceptibility to cell death, clearly showing that PHD2 and 3 act in a negative feedback regulatory loop to limit the HIF response under prolonged hypoxia. With respect to possible future therapeutical applications we co-treated cells with a PHD inhibitor and pro-apoptotic agents staurosporine or TRAIL. Co-challenging tumor cells even potentiated the cell death response, indicating a more widespread protective function of PHD. Taken together PHD2 and 3 protect tumor cells from cell death induction, functioning in a negative feedback regulatory loop to constrain the HIF dependent cell death responses under hypoxia. Interestingly, however, when assessing the role of PHD2 and PHD3 in in vivo tumor growth using an intracranial tumor model, we identified an exclusive tumor suppressor function for PHD3. Loss of PHD3 function enhanced tumor growth whereas increased PHD3 expression diminished the tumor burden. The accelerated tumor growth following PHD3 loss could be attributed to a decrease in the induction of apoptosis and an increase in proliferation. Tumor cells are frequently exposed to temporary and spatial depletion of nutrients. Interestingly, PHD3 loss conferred a growth advantage under growth factor deprivation. The growth regulatory function of PHD3 was isoform specific, HIF independent and importantly, did not require the hydroxylase function of PHD3. Previous reports have uncovered a regulatory function of the PHD system in NF-kB signaling. However, our results demonstrated that NF- kB signaling remained unaffected by alteration in the PHD3 status of the cell. Additionally, the PHD3 tumor suppressor function proved to be independent of two putative PHD3 downstream effectors, ATF4 and KIF1Bb. Mechanistically, PHD3 suppression reduced EGFR internalization, enhancing the amount of EGFR expressed on the cell surface. We further showed that the impaired EGFR internalization during PHD3 loss resulted in receptor hyperactivation under stimulated and growth factor deprived conditions. Importantly, PHD3 physcially associated with the EGFR complex as evidenced by co-immunoprecpitation. Consequently, this extended EGFR activation in PHD3 deficient cells resulted in enhanced downstream activation of EGFR signaling and increased proliferation. Consistent with the interpretation that PHD3 loss is beneficial for tumor growth, we found PHD3 promoter methylation in glioblastoma cell lines, hinting at a epigenetic mechanism to finetune PHD3 expression on top of the hypoxic driven gene regulation. Finally, we demonstrated that PHD3 tumor suppressor function is not restricted to glioblastomas since PHD3 suppression in lung adenocarcinoma accelerated subcutaneous tumor growth. With these findings, we expand the knowledge of PHD3 action from its oxygen sensing role to a regulatory function in growth factor signaling. This clearly discriminates PHD3 from the other isoforms and supports the exclusive tumor suppressor function in glioblastoma. Taken together our results identify a complex role of PHD signaling in cancer and delineate HIF dependent and HIF independent functions of the PHD system. We think that the HIF dependent protective effect of PHD2 and 3 and the HIF independent PHD3 tumor suppressor function are not mutually exclusive, but might be activated according to the heterogeneous intra-tumoral conditions. However, PHD3 hydroxylase activity is dispensable for its HIFindependent tumor suppressor function in glioma. This uncouples PHD3 function from co-factor and co-substrate requirements and allows it to act over a broader physiological range, since its influence on cellular processes is not constrained by the availability of rate limiting factors. It might explain, why the enzymatic independent functions of PHD3 predominate in vivo. Thus, therapeutic modulation of the PHD system to inhibit tumor growth has to be based on these contrasting functions of the PHD system. However, their differential dependence on the hydroxylase activity may facilitate a therapeutic strategy to specifically inhibit or promote the protective versus suppressive functions of the PHD system.
The HADES (High Acceptance DiElectron Spectrometer) is an experimental
apparatus installed at the heavy-ion synchrotron SIS-18 at GSI, Darmstadt.
The main physics motivation of the HADES experiment is the measurement
of e+e− pairs in the invariant-mass range up to 1 GeV/c2 in heavy-ion collisions
as well as in pion and proton-induced reactions.
The HADES physics program is focused on in-medium properties of the light
vector mesons ρ(770), ω(783) and φ(1020), which decay with a small branching
ratio into dileptons. Dileptons are penetrating probes which allow to study
the in-medium properties of hadrons. However, in heavy-ion collisions, the
measurement of such lepton pairs is difficult because they are rare and have a
very large combinatorial background.
Recently, HADES has been upgraded with new detectors and new electronics
in order to handle higher intensity beams and reactions with heavy nuclei up
to Au.
HADES will continue for a few more years its rich physics program at its
current place at SIS-18 and then move to the upcoming international Facility
for Antiproton and Ion Research (FAIR) accelerator complex. In this context
the physics results presented in this work are important prerequisites for the investigation
of in-medium vector meson properties in p + A and A+A collisions.
This work consists of five chapters. The first chapter introduces the physics
motivation and a review of recent physics results. In the second chapter, the
HADES spectrometer is described and its sub-detectors are presented. Chapter
three deals with the issue of lepton identification and the reconstruction of
the dielectron spectra in p + p collisions is presented. Here, two reactions
are characterized: inclusive and exclusive dilepton production reactions. From
the spectra obtained, the corresponding cross sections are presented with the
respective statistical and systematical errors. A comparison with theoretical
models is included as well. Conclusions are given in chapter four.
The final part of this work is dedicated to the HADES upgrade, whose goal
is among others the achievement of a reliable and fast data acquisition of the
Multiwire Drift Chambers (MDCs). Chapter five presents my contribution to
this successful project during the three years of my stay at GSI.
Project I: The progression of rod and cone degeneration in retinally degenerate (rd) mice ultimately results in a complete loss of photoreceptors and blindness. The inner retinal neurons survive and several recent studies using genetically targeted, light activated channels have made these neurons intrinsically light sensitive. We crossbred a transgenic mouse line expressing channelrhodopsin2 (ChR2) under the control of the Thy1 promoter with the Pde6b(rd1) mouse, a model for retinal degeneration (rd1/rd1). Approximately 30-40% of the ganglion cells of the offspring expressed ChR2. Extracellular recordings from ChR2-expressing ganglion cells in degenerated retinas revealed their intrinsic light sensitivity which was approximately 7 log U less sensitive than the scotopic threshold and approximately 2 log U less sensitive than photopic responses of normal mice. All ChR2-expressing ganglion cells were excited at light ON. The visual performance of rd1/rd1 mice and ChR2 rd1/rd1 mice was compared. Behavioral tests showed that both mouse strains had a pupil light reflex and they were able to discriminate light fields from dark fields in the visual water task. Cortical activity maps were recorded with optical imaging. The ChR2rd1/rd1 mice did not show a better visual performance than rd1/rd1 mice. In both strains the residual vision was correlated with the density of cones surviving in the peripheral retina. The expression of ChR2 under the control of the Thy1 promoter in retinal ganglion cells does not rescue vision. Project II: Lentiviral vectors are becoming the vector of choice for transgene delivery into cells due to their ability to infect non- dividing cells and stably integrate the gene into the genome of the host. Two different viral vector systems, namely HIV-1 and SIV and three different viral vectors PLECYT, PHRCMVChR2 of HIV-1 family and PBjChR2 of SIV were used in this study. The efficiency of the vectors was analyzed by applying them onto the retinal explants in culture and checking the transgene expression. The transgene in the PLECYT lentiviral vector was driven by the EF1A promoter. Upon administration of 5.2 X 106 infectious units of PLECYT viral vector suspension onto the retinal explant resulted in the transduction of retinal ganglion cells. Very few other retinal neurons were found transduced. In the case of PHRCMVChR2, approximately 5 X 105 TU/ml of the vector was used and resulted in the transduction of different neuronal subtypes. Many amacrine cells, ganglion cells and Müller cells were found expressing the transgene. For PBjChR2, 5.6 X104 TU/ml was used which resulted in Müller cell- specific transduction. Very few or no other retinal neurons were found transduced. This study demonstrates the transduction efficiency of different viral vectors on the retinal neurons in vitro. An interesting observation on these viral vectors is their altered tropism. The glycoprotein of the virus is critical for determining their tropism and in this study, all the viral vectors generated were pseudotyped with VSVG, which confers a broad non-specific spectrum of infection. However, analyzing the transgene expression, the viral vectors differ from one another and show remarkable difference in their transduction pattern. To list a few factors that might possibly responsible for the drastic transduction difference exerted by the viral vectors include; 1. Promoters used to drive the transgene expression. 2. HIV or SIV component of the vector in combination with the promoter 3. Titre of the vector used and 4. Other factors like pH and serum used in the study. Therefore optimizing the viral vectors and generating high titers would increase the efficiency and cell-type specific expression of the transgene.
Fuer die schlechte Prognose von Glioblastompatienten mit einer ueberlebenszeit von 9-15 Monaten (Norden and Wen, 2006) ist vor allem die hohe Invasivitaet dieser Tumore verantwortlich. Nach operativer Entfernung des Haupttumors entstehen aus den verbleibenden invadierten Zellen sekundaere Tumore, die sich mitunter ueber weite Bereiche des Hirns verteilen. Des Weitern sind die hochinvasiven Tumorzellen oft resistent gegen Chemo- und Strahlentherapie (Drappatz et al., 2009; Lefranc et al., 2005). In Maustumormodellen und Pateinten konnte zudem gezeigt werden, dass die neuartige antiangiogenetische Therapie zwar das Tumorwachstum verringert, jedoch die Invasivitaet stark erhoeht. (Norden et al., 2008; Ebos et al., 2009; Paez-Ribes et al., 2009). Ueber die Mechanismen die diese hohen Invasivitaet induzieren, ist bislang nur sehr wenig bekannt. Die durch Reduktion von Blutgefaessen steigende Hypoxie des Tumors foerdert die Expression von Matrix-Metalloproteinasen (MMPs). Dies fuehrt zum Abbau der extrazelluaeren Matrix des umgebenden gesunden Gewebes und beguenstigt dadurch die Tumorzellinvasion (Indelicato et al., 2010; Miyazaki et al., 2008; Shyu et al., 2007). Die Umformung des Aktinzytoskeletts und damit die Mobilitaet von Zellen wird vorwiegend durch ein akkurates Zusammenspeil der Rho GTPasen Rac, Rho und Cdc42, kontrolliert (Ridley et al., 2003). Fuer die Organisation von Axonen im Nervensystem und fuer die Blut- und Lymphgefaessbildung wurde gezeigt, dass die Interaktion der Eph-Rezeptortyrosinkinasen und Ihrer Ephrin-Liganden Signalwege induziert, die in die Regulation dieses Zusammenspiels involviert sind (Egea and Klein, 2007; Makinen et al., 2005; Palmer et al., 2002; Sawamiphak et al., 2010). Des Weiteren zeigt die Analyse der Genloci von Eph-Rezeptoren und Ephrinen in verschieden Hirntumoren eine gehaeufte Deletionen des Ephrin-B2-Gens. Die Quantifizierung von Ephrin-B2 mRNA in diesen Tumoren hat ausserdem ergeben, dass mit zunehmender Malignitaet die Expression von Ephrin-B2 sinkt. Aus diesen Gruenden wurden die Untersuchungen in dieser Arbeit auf die Rolle von Ephrin-B2 anhaengigen Signalwegen in der Glioblastomzellinvasion konzentriert. In einem modifiziertem Boyden-Chamber-Assay konnte gezeigt werden, dass das Ephrin-B2 induzierte EphB4 forward signaling und EphB4 induzierte Ephrin-B2 reverse signaling die Invasivitaet der human Glioblastomzelllinien LN-229, G55 und SNB-19 reduziert. In einem Maustumormodel konnte weiterhin gezeigt werden, dass Ephrin-B2 Knock-Out (KO) Astrozytomzellen, im Vergleich zu Wild-Typ (WT) Zellen, Tumore mit einem groesseren Volumen und einer erhoehten Invasivitaet bilden. Da die Expressionslevel fuer die Ephrin-B2 bindenden Rezeptoren EphA4, EphB1 EphB3 und EphB6 auch im adulten Hirn hoch sind (Hafner et al., 2004), weisen diese in vitro und in vivo Ergebnisse auf eine Tumorsupressorfunktion von Ephrin-B2 hin, die durch repulsive Effekte des Ephrin-B2 reverse signaling vermittelte werden koennten. Dies geht mit Erkenntnissen ueber kolorektale Tumore einher (Batlle et al., 2005). Die in einem Sphaeroid-Invasionsassay mit einer EphB-Rezeptoren freien Umgebung beobachtete verminderte Invasion von Ephrin-B2 WT deutet auf eine zusaetzliche invasionsblockierende Rolle der Ephrin-B2-Eph-Rezeptor Interaktion zwischen benachbarten Tumorzellen hin, wie sie auch in Brusttumoren gefunden wurde (Noren et al., 2006). Es scheint als sei Tumorprogression und Invasion erst moeglich, nachdem die Expression von Ephrin-B2 vermindert wurde. Es konnte weiterhin gezeigt werden, dass in hypoxischen Glioblastomzellen die Ephrin-B2 Expression durch die direkte Bindung des den Transkriptionsfaktors ZEB2 an den Ephrin-B2 Promoter reprimiert wird. In einem Weiteren Maustumormodel konnte gezeigt werden, dass die Blockierung der ZEB2 Expression mittels shRNA und die damit einhergehenden Inhibition der hypoxie induzierten Ephrin-B2 Repression das Wachstum und die Invasivitaet von Glioblastomen verringert. Zusaetzlich wurde gezeigt, dass der Verlust von ZEB2 ausreicht, die durch antiangiogenetische Therapie induzierte stark erhoehte Invasivitaet zu vermeiden. Die in dieser Arbeit gewonnen Erkenntnisse fuehren zu folgendem Modelmechanismus. In kleinen normoxischen Tumoren koennen repulsive Effekte des Ephrin-B2 reverse signalings und EphB forward signalings zwischen Tumorzellen und Zellen des umgebenden Gewebes die Ausbreitung und Invasion des Tumors unterdruecken. Zusaetzlich koennte das Ephrin-B2 induzierte EphB forward signaling zwischen benachbarten Tumorzellen die Mobilitaet der Tumorzellen wie in Brusttumoren inhibieren. Beim Erreichen einer bestimmten Tumorgroesse tritt Hypoxie auf, wodurch HIF-1alpha stabilisiert wird. Dies fuehrt dann zur ZEB2 Expression und leitet die Repression von Ephrin-B2 ein, was wiederum zur erhoehten Tumorzellemobilitaet und im Zusammenspiel mit MMPs zu Invasion fuehren kann. Gleichzeitig werden durch den HIF-induzierten VEGF-Gradienten neue Blutgefaesse rekrutiert. Damit wird der hypoxie-induzierten Invasivitaet entgegengewirkt. Wird mittels antiangiogenetischer Behandlung versucht Tumorprogression entgegenzuwirken, resultiert daraus eine erneut gesteigerte Hypoxie, die dann durch die ZEB2 vermittelte Repression von Ephrin-B2 wieder eine erhoehte Invasivitaet induzieren kann. Das Blockieren der ZEB2 Expression kann dieser durch antiangiogenetischen Behandlung induzierten Invasivitaet entgegenwirken.
The Alborz Mountains are forming a ~100 km wide, E-W trending mountain chain where individual summits are up to 5000 m in elevation. The Alborz Mountains range are part of the Alpine orogen and are straddling a 2000 km wide area S of the Caspian Sea. The rocks of the Alborz Mountains consist of Neogen sediments, which are affected by folding and faulting. In the western part of the Alborz Mountains the folds and faults are trending NW-SE, whereas in the eastern part they are trending NE-SW. GPS data confirm N-S shortening including dextral strike-slip along ESE-WNW trending faults, and sinistral strike-slip along ENE-WSW trending faults. The present thesis is focusing on the active Garmsar salt nappe, the fragmented roof of which is pierced by rock salt which extruded near the front of the Alborz Mountains Range. During the past 5 m.y. the front of the Alborz chain migrated towards SSW on top of the salt of the Garmsar basin. The salt was squeezed towards SSW and took place at the Great Kavir. The extruded salt is forming the Eyvanekey plateau between the cities of Eyvanekey and Garmsar. Both the Garmsar salt nappe and the Eyvanekey plateau are dextrally displaced for ca. 9 km along the Zirab-Garmsar fault. Structural analyses of the Garmsar salt nappe indicate three different groups of joints which are trending perpendicular and parallel to the local mechanical anisotropy. The folds of the study area are congruent (type 2 and 3 after Ramsay) resulting from viscose inhomogeneous flow. InSAR-Investigations suggest the Alborz Mountains to be lifted up by ca. 1 cm/a, while horizontal shortening is active at a rate of 8 ±2 mm/a. These values are consistent with GPS data. Based on nine „Advanced Synthetic Aperture Radar“ (ASAR) scenarios, produced by the ENVISAT satellite of the European space agency between 2003 and 2006, we used interferograms to map the displacement via 22 increments during 2 – 18 months. The results suggest that the topographic height of the surface of the salt is changing at a rate which is controlled by the season. The displacement ranges from subsidence at -40 to -50 mm/a to uplift of 20 mm/a. In order to investigate the time-dependent deformation with high spatial resolution, we used algorithms which are based on data of small base lines (SBAS). The resulting interferometric SAR time series analyses also suggest that the study area is largely subsiding at a rate that is controlled by the seasons. The map with the averaged LOS deformation velocities, on the other hand, suggests the subsidence to increase from the upper part of the salt nappe towards deeper topographic 5 levels of the agricultural lowlands. The major part of subsidence is probably caused by the annual rainfall which results in subrosion of salt. The spatial changes in the subsidence rate are probably controlled by the distribution of fountains, mining activity at the margin of the salt glacier, and faults and fractures inside the salt. Striking seasonal imprints are obvious along the agricultural areas which are surrounding the Garmsar salt nappe. These areas are rapidly subsiding in summer and spring when groundwater is used for irrigations. The maximum rate of subsidence (40-50 mm/a) is located E and W of the Eyvanekey plateau, where large areas are irrigated. The maximum displacement is 20 mm/a in the farmland and 5 mm/a in the center of the salt nappe. Depth estimates using Euler deconvolution method for gravimetric and magnetic data suggest the salt to extrude from a depth less than ca. 2000 m. The gravity field of the study area is characterized by strong anomalies in the SW and weak anomalies in the NE. A considerable negative anomaly in the N indicates that the northern part subsided, whereas the southern part was lifted up. The seismic data show three major horizons inside the Miocene sediments: the Lower Red Formation, the Qom Formation, and the Upper Red Formation. The western part of the study area seems to be free from salt domes. The layers of the upper part of the Qom Formation show thinning along the NE and NW trending faults. In some areas the seismic reflectors indicate steep faults close the saddle of the folds. NE-SW-, NW-SE and E-Wtrending faults prevail. Analogue experiments have been carried out to extend our knowledge about the evolution of the Garmsar salt dome. We used a scaled model (34 cm * 25 cm * 2.5 cm) that was shortened perpendicular to its long side. The wedge shape of the Alborz Mountains was simulated by a wedge consisting of Styrofoam. Rock salt was simulated using Polydimethylsiloxan (PDMS), a linear viscous material with a viscosity of 2.3*104 Pa s and a density of 0.96 g/cm3 at room temperature. Other sediments were modeled using dry quartz sand. The experimental results can be used to simulate the structural evolution of the study area: The Alborz deformation front was emplaced on top of the salt rocks in the Garmsar area while migrating towards SSW. A salt basin and a salt extrusion have also been produced in the model. Cross sections through the wedge shaped analogue model indicate N- and S-dipping reverse faults, which are in line with the wedge shape of the Alborz chain. Moreover, ENE-WSW trending sinistral and ESE-WNW trending dextral strike-slip faults led to N-S shortening during the Miocene. Structural marker horizons, 6 which have been turned into Z-folds on the western fold limbs and to S-folds on the eastern fold limbs, are comparable with the folds of the study area. Solving the problem of waste is one of the central tasks of environmental protection. It is becoming increasingly difficult to find suitable sites that are acceptable to the public. Salt and salt formations have relevant properties to be utilizing as a repository for each kind of waste. The favorable properties make rock salt highly suitable as a host rock, in particular for nonradioactive and radioactive wastes. The Qom and Garmsar basins are the nearest salt diapirs to the Tehran province, and there are suitable repositories for waste disposal. Based on surface and subsurface data, the Garmsar salt diapir has been investigated as a case example for its suitability as a host and repository for various types of waste. The data used are based on field studies, interferometry, and geophysical investigations. The results of this study suggest the deep bedded salt of the Garmsar Salt Basin to be an appropriate host for the deposition of industrial waste. Rock salt of surficial layers or domes, on the other hand, is not regarded as an appropriate candidate for waste disposal.
Wastewater treatment plants (WWTPs) do not eliminate micropollutants completely and are thus important point sources for these substances. In particular, concerns about en-docrine disrupting compounds in WWTP effluents give rise to the implementation of advanced treatment steps for the elimination of trace organic contaminants. The present study investigated ozonation (O3) and activated carbon treatment (AC) at two WWTPs. For an ecotoxicological assessment at WWTP Regensdorf, conventionally treated wastewater, wastewater after ozonation, and ozonated wastewater after sand filtration were evaluated in parallel via the fish early life stage toxicity test (FELST) using rainbow trout (Oncorhynchus mykiss). Additionally, a comparative toxicity evalu-ation of ozonated and activated carbon treated effluents was performed at the pilot scale treatment plant in Neuss (WWTP Neuss). For this purpose, four invertebrate tests and one higher plant toxicity test were selected to assess potential biological effects on or-ganisms [Lemna minor growth inhibition test, chironomid toxicity test with Chironomus riparius, Lumbriculus variegatus toxicity test, comet assay with haemolymph of the zebra mussel (Dreissena polymorpha), reproduction test with Potamopyrgus antipo-darum]. All in vivo assays were performed on site at the treatment plants in flow-through test systems. Furthermore, the present study investigated the effects of ozona-tion and activated carbon treatment on endocrine activities [estrogenicity, anti-estrogenicity, androgenicity, anti-androgenicity, aryl-hydrocarbon receptor (AhR) agonistic activity] with yeast based bioassays using solid phase extracted water samples. To evaluate the removal of in vitro non-specific toxicity, a cytotoxicity assay using a rat cell line was applied. The FELST at WWTP Regensdorf revealed a considerable developmental retardation of test organisms exposed to ozonated WW. This was accompanied by a significant decrease in body weight and length compared to reference water, to the conventionally treated WW, and to the ozonated water after sand filtration. Hence sand filtration obvi-ously prevents from adverse ecotoxicological effects of ozonation. An additional test – starting with yolk-sac larvae – resulted in a significant reduction of vitellogenin levels in fish exposed to ozonated wastewater compared to fish reared in conventionally treat-ed wastewater. This demonstrates the effective removal of estrogenic activity by ozonation. At WWTP Neuss, the reproduction test with the mudsnail P. antipodarum exhibited a decreased reproductive output after advanced treatment compared to conventional treatment. This indicates an effective estrogenicity removal by ozonation and activated carbon treatment and is confirmed by results of the yeast estrogen screen with a reduc-tion of in vitro estrogenic activity by > 75%. The L. variegatus test revealed a signifi-cantly enhanced toxicity after ozonation compared to conventional treatment, whereas this effect was reduced following subsequent sand filtration. When ozonation was applied, a significantly increased genotoxicity was observed, detected with the comet assay using haemolymph of the zebra mussel. Again, this effect was removed by subsequent sand filtration to the level of conventional treatment. Activated carbon treatment even resulted in a significant reduction of genotoxicity. At both treatment plants, adverse effects after ozonation may have been a result of the formation of toxic oxidation by-products. However, sand filtration reduced toxication effects, indicating that these oxidation by-products are readily degradable or adsorbable. The results point out that, in any case, ozonation should not be applied without subsequent biologically active post treatment appropriate for oxidation by-products removal (e.g. sand filtration). However, only activated carbon achieved a toxicity reduction compared to the conventional treated wastewater. Thus, it cannot be excluded that po-tential beneficial effects due to ozonation might be masked by residual toxic oxidation by-products passing the sand filter or ozonation is not as effective in toxicity removal as PAC treatment. The yeast based assays with solid phase extracted samples revealed an effective endo-crine activity removal during ozonation and activated carbon filtration (estrogenicity: 77 – 99%, anti-androgenicity: 63 – 96%, AhR agonistic activity: 79 – 82%). The cyto-toxicity assay exhibited a 32% removal of non-specific toxicity after ozonation com-pared to conventional treatment. Ozonation in combination with sand filtration reduced cytotoxic effects by 49%, indicating that sand filtration contributes to the removal of toxicants. Activated carbon treatment was the most effective technology for cytotoxici-ty removal (61%). Sample evaporation reduced cytotoxic effects by 52% (after activated carbon treatment) to 73% (after ozonation), demonstrating that volatile substances contribute considerably to toxic effects, particularly after ozone treatment. These results confirm an effective removal or transformation of toxicants with receptor mediated mode of action and non-specific toxicants during both investigated treatment steps. However, due to the limited extractability, polar ozonation by-products were neglected for toxicity analysis, and hence non-specific toxicity after O3 is underestimated. In the long run, only on-site comparisons at WW receiving water bodies (e.g. communi-ty analysis of fish, macroinvertebrates, plants, microorganisms) – before and after up-grading WWTPs – allow drawing environmentally relevant conclusions regarding bene-fits and risks of advanced WW treatment methods. Conclusively, the benefits and possible negative impacts have to be carefully evaluated to prove that not more environmental impact will be induced than removed by advanced treatment technologies as each additional treatment requires considerable amounts of energy, resources, and infrastructure facilities. Accordingly, comprehensive sustainable approaches for pollution prevention and wastewater treatment (e.g. source control and source separation) are preferable compared to end-of-pipe treatment systems.
Employing NMR spectroscopy, it is not only possible to calculate the three dimensional structures of single proteins, but also to study dynamics and conformational changes of protein-complexes. In fact that is an important aspect, since the protein function depends on dynamics and interactions with other molecules. Therefore the study of protein-protein interactions is of highest importance for a better understanding of biological processes. Based on NMR methods, in this thesis we were able to determine protein-protein interactions within the enterobacterial Rcs signalling complex which is regulated via a phosphorelay. Originally identified as regulator of capsule synthesis, the Rcs phosphorelay is now considered to be implicated in stress response caused by disturbances in the peptidoglycan layer. Beyond that the Rcs system is involved in multiplex transcriptional networks including cell division, motility, biofilm formation and virulence. Because of such global nature and its extraordinary structural organisation involving membrane integrated sensor proteins (RcsC, RcsD), coactivators (RcsF, RcsA) and a transcription factor (RcsB), the Rcs system is one of the most remarkable phosphorelays in the family of enterobacteriacaea. During the complex phosphotransfer the histidine phosphotransferase (HPt) domain of the intermediary RcsD protein mediates the phosphotransfer between RcsC and RcsB, and probably modulates the phosphorylation state of the response regulator RcsB. Therefore the present work has been focused on the interface between RcsD and RcsB in more detail. In the first part of the thesis a new domain within the RcsD protein has been identified and structurally analysed by liquid NMR spectroscopy. RcsD is an inner membrane bound hybrid sensor like-kinase composed of a periplasmic sensor domain and a cytoplasmic portion. The cytoplasmic part contains the histidine like-kinase (HK) domain and the histidine phosphotransferase (HPt) domain. By analysis of the secondary structure in more detail, it was shown here that the two domains are intermitted by an additional 13.3 kDa domain. Corresponding to the position of the ABL (α−β−loop) domain of RcsC, located C-terminal to the RcsC-HK domain, the new identified domain was named RcsD-ABL. The central structural element of RcsD-ABL is a β-sheet composed of six strands with a β1−β2−β3−β4−β6−β5 topology and surrounded by two α-helices α1 and α2. In the second part of the thesis, RcsD-ABL is identified as a binding domain for the response regulator RcsB by NMR titration experiments. Such a binding domain for a response regulator has so far only been described for the histidine kinase CheA. In reportergene assays with β-galactosidase and ONPG as substrate it was shown that overexpression of RcsD-ABL in high amounts inhibited binding of RcsB to its target promoter. The β-galactosidase activity was reduced by 80 % with respect to cells carrying no plasmid encoding RcsD-ABL. The mapping of the binding interface was successfully achieved by chemical shift perturbations, a fast mapping protocol and selective labelling. It was shown that the interaction between RcsD-ABL and RcsB takes place via a binding interface comprising mainly the two α-helices of RcsD-ABL and the α-helices α7, α8 and α10 in the effector domain of RcsB. In the third part of the thesis, the interaction of RcsB with RcsD-ABL was related to that with RcsD-HPt. Using NMR titration experiments and ITC measurements, a comparison of the binding constants (Kd) of RcsB interacting either with the isolated RcsD-ABL (2 PM) or the isolated RcsDHPt domain (40 PM) revealed a higher affinity of RcsD-ABL to RcsB. A conjugate of RcsD-ABL-HPt interacting with RcsB decreased the Kd in the one-site fitting mode to 10 PM. However, the two-site fitting mode applied for RcsD-ABL-HPt/RcsB interaction resulted in a Kd (RcsD-ABL) of 2 PM and a Kd (RcsD-HPt) of 8 PM, indicating that RcsD-ABL enhances the binding of RcsD-HPt to RcsB. In the last part of the thesis, it was partly possible together with the data obtained from NMR titration experiments, PRE measurements and a HADDOCK protocol to develop a geometrical model for the interaction of RcsD with RcsB. In this model the receiver domain of RcsB interacts with the RcsD-HPt domain and the RcsB effector domain interacts with the RcsD-ABL domain. These results lead to surprising insights on the regulation of phosphorelays, since normally the effector domain binds to DNA. Here the effector domain is recognized by the newly identified RcsD-ABL domain. Prospectively, further investigations of phosphorylation affects and mutational studies will be of great interest.
2.1. Background & purpose The recent introduction of new technical innovations such as CT perfusion (CTP) and dual energy CT (DECT) increases the diagnostic abilities of CT for imaging of the head and neck (H&N). The aim of this work was to evaluate the role of CTP and DECT in head and neck imaging. The first part tests whether CTP can differentiate between malignant H&N tumors and surrounding muscle, and discusses the impact of arterial input selection and tumor region of interest (ROI) on CTP of H&N cancer. The second part of the study evaluates radiation dose and image quality of DECT of the H&N. Finally the use of DE derived weighted averaging to improve lesion delineation and image quality is discussed. 2.2. Patients and methods CT perfusion Retrospective analysis of CTP was done for a total number of 55 cases of H&N tumors. Perfusion parameters were calculated for 33 cases of squamous cell carcinoma (SCC) and compared to those of muscles. CTP parameters of 50 cases of H&N tumors calculated using different arterial input functions were compared. CTP was calculated for 28 SCC cases using the single dynamic CT section that shows maximal tumor dimension compared to using average values obtained from all tumor-containing dynamic CT sections. Dual energy CT of head and neck This prospective part of the study was further divided into 2 parts. In the first part 32 consecutive patients underwent DECT of the H&N and were compared to a standard single energy CT (SE) control group. Radiation doses were compared. Weighted-average images from raw data of the 2 DE tubes (weighting factor 0.3 from 80 kVp and 0.7 from 140 KVp) were compared to SE images. Image noise was compared at 5 anatomic levels. Two blinded readers compared subjective overall image quality on a 5-point grading scale. In the second part 35 proved SCC cases underwent DECT of the neck. Pure 140 kVp and 80 kVp image datasets as well as weighted-average images from raw data of the 2 DE tubes at weighting factors 0.3, 0.6, 0.8 (30%, 60% and 80% from 80 kVp raw data respectively) were reconstructed. Objective image noise, contrast to noise ratio (CNR) and subjective image quality were compared between the 5 image datasets. Results CT perfusion Tumor perfusion parameters were significantly higher than those of muscle (p <0.05). Significant high correlation with no significant differences between the means (p >0.05) were observed between perfusion parameters obtained using internal carotid artery (ICA) versus external carotid artery (ECA) and ipsilateral versus contralateral ICA. High correlation was observed between perfusion parameters calculated using one section with maximal tumor dimension and the average of multiple sections. Differences between the means were non significant, p values>0.05. The 95% limits of agreement between repeated measurements using average of multiple sections were slightly narrower for blood volume and permeability than those of repeated measurements using one section. Dual energy CT of head and neck CTDIvol was 12% lower with DE than SECT (p<0.0001). There were no significant differences in objective noise between DECT and SECT at any of the anatomic levels (p >0.05). There were no significant differences between DE- and SECT in attenuation measurements, all p values >0.05. No significant differences in subjective image quality scores were observed between DE- and SECT at any of the 5 anatomic levels (p >0.05). At weighting factor 0.6 the lesion CNR was significantly higher than at weighting factor 0.3 and at pure 140 kVp image dataset (p< 0.0001); while non significantly lower than at weighting factor 0.8 and pure 80 kVp (p=1.00). The 0.6 weighting factor was rated the best at subjective image quality and lesion delineation. 2.4. Conclusion In conclusion; this study demonstrated the ability of CTP to differentiate SCC from surrounding muscle tissue. The choice of arterial input selection has no significant impact on quantitative CTP of H&N tumors. CTP of SCC calculated from one section with maximal tumor dimensions and the average values from multiple sections are not significantly different. The second part of the study showed that DE scanning can be routinely used for H&N imaging; preserving high diagnostic image quality even when the radiation dose was lowered by 12%. Average weighting of DE raw data, with a weighting factor 0.6, results in significant improvement in both tumor delineation and image quality.
The analysis of biomolecular macrocomplexes requires certain preconditions to be fulfilled. The preparation of biomolecular samples usually results in low yields. Due to this constraint of low availability any method should provide a sufficient sensitivity to cope with typical sample amounts. Biomolecules also often show a reduced stability, i.e. a propensity for fragmentation upon ionisation, which requires reasonable soft methods for the investigation. Furthermore macromolecular complexes usually are composed by means of non-covalent interactions presenting additional demands on the softness. This holds true for specific complexes like protein-ligand or DNA double strand binding. For the formation of non-covalent, specific complexes the biomolecules’ native structure and environment are a basic prerequisite and hence crucial. Therefore it is desirable during analysis to keep the biomolecules in a native environment to preserve their structure and weak interactions. One suitable method for analysing biomolecules is mass spectrometry. Mass spectrometry is capable of high throughput screening as well as determining masses with high accuracy and high sensitivity. Especially since the availability of MALDI-MS and ESI-MS mass spectrometry evolved to a versatile tool to investigate biomolecular complexes. Both, MALDI- and ESI-MS are sufficiently soft methods to observe fragile biomolecules. Yet both methods have their advantages and disadvantages. During the recent years an alternative mass spectrometric approach has been developed in our group, termed LILBID-MS (Laser Induced Liquid Bead Ionisation/Desorption). In LILBID microdroplets of aqueous solution containing buffer, salt and further additives among the analyte molecules are injected into vacuum and irradiated one-by-one by mid-IR laser pulses. The absorption of the energy by the water leads to a rapid ablation of the preformed analyte ions. LILBID is highly tolerant for the addition of salts and detergents allowing to study biomolecular complexes in a native environment. As LILBID-MS is soft enough to avoid fragmentation, specific non-covalent complexes can be analysed directly from their native environment by this method. In addition dissociation can be induced on demand by increasing the laser intensity which allows for the study of subunit compositions. A further prominent property of LILBID is the possibility to study hydrophobic membrane proteins due to the tolerated use of detergents. During the course of this work, several instrumental improvements mostly concerning ion focussing and beam steering were introduced. Together with refinements of different modes of measurement the result is a significantly improved signal-to-noise ratio as well as a further improvement in sensitivity. In addition the accessible m/z range for a given flight time has been vastly increased. The new possibilities that LILBID now offers for the study of biomolecular complexes were investigated. The ability to detect specific binding in LILBID-MS was investigated by means of nucleic acids and their interaction with proteins. It could be shown that the stability of a 16bp dsDNA corresponds to that in solution phase regarding the dependency on concentration and type of the salts used. In addition a competitive experiment with the well-known transcription factor p50 was used to demonstrate the detection of sequence-specific binding with LILBID. The improved sensitivity allowed to detect single stranded DNA at nanomolar concentrations and even the 2686bp plasmid pUC19 could be easily detected without fragmentation using a concentration of only 80nM. In case of the transcription factor p63 the mass spectrometric analysis could help to identify a new model of activation and inhibition. For the first time known quarternary structures of membrane proteins like the light-driven proton pump bacteriorhodopsin and the potassium channel KcsA could be detected with mass spectrometry. For the light-driven proton pump proteorhodopsin the type and the concentration of the used detergents significantly influenced the stability of this protein as well as the preferred quarternary structure.
In nature, society and technology many disordered systems exist, that show emergent behaviour, where the interactions of numerous microscopic agents result in macroscopic, systemic properties, that may not be present on the microscopic scale. Examples include phase transitions in magnetism and percolation, for example in porous unordered media, biological, and social systems. Also technological systems that are explicitly designed to function without central control instances, like their prime example the Internet, or virtual networks, like the World Wide Web, which is defined by the hyperlinks from one web page to another, exhibit emergent properties. The study of the common network characteristics found in previously seemingly unrelated fields of science and the urge to explain their emergence, form a scientific field in its own right, the science of complex networks. In this field, methodologies from physics, leading to simplification and generalization by abstraction, help to shift the focus from the implementation's details on the microscopic level to the macroscopic, coarse grained system level. By describing the macroscopic properties that emerge from microscopic interactions, statistical physics, in particular stochastic and computational methods, has proven to be a valuable tool in the investigation of such systems. The mathematical framework for the description of networks is graph theory, in hindsight founded by Euler in 1736 and an active area of research since then. In recent years, applied graph theory flourished through the advent of large scale data sets, made accessible by the use of computers. A paradigm for microscopic interactions among entities that locally optimize their behaviour to increase their own benefit is game theory, the mathematical framework of decision finding. With first applications in economics e.g. Neumann (1944), game theory is an approved field of mathematics. However, game theoretic behaviour is also found in natural systems, e.g. populations of the bacterium Escherichia coli, as described by Kerr (2002). In the present work, a combination of graph theory and game theory is used to model the interactions of selfish agents that form networks. Following brief introductions to graph theory and game theory, the present work approaches the interplay of local self-organizing rules with network properties and topology from three perspectives. To investigate the dynamics of topology reshaping, coupling of the so called iterated prisoners' dilemma (IPD) to the network structure is proposed and studied in Chapter 4. In dependence of a free parameter in the payoff matrix, the reorganization dynamics result in various emergent network structures. The resulting topologies exhibit an increase in performance, measured by a variance of closeness, of a factor 1.2 to 1.9, depending in the chosen free parameter. Presented in Chapter 5, the second approach puts the focus on a static network structure and studies the cooperativity of the system, measured by the fixation probability. Heterogeneous strategies to distribute incentives for cooperation among the players are proposed. These strategies allow to enhance the cooperative behaviour, while requiring fewer total investments. Putting the emphasis on communication networks in Chapters 6 and 7, the third approach investigates the use of routing metrics to increase the performance of data packet transport networks. Algorithms for the iterative determination of such metrics are demonstrated and investigated. The most successful of these algorithms, the hybrid metric, is able to increase the throughput capacity of a network by a factor of 7. During the investigation of the iterative weight assignments a simple, static weight assignment, the so called logKiKj metric, is found. In contrast to the algorithmic metrics, it results in vanishing computational costs, yet it is able to increase the performance by a factor of 5.
Suicide genes have been broadly used in gene therapy. They can serve as safety tools for conditional elimination of infused cells or for directed tumor therapy. To date, the Herpes simplex virus thymidine kinase/ ganciclovir (HSVtk/GCV) system is the most prominent and the most widely used suicidegene/prodrug combination. Despite its promising performance, the system displays limitations, which include relatively slow killing kinetics and toxicity of the prodrug GCV. Consequently, several groups have either developed new suicide-gene/prodrug combinations or attempted to improve the established HSVtk/GCV suicide system. The present study also aimed towards optimization of the HSVtk/GCV system. To do so, a novel, codon-optimized point mutant (A168H) of HSVtk was developed. The novel mutant was named TK.007. It was extensively tested for its efficiency in two relevant settings: (1) control of severe graft-versus-host disease (GvHD) after adoptive immunotherapy with Tlymphocytes, and (2) direct elimination of targeted tumor cells. TK.007 was compared to the broadly used wild-type, splice-corrected scHSVtk and to a codon-optimized HSVtk (coHSVtk) not bearing the above point mutation. (1) For experiments related to the adoptive immunotherapy approach, HSVtkvariants were expressed from a γ-retroviral MP71 vector as a fusion construct with the selection and marker gene tCD34. Expression levels for TK.007 in transduced lymphoid and myeloid cell lines were significantly higher at initial transduction and over a 12 week period compared to the commonly used scHSVtk and coHSVtk indicating reduced toxicity of TK.007. Killing kinetics of transduced cell lines (PM1 and K562) and primary human T cells were significantly faster for TK.007 in comparison to scHSVtk and coHSVtk in vitro. In vivo-functionality of TK.007 was assessed in an allogeneic transplantation model. T cells derived from C57BL/6J.Ly5.1 donor mice were transduced with MP71 vectors expressing scHSVtk or TK.007. Transduced cells were selected and transplanted into Balb/c Rag2-/- γ-/- immune-deficient recipient mice. Acute, severe GvHD occurred and was effectively abrogated in all mice transplanted with TK.007- transduced T cells, and in five out of six mice transplanted with scHSVtk-transduced cells. In a slightly modified quantitative allogeneic transplantation mouse model, significantly faster and more efficient in vivo killing was demonstrated for TK.007 as compared to scHSVtk, especially at low doses of GCV. (2) In order to assess TK.007 functionality in cells derived from solid tumors, HSVtk-variants were expressed from lentiviral gene ontology (LeGO) vectors in combination with an eGFP/neo-opt selection cassette. Transduced and selected tumor cell lines that derived from several tissues were eliminated at significantly lower GCV doses and to higher extents when transduced with TK.007 compared to scHSVtk. Moreover, a significantly stronger bystander effect of TK.007 was demonstrated. The superior in vitro efficiency of TK.007 was confirmed in an in vivo subcutaneous xenograft mouse model for glioblastoma in NOD/SCID mice. Mice transplanted with TK.007 transduced cells stayed tumor-free after treatment with different GCV-doses. On the contrary, mice of the scHSVtk group either demonstrated only transiently reduced tumor growth in the low-dose GCV group (10 mg/kg) compared to the control groups or suffered from relatively fast relapses after initial tumor shrinking in the standarddose (50 mg/kg) GCV group. As a result, all mice in the scHSVtk group died from vigorous tumor growth. In summary, in two different applications for suicide gene therapy the present study has demonstrated superior functional performance of the novel suicide gene TK.007 as compared to the broadly used wild-type scHSVtk. Differences became particularly pronounced at low doses of GCV. It can be concluded that the new TK.007-gene represents a promising alternative to the commonly used scHSVtk for gene therapeutic applications.
The aim of this work is to develop an effective equation of state for QCD, having the correct asymptotic degrees of freedom, to be used as input for dynamical studies of heavy ion collisions. We present an approach for modeling an EoS that respects the symmetries underlying QCD, and includes the correct asymptotic degrees of freedom, i.e. quarks and gluons at high temperature and hadrons in the low-temperature limit. We achieve this by including quarks degrees of freedom and the thermal contribution of the Polyakov loop in a hadronic chiral sigma-omega model. The hadronic part of the model is a nonlinear realization of an sigma-omega model. As the fundamental symmetries of QCD should also be present in its hadronic states such an approach is widely used to describe hadron properties below and around Tc. The quarks are introduced as thermal quasi particles, coupling to the Polyakov loop, while the dynamics of the Polyakov loop are controlled by a potential term which is fitted to reproduce pure gauge lattice data. In this model the sigma field serves a the order parameter for chiral restoration and the Polyakov loop as order parameter for deconfinement. The hadrons are suppressed at high densities by excluded volume corrections. As a next step, we introduce our new HQ model equation of state in a microscopic+macroscopic hybrid approach to heavy ion collisions. This hybrid approach is based on the Ultra-relativistic Quantum Molecular Dynamics (UrQMD) transport approach with an intermediate hydrodynamical evolution for the hot and dense stage of the collision. The present implementation allows to compare pure microscopic transport calculations with hydrodynamic calculations using exactly the same initial conditions and freeze-out procedure. The effects of the change in the underlying dynamics - ideal fluid dynamics vs. non-equilibrium transport theory - are explored. The final pion and proton multiplicities are lower in the hybrid model calculation due to the isentropic hydrodynamic expansion while the yields for strange particles are enhanced due to the local equilibrium in the hydrodynamic evolution. The elliptic and directed flow are shown to be not sensitive to changes in the EoS while the smaller mean free path in the hydrodynamic evolution reflects directly in higher flow results which are consistent with the experimental data. This finding indicates qualitatively that physical mechanisms like viscosity and other non equilibrium effects play an essentially more important role than the EoS when bulk observables like flow are investigated. In the last chapter, results for the thermal production of MEMOs in nucleus-nucleus collisions from a combined micro+macro approach are presented. Multiplicities, rapidity and transverse momentum spectra are predicted for Pb+Pb interaction at different beam energies. The presented excitation functions for various MEMO multiplicities show a clear maximum at the upper FAIR energy regime making this facility the ideal place to study the production of these exotic forms of multistrange objects.
Over the last years there has been an increasing interest in the involvement of the MVA-pathway and of members of the small GTPases, in the development and progression of AD. Earlier investigations mainly focused on the role of cholesterol in disease pathology. This research was supported by retrospective cohort studies, initially showing beneficial effects of the long-term intake of cholesterol lowering statins, on the incidence of the development of sporadic AD. However, in more recent literature increasing attention has been paid to the isoprenoids, FPP and GGPP, due to their crucial role in the post-translational modifications of members of the superfamily of small GTPases. In AD, these proteins were amongst others shown to be involved in mechanisms affecting APP processing, ROS generation and synaptic plasticity. A major factor impeding the clarification of the role of the MVA-pathway intermediates in these mechanisms was the lack of a sensitive and accurate method to determine FPP and GGPP levels in brain tissue. Hence, a state of the art HPLC-FLD method for the quantification of the isoprenoids FPP and GGPP in brain tissue was successfully developed. After the introduction of a double clean-up step from complex brain matrix samples and the synthesis of an appropriate IS (DNP), the method was fully validated according to the latest FDA guideline for bioanalytical method validation. Furthermore, this method was transferred to a faster and more sensitive, state of the art UHPLC-MS/MS application. Additionally, the method was shown to be applicable for mouse brain tissue and data was generated from an in vivo mouse simvastatin study and for different mouse models. According to the aims of the thesis, the current work describes for the first time absolute isoprenoid concentrations in human frontal cortex white and grey matter. Furthermore, this is the first report of isoprenoid levels in the frontal cortex of human AD brains. Further results were shown from mouse brains originating from different mouse models, including the Thy-1 APP mouse model mimicking AD pathology in terms of Aβ formation or C57Bl/6 mice at different ages. AD prevalence can be clearly correlated with increasing age. Therefore, three different generations of mice were investigated. The study demonstrated constant isoprenoid and cholesterol levels in the first half of their life followed by a significant increase of FPP and GGPP in the second half (between 12 and 24 month of age). Cholesterol levels were also elevated in the aged group, but again the effect was less pronounced than shown for the isoprenoids. These results lead to the tentative conclusion that cerebral isoprenoid levels are elevated during aging and that this accumulation is amplified during AD leading to accelerated neuronal dysfunction. In a different mouse study, using the C57Bl/6 mice, in vivo drug intervention with the HMG-CoA reductase inhibitor simvastatin revealed strong inhibition of the rate limiting step of the mevalonate/isoprenoid/cholesterol pathway and resulted in the first report of significantly reduced FPP and GGPP levels in brain tissue of statin treated mice. These results open for the first time the possibility to monitor drug effects on cerebral isoprenoid levels and correlate these data with a modulation of APP processing, which was shown by our group in previous studies. Interestingly, apart from the isoprenoid reduction following statin treatment the reduction of brain cholesterol was also significant but to a lesser extent. These findings support the notion that isoprenoid levels are more susceptible to statin treatment than cholesterol levels. Furthermore, this suggests a strong cellular dependence on FPP and GGPP, as the pool seems to be easily depleted, which finally could lead to cell death. The first investigations of farnesylated Ras and geranylgeranylated Rac protein levels by means of immuno-blotting, substantiated the notion of a decreased abundance of prenylated small GTPases under statin influence as a consequence of reduced isoprenoid levels. These findings demonstrate for the first time a correlation of FPP and GGPP levels with the abundance of small GTPases. These findings together with the results from the AD study prove that isoprenoid levels are not strictly subject to the same regulation as cholesterol levels. To further understand the physiological regulation in the cell, in vitro experiments with different inhibitors of the mevalonate/isoprenoid/cholesterol pathway were conducted. These results confirmed the isoprenoid and cholesterol reducing effects of statin treatment as observed in the aforementioned in vivo mouse study. Interestingly, cholesterol synthesis inhibition targeted after FPP as the branch point, led to significantly elevated FPP levels. FTase inhibition led to significantly reduced FPP levels, whereas inhibition of the GGTase I did not show a significant change of either isoprenoid levels.
One of the key functions of blood vessels is to transport nutrients and oxygen to distant tissues and organs in the body. When blood supply is insufficient, new vessels form to meet the metabolic tissue demands and to re-establish cellular homeostasis. Expansion of the vascular network through sprouting angiogenesis requires the specification of ECs into leading (sprouting) tip and following (non-sprouting) stalk cells. Attracted by guidance cues tip cells dynamically extend and retract filopodia to navigate the nascent vessel sprout, whereas trailing stalk cells proliferate to form the extending vascular tube. All of these processes are under the control of environmental signals (e.g. hypoxia, metabolism) and numerous cytokines and peptide growth factors. The Dll4/Notch pathway coordinates several critical steps of angiogenic blood vessel growth. Even subtle alterations in Notch activity can profoundly influence endothelial cell behavior and blood vessel formation, yet little is known about the intrinsic regulation and dynamics of Notch signaling in endothelial cells. In addition, it remains an open question, how different growth factor signals impinging on sprouting ECs are coordinated with local environmental cues originating from nutrient-deprived, hypoxic tissue to achieve a balanced endothelial cell response. Acetylation of lysines is a critical posttranslational modification of histones, which acts as an important regulatory mechanism to control chromatin structure and gene transcription. In addition to histones, several non-histone proteins are targeted for acetylation reversible acetylation is emerging as a fundamental regulatory mechanism to control protein function, interaction and stability. Previous studies from our group identified the NAD+-dependent deacetylase SIRT1 as a key regulator of blood vessel growth controlling endothelial angiogenic responses. These studies revealed that SIRT1 is highly expressed in the vascular endothelium during blood vessel development, where it controls the angiogenic activity of endothelial cells. Moreover, in this work SIRT1 has been shown to control the activity of key regulators of cardiovascular homeostasis such as eNOS, Foxo1 and p53. The present study describes that SIRT1 antagonizes Notch signaling by deacetylating the Notch intracellular domain (NICD). We showed that loss of SIRT1 enhances DLL4-induced endothelial Notch responses as assessed by different luciferase responsive elements as well as transcriptional analysis of Notch endogenous target genes activation. Conversely, SIRT1 gain of function by overexpression of pharmacological activation decreases induction of Notch targets in response to DLL4 stimulation. We also showed that the NICD can be directly acetylated by PC AF and p300 and that SIRT1 promotes deacetylation of NICD. We have identified 14 lysines that are targeted for acetylation and their mutation abolishes the effects of SIRT1 of Notch responses. Furthermore, over-expression or activation of SIRT1 significantly reduces the levels of NICD protein. Moreover, SIRT1-mediated NICD degradation can be reversed by blockade of the proteasome suggesting a mechanism resulting from ubiquitin-mediated proteolysis. Indeed, we have shown that SIRT1 knockdown or pharmacological inhibition decreased NICD ubiquitination. We propose a novel molecular mechanism of modulation of the amplitude and duration of Notch responses in which acetylation increases NICD stability and therefore permanence at the promoters, while SIRT1, by inducing NICD degradation through its deacetylation, shortens Notch responses. In order to evaluate the physiological relevance of our findings we used different models in which the Notch functions during blood vessel formation have been extensively characterized. First, retinal angiogenesis in mice lacking SIRT1 activity shows decreased branching and reduced endothelial proliferation, similar to what happens after Notch gain of function mutations. ECs from these mice exhibit increased expression of Notch target genes. Second, these results were reproducible during intersomitic vessel growth in sirt1-deficient zebrafish. In both models, the defects could be partially rescued by inhibition of Notch activation. Third, we used an in vitro model of vessel sprouting from differentiating embryonic bodies in response to VEGF in a collagen matrix. Our results showed that Sirt1-deficient cells shows impaired sprouting which correlated with increased NICD levels. In addition, when in competition with wild-type cells in this assay, Sirt1-deficient cells are more prone to occupy the stalk cell position. Taken together, our study identifies reversible acetylation of NICD as a novel molecular mechanism to adapt the dynamics of Notch signaling and suggest that SIRT1 acts as a rheostat to fine-tune endothelial Notch responses. The NAD+-dependent feature of SIRT1 activity possibly links endothelial Notch responses to environmental cues and metabolic changes during nutrient deprivation in ischemic environments or upon other cellular stresses.
With the help of miniaturized GPS recorders I recorded 167 tracks of 48 individual pigeons during their flight from 6 different sites around Frankfurt. The experiments consisted of two main series of repeated releases from two sites 30 km north and south from the pigeons' home loft. From the site in the south the pigeons homed 12 times and from the site in the north 16 times. After the final release from these sites, the pigeons were released at 60 km distance from home. These additional sites were selected so that the pigeons would presumably fly over the previous release site with which they were highly familiar. After conclusion of the main series two additional releases were performed, one within the magnetic anomaly of the Vogelsberg and one in a magnetically quiet region. To make these releases comparable, both release sites were selected so that the distance from the home loft was 40 km. All data obtained during these experiments were subjected to a threefold analysis, mostly based on methods that I had developed by myself or adapted for this specific study. In the first step, data were analyzed traditionally, evaluating variables similar to those that can be found in current literature. I therefore calculated values that correspond to those obtained by visual observation, like virtual vanishing bearings and intervals after one minute and after 2.5 km. Additionally I calculated the efficiency of the flights and efficiencies for specific portions of each flight, to derive variables that describe the behavior after vanishing. In the second step, which served also as a preparation for the mathematical analysis, the flight of the pigeons was separated into distinctive phases of the flight by the so-called points of decision. The flight of the pigeon can usually be separated into an initial phase of flying about, a departure and/or final homing phase. In more complex cases, however, several points of decision and a multitude of intermediary phases can be defined. Yet, the initial phase, the departure phase and the final homing phase can be defined for all tracks and therefore have been selected as appropriate candidates for a thorough analysis. In the last step I employed the so-called method of time lag embedding to reconstruct the underlying navigational process of the pigeons' homing flight. This method is based on the principles of chaos theory and is regularly employed for the analysis of dynamic systems. Its application allows the reconstruction of the underlying processes from experimentally recorded data without any a priori knowledge of the underlying system itself. For these reconstructed systems I calculated characteristic properties which are unique for each system. These are the so-called correlation dimension, describing the complexity of the system, and the so-called largest Lyapunov exponent, describing its predictability. Based on the knowledge gathered from these reconstructions, I used a variation of the previous methods to identify navigational phases, by calculating the correlation dimension as a sliding mean over the complete track. From these data I then derived further characteristics of the underlying process, such as its precision and differences in complexity depending on the pigeon's current position. ...
This dissertation connects two independent fields of theoretical neuroscience: on the one hand, the self-organization of topographic connectivity patterns, and on the other hand, invariant object recognition, that is the recognition of objects independently of their various possible retinal representations (for example due to translations or scalings). The topographic representation is used in the presented approach, as a coordinate system, which then allows for the implementation of invariance transformations. Hence this study shows, that it is possible that the brain self-organizes before birth, so that it is able to invariantly recognize objects immediately after birth. Besides the core hypothesis that links prenatal work with object recognition, advancements in both fields themselves are also presented. In the beginning of the thesis, a novel analytically solvable probabilistic generative model for topographic maps is introduced. And at the end of the thesis, a model that integrates classical feature-based ideas with the normalization-based approach is presented. This bilinear model makes use of sparseness as well as slowness to implement "optimal" topographic representations. It is therefore a good candidate for hierarchical processing in the brain and for future research.
Statistical physics of power flows on networks with a high share of fluctuating renewable generation
(2010)
Renewable energy sources will play an important role in future generation of electrical energy. This is due to the fact that fossil fuel reserves are limited and because of the waste caused by conventional electricity generation. The most important sources of renewable energy, wind and solar irradiation, exhibit strong temporal fluctuations. This poses new problems for the security of supply. Further, the power flows become a stochastic character so that new methods are required to predict flows within an electrical grid. The main focus of this work is the description of power flows in a electrical transmission network with a high share of renewable generation of electrical energy. To define an appropriate model, it is important to understand the general set-up of a stable system with fluctuating generation. Therefore, generation time series of solar and wind power are compared to load time series for whole Europe and the required balancing or storage capacities analyzed. With these insights, a simple model is proposed to study the power flows. An approximation to the full power flow equations is used and evaluated with Monte-Carlo simulations. Further, approximations to the distributions of power flows along the links are analytically derived. Finally, the results are compared to the power flows calculated from the generation and load data.
Der L-Carnitin/gamma-Butyrobetain Antiporter CaiT ist ein Mitglied der Betain/Carnitin/Cholin Transporter (BCCT) Familie. Sekundärtransporter der BCCT Familie transportieren Substrate, die eine positiv-geladene quartäre Ammoniumgruppe besitzen. CaiT besteht aus 504 Amiosäuren und besitzt ein moleculares Gewicht von etwa 56 kDa. In Enterobakterien wie Escherichia coli, Proteus mirabilis und Salmonella typhimurium wird die Expression des caiTABCDE Operons unter anaeroben Bedingungen induziert. Unter diesen Bedinungen ist CaiT der Haupttransporter des Betain-Derivates L-Carnitin. In Enterobakterien wird L-Carnitin unter anaeroben Bedingungen aufgenommen und dehydratisiert wobei Crotonobetain ensteht. Crotonobetain wird anschließend zum Endprodukt gamma-Butyrobetain reduziert. Gamma-Butyrobetain ist das Gegensubstrat, das aus der Zelle hinaustransportiert wird, wenn L-Carnitin in die Zelle aufgenommen wird. Der Austauschmechanismus von LCarnitin gegen gamma-Butyrobetain geschieht ohne das Vorhandensein eines elektrochemischen Gradients, d.h. CaiT ist sowohl H+- als auch Na+-unabhängig. Ein Ziel dieser Arbeit war es die drei-dimensionale (3D) Struktur von CaiT mittels Röntgenstrukturanalyse zu lösen. Weiterhin sollten mit Hilfe der 3D-Struktur und funktionellen Studien detailiertere Erkenntnisse über den kationenunabhängigen Antiportmechanismus von CaiT ermittelt werden. Im Rahmen dieser Arbeit wurden die 3D-Röntgenkristallstrukturen von drei CaiT-Homologen der Enterobakterien P. mirabilis (PmCaiT), E. coli (EcCaiT) und S. typhimurium (StCaiT) mittels molekularem Ersatz (engl.: molecular replacement, MR) mit einem Alanin-Model des CaiT verwandten Na+/Glycinbetain Symporters BetP gelöst. PmCaiT konnte mit einer Auflösung von 2.3 Å gelöst werden. Das Protein kristallisierte in der Kristallraumgruppe H3, mit drei Molekülen in der asymmetrischen Einheit (engl.: asymmetric unit, AU). Die drei PmCaiT-Moleküle ordneten sich innerhalb der AU um eine kristallographische dreifach Symmetrieachse an. EcCaiT wurde mittels MR mit einem Alanin-Model von PmCaiT bei einer Auflösung von 3.5 Å gelöst. EcCaiT kristallisierte in der Kristallraumgruppe P32, ebenfalls mit drei Molekülen in der AU, jedoch ohne kristallographische Symmetry. Während der Verfeinerung des EcCaiT-Models wurde eine strenge dreifache nichtkristallographische Symmetry (engl.: non-crystallographic symmetry, NCS) angewandt. StCaiT, das ebenfalls mittels MR mit einem Alanin-Model von PmCaiT, aber bei einer Auflösung von 4.0 Å gelöst wurde, kristallisierte in der Kristallraumgruppe P65, ebenfalls mit drei StCaiT-Molekülen in der AU, ohne kristallographische Symmetry. Bei der Verfeinerung des StCaiT-Modells wurde wie bei EcCaiT eine strenge NCS angewandt. Da die Auflösung von 4.0 Å bei StCaiT zu niedrig ist um detailierte moleculare Erkenntnisse zu gewinnen, wurden Protein- sowie Substratinteraktionen nur an den Strukturen von PmCaiT und EcCaiT analysiert. Alle drei CaiT-Homologe weisen jedoch einen ähnlichen strukturellen Aufbau auf. In der Röntgenkristallstruktur bildet CaiT ein symmetrisches Trimer, das über ionische und polare Wechselwirkungen zwischen den Protomeren stabilisiert wird. Der trimere Oligomerisierungszustand von CaiT in Detergenzlösung sowie in zweidimensionalen Lipidmembrankristallen wurde bereits in früheren Arbeiten gezeigt. Jedes der drei CaiT-Protomere besteht aus zwölf Transmembranhelices (TMH), die N- und C-terminalen Domänen des Proteins befinden sich auf der cytoplasmatischen Seite. Zehn der TMH bilden zwei invertierte Wiederholungseinheiten aus jeweils fünf TMH. Die erste Einheit besteht aus den TMH 3 – 7, die invertierte zweite Einheit besteht aus den TMH 8 – 12. Beide Wiederholungseinheiten sind strukturell nahezu identisch und lassen sich fast vollständig übereinanderlegen, jedoch weisen die Aminosäuren der beiden Einheiten keine signifikante Sequenzidentität auf. Die ersten beiden Helices der Wiederholungseinheiten, die TMH 3 – 4 und die TMH 8 – 9, bilden ein antiparalleles vier-Helix-Bündel, in dem in CaiT zwei Substratbindestellen lokalisiert sind. Eine derartige Transporterarchitektur wurde erstmals in der Struktur des Na+/Alanin Symporters LeuTAa des thermophilen Bakteriums Aquifex aeolicus gezeigt. Bislang wurden, inklusive CaiT, sieben Sekundärtransporterstrukturen gelöst, die diese LeuT-Transporterarchitektur aufweisen. Ungewöhnlich dabei ist, dass diese sieben Sekundärtransporter fünf verschiedenen Transporterfamilien angehören und eine Verwandschaft auf Basis der Aminosäuren nicht zu finden ist. Da jedoch die tertiäre Struktur dieser Tansporter konserviert ist, kann davon ausgegangen werden, dass sie alle von einem Urprotein entstanden sind, welches zunächst aus fünf TMH bestanden haben muss. Im Laufe der Evolution hat sich das Urgen des Urproteins zunächst dupliziert und die weitere Evolution hat zwar die Aminosäuresequenz verändert und den Umweltbedingungen angepasst, jedoch ist die tertiäre Struktur erhalten geblieben. Da sich die tertiäre Struktur der sieben Sekundärtransporter so stark ähnelt, ist zu vermuten, dass auch der Transportmechanismus ähnlich, jedoch nicht identisch ist. Nach dem strukturellen Aufbau der Transporter, der Lage der Substratbindestellen in den jeweiligen Transportern und der Tatsache, dass es sich bei diesen Proteinen um Membranproteine handelt, wurde ein Transportmechanismus aufgestellt, in dem die Bindestelle des zu transportierende Substrats alternierend zu beiden Seiten der Membran zugänglich ist, ohne jedoch jemals den Substratweg innerhalb des Proteins vollständig zu öffnen. Dieser Mechanismus wurde als “alternating access mechanism” beschrieben. Anhand der unterschiedlichen Zustände, in denen einige der Transporter kristallisierten, kann abgeleitet werden, welche Konformationsänderungen erforderlich sind um das Substrat von einer Seiter der Membran auf die andere zu transportieren. Bisher kristallisierten einzelne der sechs Transporter in der nach außen gerichteten offenen Form, der nach außen gerichteten Form, in der die Substratbindestelle jedoch nicht mehr zugänglich ist, in einer Form, die keine Öffnungspräferenz der Substratbindestelle zu einer Seite der Membran hat und in der nach innen gerichteten Form, in der die Substratbindestelle jedoch nicht geöffnet ist. CaiT kristallisierte in der noch fehlenden Konformation, der nach innen gerichteten Form, in der die Substratbindestelle zugänglich ist. Mit dieser noch fehlenend Konformation kann der Transportzyklus des “alternating access mechanism” vollständig beschrieben werden. Alle drei CaiT-Homologe kristallisierten in der nach innen gerichteten, offenen Konformation. Im Gegensatz zur EcCaiT-Struktur kristallisierte PmCaiT in der substratungebundenen Form. In der StCaiT-Struktur konnte aufgrund der niedrigen Auflösung kein Substrat nachgewiesen werden. In der EcCaiT-Struktur sind zwei gamma-Butyrobetain-Moleküle gebunden. Das erste Molekül wurde in der zentralen Substratbindestelle, der sogenannten Tryptophan-Box bestehend aus vier Tryptophanen, im Zentrum des Protein lokalisiert. Das zweite gamma-Butyrobetain-Molekül wurde in einer Vertiefung an der extrazellulären Proteinoberfläche gefunden. Beide Substrate werden hauptsächlich über Kation-Pi-Interaktionen zwischen der positiv geladenen quatären Ammoniumgruppe des Substrats und des Pi-Elektronensystems der Tryptophane in den jeweiligen Bindestellen gebunden. Eine besondere Eigenschaft von CaiT ist der H+- bzw. Na+-unabhängige Substrattransport. Die CaiT-Struktur erklärt warum kein zusätzliches Kation benötigt wird um Substrat zu binden oder zu transportieren. In der EcCaiT-Struktur ist eine wichtige polare nicht-bindende Interaktion zwischen der Carboxylgruppe des gamma-Butyrobetains und dem Schwefelatom eines Methionins in der zentrale Bindestelle zu erkennen. Dieses Methionin ist konserviert in den prokaryotischen CaiTs und in den Na+-unabhängigen eukaryotischen L-Carnitin Transportern (OCTN), jedoch ist es nicht konserviert im Na+-abhängigen verwandten Glycinbetain Transporter BetP. In BetP ist diese Position des Methionins durch ein Valin ersetzt. Die Mutation des Methionins in CaiT zu Valin ermöglicht zwar immernoch die H+- bzw. Na+-unabhängige Bindung des Substrates durch die Tryptophan-Box, jedoch ist der Substrattransport nahezu vollständig zerstört. Eine derart wichtige Substratkoordinierende Funktion des Schwefelatoms eines Methionins wurde bisher nicht beschrieben. Eine weitere Stelle, die in H+- bzw. Na+-abhängigen Transporter mit H+ bzw. Na+ besetzt ist, ist in CaiT von einem positiv geladenen Arginin eingenommen. Eine positive Ladung an dieser Stelle stabilisiert den Bereich im Protein in der Nähe der zentralen Substratbindestelle. Die Mutation des Arginins zu Glutamat in CaiT erzielt eine vollständige Inaktivierung des Substrattansports. Durch Zugabe von Na+ im Transportansatz kann die Substrattransportaktivität der Glutamat-Mutante jedoch teilweise zurückerlangt werden. Diese eben beschriebenen Aminosäurereste in den beiden Stellen des Proteins erklären die Kationenunabhängigkeit von CaiT. Die Aktivierung des Antiportmechanismus in CaiT wurde mit Hilfe von Bindungsstudien an rekonstituiertem Protein ermittelt. Diese Messungen ergaben für das Wildtypprotein ein sigmoidales Substratbindungsverhalten, was auf ein positiv-kooperatives Bindungsverhalten hindeutet. Die beiden Substratbindestellen im Protein sowie die beiden unterschiedlichen Substrate, L-Carnitin und gamma-Butyrobetain, lassen auf einen heterotropen positiv-kooperativen Bindungs- und einen allosterisch regulierten Transportmechanismus schließen. Bei diesem Mechanismus erhöht die Bindung eines Substrats in der regulatorischen Bindestelle durch induzierte Konformationsänderungen die Affinität eines anderen Substrats in einer weiteren Substratbindestelle. Die regulatorische Bindestelle in CaiT befindet sich an der extrazellulären Proteinoberfläche. Eine Schwächung der Substrataffinität in dieser Bindestelle durch Einführung einer Mutation, verstärkt das sigmoidale Substratbindungsverhalten und hat einen negativen Einfluss auf den Substrattransport. Durch die in dieser Arbeit gelösten 3D-Röntgenkristallstrukturen der zwei CaiT-Homologen, PmCaiT und EcCaiT, sowie den durchgeführten funktionellen Studien sowohl an Wildtypprotein wie auch an Mutanten konnte ein L-Carnitin/gamma-Butyrobetain Antiport-Mechanismus für CaiT vorzuschlagen werden.
This work investigated the applicability of global pairwise sequence alignment to the detection of functional analogues in virtual screening. This variant of sequence comparison was developed for the identification of homologue proteins based on amino acid or nucleotide sequences. Because of the significant differences between biopolymers and small molecules several aspects of this approach for sequence comparison had to be adapted. All proposed concepts were implemented as the ‘Pharmacophore Alignment Search Tool’ (PhAST) and evaluated in retrospective experiments on the COBRA dataset in version 6.1. The aim to identify functional analogues raised the necessity for identification and classification of functional properties in molecular structures. This was realized by fragment-based atom-typing, where one out of nine functional properties was assigned to each non-hydrogen atom in a structure. These properties were pre-assigned to atoms in the fragments. Whenever a fragment matched a substructure in a molecule, the assigned properties were transferred from fragment atoms to structure atoms. Each functional property was represented by exactly one symbol. Unlike amino acid or nucleotide sequences, small drug-like molecules contain branches and cycles. This was a major obstacle in the application of sequence alignment to virtual screening, since this technique can only be applied to linear sequences of symbols. The best linearization technique was shown to be Minimum Volume Embedding. To the best of knowledge, this work represents the first application of dimensionality reduction to graph linearization. Sequence alignment relies on a scoring system that rates symbol equivalences (matches) and differences (mismatches) based on functional properties that correspond to rated symbols. Existing scoring schemes are applicable only to amino acids and nucleotides. In this work, scoring schemes for functional properties in drug-like molecules were developed based on property frequencies and isofunctionality judged from chemical experience, pairwise sequence alignments, pairwise kernel-based assignments and stochastic optimization. The scoring system based on property frequencies and isofunctionality proved to be the most powerful (measured in enrichment capability). All developed scoring systems performed superior compared to simple scoring approaches that rate matches and mismatches uniformly. The frameworks proposed for score calculations can be used to guide modifications to the atom-typing in promising directions. The scoring system was further modified to allow for emphasis on particular symbols in a sequence. It was proven that the application of weights to symbols that correspond to key interaction points important to receptor-ligand-interaction significantly improves screening capabilities of PhAST. It was demonstrated that the systematic application of weights to all sequence positions in retrospective experiments can be used for pharmacophore elucidation. A scoring system based on structural instead of functional similarity was investigated and found to be suitable for similarity searches in shape-constrained datasets. Three methods for similarity assessment based on alignments were evaluated: Sequence identity, alignment score and significance. PhAST achieved significantly higher enrichment with alignment scores compared to sequence identity. p-values as significance estimates were calculated in a combination of Marcov Chain Monte Carlo Simulation and Importance Sampling. p-values were adapted to library size in a Bonferroni correction, yielding E-values. A significance threshold of an E-value of 1*10-5 was proposed for the application in prospective screenings. PhAST was compared to state-of-the-art methods for virtual screening. The unweighted version was shown to exhibit comparable enrichment capabilities. Compound rankings obtained with PhAST were proven to be complementary to those of other methods. The application to three-dimensional instead of two-dimensional molecular representations resulted in altered compound rankings without increased enrichment. PhAST was employed in two prospective applications. A screening for non-nucleoside analogue inhibitors of bacterial thymidin kinase yielded a hit with a distinct structural framework but only weak activity. The search for drugs not member of the NSAID (non-steroidal anti-inflammatory drug) class as modulators of gamma-secretase resulted in a potent modulator with clear structural distiction from the reference compound. The calculation of significance estimates, emphasizing on key interactions, the pharmacophore elucidation capabilities and the unique compound rannkings set PhAST apart from other screening techniques.
Apoptotic cell (AC)-derived factors alter the physiology of macrophages (M Phi s) towards a regulatory phenotype that is characterized by enhanced production of anti-inflammatory mediators, an attenuated pro-inflammatory cytokine profile and reduced nitric oxide (NO) formation. Impaired NO production in response to ACs or AC-conditioned medium (CM) is facilitated by arginase II (ARG II) expression, which competes with inducible NO synthase for L-arginine. In this study, I investigated the signaling pathway that allowed CM to upregulate ARG II in M Phi s. A sphingolipid, further identified as sphingosine-1-phosphate (S1P), was required but authentic S1P alone only produced small effects. S1P acted synergistically with a so far unidentified factor to elicit high ARG II expression. S1P signaled through S1P receptor 2 (S1P2), since the S1P2-antagonist JTE013 and siRNA knock-down of S1P2 prevented ARG II upregulation. Further, inhibition and knock-down of extracellular signal-regulated kinase 5 (ERK5) attenuated CM-mediated ARG II protein induction. Exploring ERK5-dependent transcriptional regulation, promoter deletion and luciferase reporter analysis of the murine ARG II promoter (mpARG II) suggested the involvement of cyclic adenosine monophosphate (cAMP) responsive element binding protein (CREB). This was confirmed by EMSA analysis and decoyoligonucleotides scavenging CREB, thereby preventing it from activating target genes and thus, blocking ARG II expression. I concluded that AC-derived S1P binds to S1P2 and acts synergistically with other factors to activate ERK5 and concomitantly CREB. This signaling cascade shapes an anti-inflammatory M Phi phenotype by ARG II induction. Further investigations of ERK5-dependent CREB activation suggested an indirect mechanism implying that ERK5 inhibited phosphodiesterase 4 (PDE4) and thus, prevented hydrolysis of cAMP. Since S1P-dependent ERK5 activation presumably inhibited PDE4, subsequent cAMP accumulation led to enhanced PKA activity and CREB-mediated transcription. The unidentified factor(s) besides S1P probably provoked the required elevation of cAMP production in M Phi s. Indeed, pharmacological inhibition of cAMP-producing adenylyl cyclase with SQ22536 as well as cAMP-dependent protein kinase A (PKA) with KT5720 suggested cAMP to be involved in CM-mediated ARG II up-regulation. Furthermore, forskolin-dependent activation of adenyly cyclase and simultaneous rolipram-mediated inhibition of PDE4 mimicked CM-induced ARG II expression. Considering these findings, I propose that one or several unidentified factors in CM provoke cAMP production in M Phi s. In parallel, AC-derived S1P activates ERK5, which inhibits PDE4-dependent cAMP hydrolysis, further raising intracellular cAMP levels. Thus, unrestricted continuous cAMP signaling via PKA/CREB, results in a time-dependent and sustained ARG II induction.
In the adult mammalian central nervous system, two defined neurogenic regions retain the capacity to generate new neurons throughout adulthood, namely the subependymal zone (SEZ) at the lateral ventricles and the subgranular layer of the hippocampus (SGL). Adult neurogenesis consists of a whole set of events including proliferation, fate specification, migration, survival and finally synaptic integration of newly born neurons. Each of these events is controlled by the interplay of numerous factors. In this study two signalling systems were analysed with regard to their functional role in adult neurogenesis in vivo, namely the purinergic system and the growth factor EGF. Neither short- nor long-term application of the P2Y receptor agonists UTP and ADPβS and the P2Y receptor antagonist suramin into the lateral ventricle of adult mice altered cell responses as compared to vehicle controls in vivo. In contrast, analysis of the expansion rates of cultured neural stem cells (NSCs) from knockout mice revealed a strong increase in the number of NSCs from NTPDase2-/- mice, whereas cell numbers of NSCs from P2Y1-/- and P2Y2-/- mice were significantly reduced in comparison to wildtype levels. Notably, in vivo proliferation rates were potently elevated in the SGL and the SEZ of NTPDase2-deficient mice. However, in vivo proliferation in both neurogenic niches of the single receptor knockout mice P2Y1-/- and P2Y2-/- and P2Y1-/- P2Y2-/-double-knockout mice did not differ significantly from the wildtype. In mice lacking the P2Y2 receptor the survival of newly born neurons in the hippocampal granule cell layer was significantly increased. These data provide the first line of evidence that purinergic signalling is involved in the control of neural stem cells behaviour not only in vitro but also in vivo. In order to further characterise the role of epidermal growth factor (EGF) in adult neurogenesis, transit amplifying precursors (TAPs) and type B astrocytes were identified as EGF-responsive cell populations following ventricular EGF injection, whereas ependymal cells, neuroblasts and NG2-positive cells did not or only to a minor extent respond to EGF injection. These EGF-responsive cell populations were found on both, the septal as well as striatal lateral ventricle walls. Long-term ventricular EGF infusion for 6d, 1. increased cell proliferation of both ventricle walls revealing a gradient along the rostro-caudal axis, 2. altered the balance between neuronal and macroglial cell fates to generate oligodendrocyte precursors and 3. lead to an entire remodelling of the classical architecture of the SEZ.
Proliferation and apoptosis are fundamental cellular processes that are important for the development and homeostasis of multi-cellular organisms. Deregulation of these processes plays an important role in tumor formation. Often, genes that control homeostasis by regulating proliferation and apoptosis are mutated or improperly expressed in tumors. In this project, the physiological and pathological functions of FUSE Binding Protein 1 (FBP1) were studied to elucidate the involvement of this gene in the context of embryonic development and tumorigenesis. Two reasons led to the hypothesis that FBP1 might be relevant in this context. FBP1 was isolated in the group of PD Dr. Martin Zörnig using a functional yeast survival screen for the identification of anti-apoptotic genes involved in tumorigenesis, and the anti-apoptotic function of FBP1 was confirmed in the human colon carcinoma cell line RKO. In addition, FBP1 had been published to function as a transcriptional regulator that activates expression of the proto-oncogene c-myc. This gene stimulates cell proliferation and is overexpressed in many tumors. Analysis of FBP1 expression by immunhistochemistry in normal and tumor tissue samples revealed frequent and significant overexpression of FBP1 in Hepatocellular Carcinoma (HCC). To study the functional relevance of FBP1 activity for this tumor type, apoptosis and proliferation of the HCC cell line Hep3B were studied in dependence of FBP1 expression. Downregulation of FBP1 by lentiviral expression of FBP1-specific short hairpin RNA (shRNA) reduced proliferation and increased sensitivity to apoptosis. Subcutaneous injection of FBP1-deficient Hep3B cells into immunodeficient NOD/SCID mice demonstrated that tumor growth was strongly decreased in comparison to control cells. mRNA expression studies by quantitative real time PCR showed reduced mRNA levels of the pro-apoptotic genes Bik, Noxa, TRAIL and TNF-􀀁 in the absence of FBP1. In addition, the cell cycle inhibitors p21 and p15 were repressed by FBP1 while Cyclin D2 expression was decreased in the absence of FBP1. Surprisingly, expression of c-myc was not altered by FBP1 downregulation, indicating a different mechanism of c-myc regulation in HCC cells. These results demonstrate that overexpression of FBP1 inhibits apoptosis and stimulates proliferation in HCC cells by regulating the transcription of relevant target genes. Therefore, FBP1 might represent a promising therapeutic target for the treatment of HCC. For analysis of the physiological function of FBP1, a gene trap mouse model was established. In these mice, the gene trap vector pT1􀀂geo is inserted in intron 19 of the FBP1 locus, leading to the expression of a fusion protein consisting of a truncated FBP1 (lacking the last 62 amino acids), 􀀁-Galactosidase and Neomycin Phosphotransferase. Luciferase reporter assays demonstrated that the fusion protein was not capable of activating the c-myc promoter and even showed a dominant negative effect. Thus, this gene trap mouse serves as a functional FBP1 knockout model. Phenotyping of the FBP1 gene trap mice showed that homozygous mutation of FBP1 resulted in embryonic lethality at late stages of embryonic development (E15.5-E16.5). Heterozygous mice were viable, but born at lower frequencies, indicating a gene dosage- or a dominant negative effect of the FBP1 fusion protein. The cellular effects of FBP1 inactivation were tested in mouse embryonic fibroblasts isolated from FBP1 gene trap mice. While proliferation was reduced in the absence of wildtype FBP1, apoptosis was not affected. Expression analysis showed that in homozygous MEFs p15 and p21 transcripts were upregulated, while decreased cmyc mRNA levels were measured. Closer inspection of homozygous gene trap embryos revealed an anemic phenotype that appeared most pronounced around embryonic day 15.5. Analysis of fetal livers, the main site of hematopoiesis at this stage of development, showed a strongly reduced total cell number in homozygous embryos. Evaluation of the different hematopoietic cell lineages did not reveal significant changes in particular differentiated cell types. Instead, all cell lineages seemed to be affected equally by FBP1 inactivation. In contrast, analysis of hematopoietic progenitor cell populations showed an increased percentage of multipotent progenitor cells (MPPs) and a strongly reduced number of long-term hematopoietic stem cells (LT-HSCs). Functional analysis of MPPs by in vitro colony formation assays demonstrated that the FBP1-mutant cells possess a normal colony formation potential while their expansion capacity was reduced. Competitive transplantation of lineage negative fetal liver cells into irradiated recipient mice resulted in reduced engraftment of liverderived progenitor cells from homozygous FBP1 gene trap mice. However, stable engraftment was observed over a period of 12 weeks, demonstrating that the FBP1-deficient LT-HSCs are in principle capable of long-term repopulation. These results demonstrate that FBP1 exerts an essential function during definitive hematopoiesis. It can be speculated that FBP1 influences proliferation, apoptosis and possibly also stem cell self-renewal through the regulation of specific target genes within the hematopoietic progenitor cells. Alternatively, extrinsic effects caused by the absence of FBP1 activity could impair the function of the progenitor cells.
The power to dissociate : molecular function of the twin-ATPase ABCE1 in archaeal ribosome recycling
(2010)
In this thesis, the structure of the C-terminal domain of presenilin-1, the catalytic component of the y-secretase complex, is investigated by NMR spectroscopy. The ysecretase complex has a definitive role in the pathogenic development of Alzheimer's disease, in that it mediates the cleavage of aprecursor to create the amyloid ß peptide. Aggregates of amyloid ß which form amyloid plaques are the most overt clinieal feature observed in the post-mortem brains of Alzheimer's patient. In addition, many of the mutations found in the aggressive early onset familial Alzheimer's disease have been linked to presenilin-1, highlighting its importance in disease progression and deeming it an important target for investigation. One of the greatest challenges for the structural investigation of the y-secretase components is their low expression yields in cell-based systems. We therefore applied continuous-exchange cell-free expression to obtain sufficient amounts of protein for our structural studies. An added benefit of the cell-free expression system is the freedom to incorporate any desired combination of stable-isotope labels directly into sampies. We were therefore able to develop a labeling scheme which targets the amino acid composition of transmembrane a-helices, allowing us to simplify an assignment procedure whieh tends to be cumbersome and diffieult for most a-helical transmembrane proteins. The y-secretase complex is a member of the intramembrane cleaving proteases which, as their name implies, cleave their transmembrane substrates within the bilayer. Single particle analysis of the y-secretase (1) as weil as crystal structures of rhomboid (2) and S2P (3) have revealed the presence of hydrophilie po res within the membrane where catalysis occurs. In light of evidence that certain elements of CTF reside in close proximity or even contribute to the formation of the hydrophilic pore, we chose to study the structure of CTF in mieelles, whieh may be better suited to accommodate CTF in isolation as compared with solid membranes in the absence of the other y-secretase components. The structure of CTF was solved to 1.7 A (backbone r.m.s.d) and revealed the presence of unusual features, including a partially membrane-spanning helix which situates the catalytic asparte at its N-terminus in what would be the center of the membrane where catalysis is proposed to occur, as weil as a severely kinked helix which is partially embedded beneath the surface of the membrane (P6). Interestingly, similar features have been observed in the crystal structure of the GlpG rhomboid. In addition, a soluble helix was found in the long N-terminal loop of CTF which until now has been described as unstructured. The first part of the thesis is designed to provide an introduction to Alzheimer's disease, the role of y-secretase and its presenilin-l catalytic component in disease progression, as weil as cell-free expression and liquid-state NMR techniques involved in the structural investigation of membrane proteins. In chapter 2, the reader is familiarized with the history, the clinical manifestation, and biochemical features of Alzheimer's disease. The chapter goes further to describe the role of the y-secretase complex and its individual components in disease progression and substrate processing. Chapter 3 focuses more specifically on presenilin-l in the context of the newly emerging class of intramembrane proteases. In chapter 4, attention is shifted to the cell-free expression system with special focus on the expression of membrane proteins, and chapter 5 explores the various liquid-state NMR techniques that were required for the characterization of CTF. The second part of the thesis is cumulative and contains original research, method, and review articles that were produced during the course of study. Chapter 6 explores the various techniques and innovations used to study membrane proteins using continuous exchange cell-free expression coupled with NMR spectroscopy. In chapter 7, a new technique, transmembrane segment targeted labeling, is described as a tool that facilitates the backbone assignment of transmembrane proteins which display severe overlap in NMR spectra. Chapter 8 presents the novel NMR structure of the C-terminal fragment of presenilin-l solved in SOS micelles.
The single unit doctrine proposes that each one of our percepts and sensations is represented by the activity of specialized high-level cells in the brain. A common criticism applied to this proposal is the one referred to as the "combinatorial problem". We are constantly confronted with unlimited combinations of elements and features, and yet we face no problem in recognizing patterns and objects present in visual scenes. Are there enough neurons in the brain to singly code for each one of our percepts? Or is it the case that perceptions are represented by the distributed activity of different neuronal ensembles? We lack a general theory capable of explaining how distributed information can be efficiently integrated into single percepts. The working hypothesis here is that distributed neuronal ensembles signal relations present in the stimulus by selectively synchronizing their spiking responses. Synchronization is generally associated with oscillatory activity in the brain. Gamma oscillations in particular have been linked to various integrative processes in the visual system. Studies in anesthetized animals have shown a conspicuous increase in power for the gamma frequency band (30 to 60 Hz) in response to visual stimuli. Recently, these observations have been extended to behavioral studies which addressed the role of gamma activity in cognitive processes demanding selective attention. The initial motivation for carrying out this work was to test if the binding-by-synchronization (BBS) hypothesis serves as a neuronal mechanism for perceptual grouping in the visual system. To this aim we used single and superimposed grating stimuli. Superimposed gratings (plaids) are bi-stable stimuli capable of eliciting different percepts depending on their physical characteristics. In this way, plaids can be perceived either as a single moving surface (pattern plaids), or as two segregated surfaces drifting in different directions (component plaids). While testing the BBS hypothesis, we performed various experiments which addressed the role of both stimulus and cortical architecture on the properties of gamma oscillations in the primary visual cortex (V1) of monkeys. Additionally, we investigated whether gamma activity could also be modulated by allocating attention in time. Finally, we report on gamma-phase shifts in area V1, and how they depend on the level of neuronal activation. ...
In der folgenden Arbeit werden Eigenschaften von Verzweigungsprozessen in zufälliger Umgebung (engl. branching processes in random environment, kurz BPREs) untersucht. Das Modell geht auf Smith (1969) und Athreya (1971) zurück. Ein BPRE ist ein einfaches mathematisches Modell für die Entwicklung einer Population von apomiktischen (d.h. sich ungeschlechtlich fortpflanzenden) Individuen in diskreter Zeit, wobei die Umgebungsbedingungen einen Einfluß auf den Fortpflanzungserfolg der Individuen haben. Dabei wird angenommen, dass die Umgebungsbedingungen in den einzelnen Generationen zufällig sind, und zwar unabhängig und identisch verteilt von Generation zu Generation. Man denke z.B. an eine Population von Pflanzen mit einem einjährigen Zyklus, die in jedem Jahr anderen Witterungsbedingungen ausgesetzt sind, wobei angenommen wird, dass diese sich unabhängig und identisch verteilt ändern. In Kapitel 1 wird eines der wichtigsten Hilfsmittel zur Beschreibung von BPREs, die sogenannte zugehörige Irrfahrt, eingeführt und die Klassifizierung von BPREs beschrieben. In Kapitel 2 werden bekannte Resultate, insbesondere zu kritischen, schwach subkritischen und stark subkritischen Verzweigungsprozessen, wiederholt. In Kapitel 3 wird der sogenannte intermediär subkritische Fall behandelt. Mithilfe von funktionalen Grenzwertsätzen für bedingte Irrfahrten wird die genaue Asymptotik der Überlebenswahrscheinlichkeit des Prozesses, die bereits in Vatutin (2004) bewiesen wurde, unter etwas allgemeineren Voraussetzungen gezeigt. Anschließend wird untersucht, wie häufig der Prozess, bedingt auf Überleben, nur noch aus einem Individuum besteht. Im letzten Teil des Kapitels wird ein funktionaler Grenzwertsatz für die zugehörige Irrfahrt, bedingt aufs Überleben des Prozesses, gezeigt. Diese konvergiert, richtig skaliert, gegen einen Levy-Prozess, der darauf bedingt ist, sein Minimum am Ende anzunehmen. In Kapitel 4 werden große Abweichungen von BPREs untersucht. Die Ratenfunktion des BPRE wird sowohl für den Fall mindestens geometrisch schnell abfallender Tails, als auch für den Fall von Nachkommenverteilungen mit schweren Tails bestimmt. Wie sich herausstellt, hängt die Ratenfunktion von der Ratenfunktion der zugehörigen Irrfahrt, der exponentiellen Abfallrate der Überlebenswahrscheinlichkeit sowie, bei Nachkommenverteilungen mit schweren Tails, auch von den Tails derselben ab. In der Ratenfunktion spiegeln sich die wahrscheinlichsten Wege, um Ereignisse der großen Abweichungen zu realisieren, wider, was in Kapitel 4.3 beschrieben wird. In Kapitel 4.4 wird im speziellen Fall von Nachkommenverteilungen mit gebrochen-linearer Erzeugendenfunktion die Ratenfunktion für Ereignisse bestimmt, bei denen ein superkritischer BPRE überlebt, aber klein im Vergleich zum Erwartungswert bleibt. In Kapitel 4.5 werden die großen Abweichungen, bedingt auf die Umgebung untersucht (engl. quenched). In diesem Fall können unwahrscheinliche Ereignisse nur über den Verzweigungsmechanismus und nicht mehr über eine außergewöhnliche Umgebung realisiert werden. Zum Abschluss der Dissertation werden Verzweigungsprozesse in zufälliger Umgebung, bedingt auf Überle-ben, simuliert. Dazu wird eine Konstruktion nach Geiger (1999) angewendet. Diese erlaubt es, Galton-Watson Bäume in variierender Umgebung, bedingt auf Überleben, entlang einer Ahnenlinie zu konstruieren. Der Fall geometrischer Nachkommenverteilungen, auf den wir uns in Kapitel 5 beschränken, erlaubt die explizite Berechnung der benötigten Verteilungen. Als Anwendung des Grenzwertsatzes aus Kapitel 3.1 können nun intermediär subkritische Verzweigungsprozesse, bedingt auf Überleben, wie folgt simuliert werden: Zunächst wird die Umgebung zufällig bestimmt, und zwar als Irrfahrt, bedingt darauf ihr Minimum am Ende anzunehmen. Anschließend wird, der Geiger-Konstruktion folgend, ein Verzweigungsprozess in dieser Umgebung, bedingt auf Überleben, simuliert. Zum Abschluss wird in einem kurzen Ausblick auf aktuelle Forschung verwiesen. Im Anhang befinden sich einige technische Resultate.
Der Neocortex der Säugetiere weist charakteristische Schichtungen auf, und jede dieser Schichten enthält verschiedene Typen von Neuronen, die in stereotypen Mustern angeordnet sind. Die Ausbildung dieser geschichteten Struktur ist nur dann möglich, wenn korrekte Migration von Neuronen von proliferativen Zonen zu deren Endpositionen stattfindet. Die exakte Migration und Schichtung wird von Mutationen beeinflusst, die entweder die migratorische Fähigkeit der Neuronen beeinträchtigen, oder deren Fähigkeit, die Position zu erkennen, an der sie die Wanderung beenden sollten (Gupta et al., 2002, Rice et al., 2001, Walsh et al., 2000). In den letzten Jahren wurde das extrazelluläre Protein Reelin als wichtiger Faktor bekannt, der sich auf mehrere Schritte der neuronalen Migration und Schichtung in der Großhirnrinde auswirkt (zusammengefasst in (Tissir et al., 2003). Das sekretierte Glykoprotein Reelin kontrolliert die Migration der Neuronen durch die Bindung an zwei Lipoproteinrezeptoren, den Very-low-density lipoprotein Rezeptor (VLDLR) und den Apolipoprotein E Rezeptor 2 (ApoER2) (D'Arcangelo et al., 1999). Die Bindung von Reelin an ApoER2 und VLDLR ruft die Phosphorylierung von Disabled-1 (Dab1) (D'Arcangelo et al., 1999, Howell et al., 1997), einem Adapterprotein, das an die intrazelluläre Domäne der Rezeptoren bindet, hervor, indem sie Kinasen der Src-Familie (SFKs) aktiviert (Arnaud et al., 2003, Bock et al., 2003a). Außer der Bedeutung des Reelin-Signalwegs für die korrekte Entwicklung des Nervensystems und dem Wissen, dass die Unterbrechung dieses Signalwegs zu verschiedenen neurologischen Krankheiten wie Epilepsie, Schizophrenie und der Alzheimerkrankheit führt (Costa et al., 2002, Botella-Lopez et al., 2006, Herz et al., 2006), ist die molekulare Grundlage der Aktivierung dieses Signalwegs an der Zellmembran noch kaum charakterisiert. Da VLDLR und ApoER2 keine intrinsische Kinaseaktivität besitzen, wurde die Existenz eines Korezeptors für mindestens eine Dekade vermutet, und die genaue Natur dieses Korezeptors ist unbekannt. EphrinBs, Transmembranliganden für Eph-Rezeptoren, besitzen die Fähigkeit zur Signalgebung, die für synaptische Plastizität und Angiogenese durch Sprossung erforderlich ist, indem sie die Aktivität anderer Transmembranrezeptoren wie AMPAR beziehungsweise VEGFR2 beeinflussen (Sawamiphak et al., 2010b, Segura et al., 2007, Essmann et al., 2008). Darüber hinaus führt die Stimulation von cortikalen Neuronen in Kultur mit löslichen EphB-Rezeptoren zur Rekrutierung und Aktivierung von SFKs in Membranpatches, in denen sich ephrinB-Liganden befinden (Palmer et al., 2002). Deshalb nehmen wir an, dass ephrinB in vivo funktionell mit dem Reelin-Signalweg verbunden sein könnte. Der Fokus dieser Arbeit liegt darin, zu zeigen, dass das neuronale Wegweisermolekül ephrinB einen entscheidenden Korezeptor für die Reelin-Signalgebung während der Entwicklung geschichteter Strukturen im Gehirn darstellt. Um zu erforschen, ob ephrinB und die Reelin-Signalgebung in vivo genetisch interagieren, wurden zuerst Mäuse mit Compound-Mutationen hergestellt, die eine Nullmutation im Gen für ephrinB3 tragen und heterozygot für Reelin sind (rl/+; b3-/-). Reeler ist eine autosomal rezessive Mutation der Maus, die, wenn sie heterozygot auftritt, keinen offenkundigen Phänotyp aufweist (Caviness et al., 1972, Caviness et al., 1978). Wir zeigen, dass ephrinBs genetisch mit Reelin interagieren, da Mäuse mit Compound-Mutationen (rl/+; b3 -/-) und ephrinB1-, B2- und B3-Dreifach-Knockouts die verschiedenen Defekte in der Entwicklung phänokopieren, die im Neocortex, Hippocampus und Cerebellum der reeler-Mäuse beobachtet wurden. Eines der Kennzeichen des reeler-Phänotyps ist die gestörte Schichtung der Großhirnrinde mit einer Marginalzone (MZ), die eine äußerst große Zahl an Zellen enthält (Caviness, 1982). Sowohl die Compound-Mäuse als auch die Triple-ephrinB1B2B3-knockouts zeigten eine Zunahme der Zellzahl in der MZ. Um die cortikalen Defekte detailliert zu charakterisieren, wurde die Verteilung von postmitotischen migrierenden Neuronen im Cortex von rl/+; b3-/- Compound-Mäusen mit Hilfe von unterschiedlichen schichtenspezifischen Markern für früh (Tbr1) (Hevner et al., 2001) und spät entstandene (SatB2 and Brn1) (Britanova et al., 2008, McEvilly et al., 2002) Neuronen, analysiert . Unsere Untersuchungen ließen die veränderte cortikale Schichtung in den rl/+; b3-/- Compound-Mäusen erkennen. So befanden sich früh entstandene Neuronen in den oberen cortikalen Schichten und spät entstandene in den unteren cortikalen Schichten, was für eine outside-in-Schichtung spricht, wie man sie von reeler kennt. Interessanterweise ist eine der frühesten strukturellen Abnormalitäten, die man im reeler-Cortex erkennen kann, die Unfähigkeit, die Preplate, die reich an extrazellulärer Matrix ist, in die Marginalzone und die Subplate aufzuspalten (Sheppard et al., 1997). Zum Zeitpunkt E17.5 zeigten rl/+; b3-/- Compound-Mäuse eine beachtliche Anhäufung von Chondroitin-Sulfat-Proteoglykan (CSPG), einer Komponente der extrazellulären Matrix, im gesamten Neocortex mit einer ungeteilten Schicht an der Oberfläche, welche übermäßig viel CSPG enthielt und somit die abnorme Teilung der Preplate der reeler-Maus nachahmte. Um zu bestätigen, dass die beobachteten Effekte auf die Schichtung des Cortex der rl/+; b3-/- Compound-Mäuse als Folge der Beeinträchtigung der neuronalen Migration auftritt, wurden zusätzlich BrdU-Puls-Experimente durchgeführt. BrdU wird in sich teilende Vorläuferzellen eingebaut und spiegelt deshalb das migratorische Verhalten von neu entstandenen Neuronen zum Zeitpunkt der Injektion wieder. Schwangeren Weibchen wurde BrdU zu den Zeitpunkten E12.5, E15.5 und E17.5 injiziert und die Gehirne wurden am postnatalen Tag 20 ausgewertet. Die Verteilung der mit BrdU gekennzeichneten Neuronen zu verschiedenen Zeitpunkten der Entwicklung in der Großhirnrinde bestätigte unsere Untersuchungen, die mit Hilfe der schichtspezifischen Marker durchgeführt worden waren. Deshalb deuten unsere Ergebnisse an, dass die beobachteten Defekte in der Schichtung des Cortex tatsächlich eine Folge von beeinträchtigter neuronaler Migration sind. Es wurde beobachtet, dass auch geschichtete Strukturen im Hippocampus in den rl/+; b3-/- Compound-Mäusen verändert sind, was für einen Crosstalk zwischen ephrinB3 und Reelin auch während der Entwicklung des Hippocampus spricht. Die CA1-Region des Hippocampus zeigte eine lockere Verbindung der pyramidalen Zellschichten, welche zu einer signifikanten Erhöhung der Dicke dieser Region und zu einer Einwanderung von Pyramidalzellen in das Stratum oriens führte. Darüber hinaus haben die Anomalien in den dendritischen Verzweigungen von Pyramidalneuronen der CA1-Region, die in Richtung der Reelin-produzierenden Cajal-Retzius-Zellen im stratum locunosum moleculare projizieren, in den rl/+; b3-/- Compound-Mäusen eine auffallende Ähnlichkeit mit denen, die in reeler-Mutanten beobachtet wurden. Reelin fungiert auch als Differenzierungsfaktor und Positionierungssignal für radiale Gliazellen, die positiv für glial fibrillary acidic protein (GFAP) sind und ein Gerüst für die korrekte Migration von neu entstandenen Granularzellen, die auf das Netzwerk der Granularzellen im Gyrus dentatus zuwandern (Forster et al., 2002) bilden. In rl/+; b3-/- Compound-Mäusen ist dieses Gerüst aus radialen Gliazellen schwerwiegend beeinträchtigt, was ebenfalls zu einer lockeren Organisation der Granularzellen im Gyrus dentatus führt. Die Ataxie in reeler-Mäusen ist das Ergebnis einer schwerwiegenden Fehlorganisation im Cerebellum dieser Mutanten (Tissir et al., 2003). Interessanterweise wurden nur milde Defekte in den Granularzellen, die sich in der internen Granularschicht des Cerebellums von rl/+; b3-/- Compound-Mäusen angesammelt haben, und keine Defekte in der Migration und der Verzweigung der Purkinjezellschicht, festgestellt. Stattdessen ist ephrinB2 in den Purkinjezellen des Cerebellums stark exprimiert (Liebl et al., 2003) und obwohl keine bedeutenden Defekte der Migration dieser Zellen festgestellt wurden, zeigte die Untersuchung der Verzweigung der Purkinjezellen in b2-/- Mäusen eindeutige Defekte, die bereits in einfachen ephrinB2-Mutanten auftraten. Bedeutend ist, dass die Defekte in der Verzweigung bei rl/+; b2-/- Compound-Mäusen signifikant verstärkt waren, was darauf hindeutet, dass der Reelin-Signalweg im Cerebellum spezifisch ephrinB2 benötigt. Um Einblicke in den Mechanismus zu erhalten, wie ephrinB-Liganden den Crosstalk mit Reelin durchführen, um die korrekte Positionierung von Neuronen in den geschichteten Strukturen des Gehirns zu kontrollieren, wurde als nächstes die biochemische Interaktion dieser beiden Signalwege untersucht. In einer gerichteten proteomischen Untersuchung mit Hilfe der Tandem affinity purification-mass spectometry-Methode (Angrand et al., 2006) von Proteinen aus eine Neuroblastom-Zelllinie, die ephrinB binden, wurde Reelin als ein Protein, das mutmaßlich mit ephrinB interagiert, identifiziert. Zunächst bestätigten wir die Fähigkeit von Reelin, mit ephrinBs zu assoziieren mit Ko-Immunpräzipitation beider endogener Proteine aus Gehirnlysaten. Das extrazelluläre Protein Reelin zeigte eine starke Bindung an die extrazelluläre Domäne von ephrinB3 und auch von ephrinB2, was andeutet, dass beide ephrin-Liganden die Funktionen von Reelin in vivo beeinflussen könnten. Die Stimulierung von cortikalen Neuronen mit Reelin führt zu einer effektiven Tyrosin-Phosphorylierung des Adapters Dab1. Da die Stimulation von cortikalen Neuronen mit einer löslichen, vorgeclusterten Form von EphB-Rezeptoren zur Rekrutierung und Aktivierung von Src-Kinasen in ephrinB-Clustern führt (Palmer et al., 2002), nehmen wir an, dass ephrinBs Src-Kinasen in VLDLR- und ApoER2-Rezeptor-Clustern rekrutieren und aktivieren könnten. Aktivierte Src-Kinasen phosphorylieren dann wiederum das Adapterprotein Dab1, das an VLDLR und ApoER2 gebunden ist und initiieren die weitere Signalgebung. In Übereinstimmung damit ko-immunpräzipitiert phosphoryliertes Dab1 zum Zeitpunkt E16.5 mit ephrinBs, während die neuronale Migration und die Schichtung des Cortex stattfindet. Darüber hinaus konnten wir beobachten, dass ephrinB3, das durch EphB3-Fc aktiviert wurde, sowohl Reelin, als auch ApoER2 und VLDLR in ephrinB3-Membranpatches in cortikalen Neuronen anhäuft. Die Aktivierung von ephrinB-Liganden durch Stimulation von cortikalen Neuronen mit EphB3-Fc führt zur Rekrutierung und Phosphorylierung von Dab1 in ephrinB-Clustern. Als nächstes befassten wir uns mit der Notwendigkeit von der durch ephrinB vermittelten Rekrutierung und Aktivierung von Src-Kinasen für den Reelin-Signalweg, indem wir Loss-of-function-Studien sowohl in cortikalen Neuronen in Kultur als auch in vivo in Mäusen durchführten. Cortikale Neuronen, die aus ephrinB3- und ephrinB2-Knockouts isoliert wurden, zeigten eine signifikante Beeinträchtigung der durch Reelin vermittelten Phosphorylierung von Dab1 und die Phosphorylierungslevels von Dab1 in ephrinB3 Mausmutanten waren stark verringert, was andeutet, dass ephrinBs Korezeptoren, die notwendig für einwandfreie Signalgebung durch Reelin sind, darstellen. Um die Bedeutung von ephrinBs für die Kontrolle der Funktion von Reelin zu untersuchen, arrangierten wir eine Reihe von Rescue-Experimenten sowohl in Neuronenkulturen als auch während der neuronalen Migration im Cortex in vivo. Aus reeler-Mäusen isolierte cortikale Neuronen zeigten die erwartet verringerte Phosphorylierung von Dab1, die rückgängig gemacht werden konnte, indem die Neuronen mit exogenem Reelin stimuliert wurden. Noch bedeutender ist die Tatsache, dass die Phosphorylierung von Dab1 durch die alleinige Aktivierung von ephrinBs mit EphB wiederhergestellt werden konnte, was die Bedeutung der ephrinBs als Korezeptoren für die Aktivierung des Signalwegs über die Rezeptoren für Reelin, VLDLR und ApoER2, wiederspiegelt. Um die Rolle von ephrinBs als Korezeptoren für den Reelin-Signalweg während der neuronalen Migration in der Großhirnrinde zu unterstreichen, setzten wir ähnliche Rescue-Experimente in organotypischen Schnittkulturen an. In den Schnitten von reeler-Mäusen und Wildtyp-Wurfgeschwistern wurde die Migration von Neuronen, die durch Fc als Kontrolle und EphB3-Fc stimuliert wurde, nach drei Tagen in Kultur untersucht. Die reeler-Schnitte zeigten den typischen reeler-Phänotyp in der Großhirnrinde. In Übereinstimmung mit der Annahme einer wirksamen Regulation des Reelin-Signalwegs war die Aktivierung von eprhinB mit EphB-Rezeptoren in der Lage, die migratorischen Defekte in reeler-Schnitten aufzuheben. Zusammengefasst identifizieren unsere Ergebnisse ephrinBs als Korezeptoren für den Reelin-Signalweg, die für die Funktion von Reelin in der neuronalen Migration während der Entwicklung der geschichteten Strukturen der Großhirnrinde, dem Hippocampus und dem Cerebellum notwendig sind. Unsere genetischen Analysen von ephrinB-Mutanten zeigen gemeinsam mit starken biochemischen Untersuchungen, dass ephrinBs in vivo für zahlreiche Aktivitäten von Reelin erforderlich sind.
LmrA is a member of the ATP Binding Cassette (ABC) transporter family of membrane proteins and a structural and functional homologue of P-glycoprotein1, 2. ABC-transporters share a common architecture of two transmembrane domains and two nucleotide binding domains. The NBDs are highly conserved in this transporter family whereas the TMDs are highly diverse3. The TMDs recognize the substrate and the NBDs bind and hydrolyze ATP and thus contribute the energy for substrate translocation. ABC transporters as a protein family transport a high number of substrates including peptides, nutrients, ions, bile acids, lipids and other lipophilic compounds. LmrA is a multidrug transporter that recognizes a number of hydrophobic substrates including fluorescent dyes and antibiotics1, 4-6. LmrA is a native protein of the gram-positive bacterium Lactococcus lactis. In this thesis, L. lactis was used as a homologous expression host for the preparation of LmrA for a variety of experiments. Wildtype LmrA as well as a number of cysteine mutants were successfully expressed in L. lactis, purified and subsequently characterized by a variety of biochemical assays (Chapter 4). LmrA can be expressed to very high amounts in L. lactis. The purification and reconstitution were optimized for the requirements of solid-state NMR experiments in this thesis. For the first time, an ABC transporter has been reconstituted in synthetic lipids to a ratio of up to 1:150 (mol/mol). LmrA was shown to be active under magic angle spinning conditions with these reconstitution ratios. By taking advantage of the slower ATP hydrolysis by LmrA ΔK388 (lysine deletion in the Walker A motif), a real-time 31P solid-state NMR ATPase assay was established (Chapter 5). This assay allowed, for the first time, the investigation of all phosphor nuclei during the ATP hydrolysis cycle of a membrane protein simultaneously and in real time7. This assay has been successfully adapted to investigate both ATP hydrolysis and substrate phosphorylation of diacylglycerol kinase (together with S. Wollschlag) and ATP hydrolysis at high temperatures of the thermophilic ABC transporter ABC1 from Thermos thermophilus (together with A. Zutz). In the course of this thesis, the gene for LmrA has been cloned into expression vectors suitable for Escherichia coli and the heterologous expression of LmrA was established (Chapter 4). The functionality of the heterologously expressed protein has been investigated and compared to L. lactis LmrA. In these experiments, LmrA was shown to yield a distinct multidrug resistance phenotype in its E. coli host and to show secondary active multidrug transport in the absence of ATP and presence of a proton gradient [Hellmich et al, in prep] (Chapter 4). Previously, it had been shown that LmrA acts as a seconadary active transporter when the NBDs are truncated8. The overexpression in minimal and defined medium and the purification of LmrA from E. coli have been optimized. Isotope labeling for ssNMR has been established and the first multinuclear ssNMR experiments have been carried out on a functional ABC transporter (Chapter 8). ABC transporters couple two cycles: upon ATP binding, the NBDs dimerize, hydrolyze the ATP, subsequently release Pi and ADP and finally dissociate. During this cycle, conformational changes are relayed to the TMDs which utilize the energy from ATP binding and/or hydrolysis to translocate the respective substrate. The prehydrolysis state can be trapped by beryllium fluoride, whereas the post-hydrolysis state of this cycle can be trapped by vanadate9-12. Trapping protocols for these reagents were successfully established for LmrA in this thesis (Chapter 4). This allowed for the investigation of different catalytic states by both ssNMR and EPR. A general 19F labeling protocol for membrane proteins has been established in the course of this thesis and successfully applied to proteorhodopsin (together with N. Pfleger)13 and LmrA (chapter 6). Single cysteine mutants of LmrA that line out the dimer interface have been labeled with a fluorine label for ssNMR. In the apo state, the 19F labeling indicates highly flexible transmembrane domains, a finding that is supported by 13C ssNMR and EPR measurements. The addition of drugs has a different effect on different positions within the LmrA dimer, therefore indicating that different drugs are recognized at a different position within the protein. For P-glycoprotein and LmrA it has been previously shown by biochemical methods that different drug binding sites co-exist. For a 19F label attached at position 314 (LmrA E314C), the spectra showed two distinct peaks with similar populations. This could hint towards a structural asymmetry within the LmrA dimer that might also be reflected in the alternating ATP hydrolysis at the NBDs. E314 has been specifically implicated with drug transport. Thus, structural asymmetry at this position might be functionally relevant for guiding a substrate through the transporter. Structural asymmetry within a homodimeric ABC transporter has also been shown for BtuCD, the E. coli vitamin B12 importer14. In addition, the conserved glutamates in EmrE, a small multidrug resistance protein, were shown to be asymmetric in the drug bound state15. Both, uniformly 13C/15N labeled as well as selectively amino acid type labeled LmrA has been investigated in different conformational states. Interestingly, significant dynamic changes in the b-sheet regions of LmrA (confined to the NBDs) were observed in the pre-hydrolysis (beryllium fluoride) and transition state (vanadate trapped) state. These were interpreted as the transition from a domain in fast conformational exchange in the apo state to one of intermediate exchange in the nucleotide bound state. A significant change in NBD mobility upon nucleotide binding was previously also shown with 2H ssNMR on LmrA16. By EPR it was shown that LmrA in both the vanadate and BeFx trapped states displays a significantly higher rigidity and therefore defined distances, whereas the apo state resembled a “floppy” protein with no preferred distance distribution. This concurs with data obtained from 19F ssNMR with fluorine labeled single-cysteine mutants. Here, in agreement with the EPR data, a higher label (and possibly) protein mobility was observed in the apo state displaying rather broad line widths. Upon trapping with vanadate, the line widths of the majority of fluorine-labeled mutants decreased due to an enhanced protein rigidity and a more homogenous environment of the fluorine labels. A similar observation was made when increasing the temperature that can be explained due to higher protein flexibility at increased temperatures. Solution NMR was employed to investigate the isolated soluble NBD of LmrA (Chapter 9). First 2D and 3D spectra were successfully obtained and could be utilized for a preliminary assignment of a significant fraction of residues. Additionally, binding of ATP and ADP in absence and presence of magnesium was investigated. Finally, the effects of peptides emulating the coupling helices of the full-length transporter on the soluble NBD were investigated. Strikingly, binding of one of these peptides only occurred in the presence of nucleotides (whereas the other showed no binding at all) hinting towards a tightly coupled regulation of the NBD and TMD during the substrate translocation/ATP hydrolysis cycle based on nucleotide binding.
ABCB9 is a peptide transporter belonging to the ATP-binding cassette (ABC) transporter subfamily B. Due to its high sequence identity to the transporter associated with antigen processing (TAP) the protein was named TAP-like (TAPL). The primary aim of this PhD thesis was the functional characterization of the TAPL transport complex. Despite the lack of TAPL function in the classical MHC class I pathway an involvement of TAPL in antigen presentation was still suggested. Apart from the crucial role of TAP for peptide delivery into the ER, TAP-independent translocation pathways in professional antigen presenting cells (pAPC) have been proposed, but not identified so far. Remarkably, TAPL mRNA and protein expression is strongly induced during differentiation of monocytes to immature and mature dendritic cells. This result was confirmed in the promonocytic cell line THP-1, which was used as a model system for monocyte to macrophage differentiation. By using quantitative immunofluorescence microscopy and subcellular fractionation, TAPL was detected in the lysosomal compartment co-localizing with the lysosome associated membrane protein 2 (LAMP-2) thus excluding the ER-localization formerly reported. Furthermore, by in vitro assays, a TAPL-specific and ATPdependent translocation of peptides into isolated lysosomes was demonstrated. Hence, TAPL is a candidate mediating peptide transport in alternative antigen presentation pathways in pAPCs. The presence of an extra N-terminal transmembrane domain (TMD0) lacking sequence homology to any known protein distinguishes TAPL from most other ABC transporters of its subfamily. By dissecting the TAPL translocation complex into its four putative transmembrane helices containing TMD0 and the core complex, distinct functions to the core complex and TMD0 were assigned. The core-TAPL complex composed of six predicted transmembrane helices and the nucleotide-binding domain (NBD) was expressed transiently in HeLa or stably in Raji cells. Crude membranes containing core-TAPL showed the same peptide transport activity as wt-TAPL demonstrating that the six core helices and the NBD are sufficient for peptide transport. This result also shows that the core transport complex is correctly targeted to and assembled in the membrane. Strikingly, in contrast to the wt transporter, the core complex localizes only partially to lysosomes and is mistargeted to the plasma membrane as observed by immunofluorescence microscopy and confirmed biochemically by cell surface biotinylation. Thus, a crucial role for TMD0 in proper subcellular targeting can be postulated. The vast majority of biological processes are mediated by protein complexes, hence characterization of such protein-protein-interactions is essential for understanding protein function on the cellular level. To identify interaction partners of TAPL, the transporter was isolated by tandem affinity purification. By tandem mass spectrometry the membrane proteins LAMP-1 and LAMP-2 were deciphered as specific proteins interacting with wt-TAPL. Notably, core-TAPL lacks these interactions indicating a role for TMD0 in recruiting other proteins. These results were verified for endogenous TAPL by co-immunoprecipitation. Using cells deficient in LAMP-1 and/or in LAMP-2 an escort function for the LAMP proteins was excluded. Very importantly, the physiological function of the LAMP-1and LAMP-2 interaction with TAPL is an increase in stability, since in their absence half-life of TAPL is drastically reduced.
Top-down and bottom-up approaches are the general methods used to analyse proteomic samples today, however, the bottom-up approach has been dominant in the last decade. Establishing a bottom-up method involves not only the choice of adequate instruments and the optimisation of the experimental parameters, but also choosing the right experimental conditions and sample preparation steps. LC-ESI MS/MS has widely been used in this field due to its advanced automation. The primary objective of the present study was to establish a sensitive high-throughput nLC-MALDI MS/MS method for the identification and characterisation of proteins in biological samples. The method establishment included optimisation and validation of parameters such as the capillaries in the HPLC systems, gradient slopes, column temperature, spotting frequencies or the MS and MS/MS acquisition methods. The optimisation was performed using two HPLC-systems (Agilent 1100 series and Proxeon Easy nLC system), three spotters and the 4800 MALDI-TOF/TOF analyzer. Furthermore, samples preparation protocols were modified to fit to the established nLCMALDI- TOF/TOF-platform. The potentials of this method was demonstrated by the successful analysis of complex protein samples isolated from lipid particles, pre-adipocytes/adipocytes tissues, membrane proteins and proteins pulled-down from protein-proteins interaction studies. Despite the small amount of proteins in the lipid particles or oil bodies, and the challenges encountered in studying such proteins, 41(6 novel + 14 mammal specific + 21 visceral specific) proteins were added to the already existing proteins of the secretome of human subcutaneous (pre)adipocytes and 6 novel proteins localised in the yeast lipid particles. Protein-protein interaction studies present another area of application. Here the analytical challenges are mostly due to the loss of binding partner upon sample clean-up and to differentiate from non-specific background. Novel interaction partners for AF4•MLL and AF4 protein complex were identified. Furthermore, a novel sample protocol for the analysis of membrane proteins, based on the less specific protease, elastase, was established. Compared to trypsin, a higher sequence coverage and higher coverage of the transmembrane domains were achieved. The use of this enzyme in proteomics has been limited because of its non specific cleavage. However, from the results obtained in these studies, elastase was found to cleave preferentially at the C-terminal site of the amino acids AVLIST. The advantage of the established protocol over conventional protocols is that the same enzyme can be used for shaving of the soluble dormains of intact proteins in membranes and the digestion of the hydrophobic domain after solubilisation. Furthermore, the solvents used are compatible with the nLC-MALDI method setup. In addition, it was also shown that for less specific enzymes, a higher mass accuracy is required to reduce the rate of false positive identifications, since current search engines are not perfectly adapted for these types of enzymes. A brief statistical analysis of the MS/MS data obtained from the LC-MALDI TOF/TOF system showed that for less specific enzymes, under high-energy collision conditions, approximately 43 % of the fragment ions could not be matched to the known y- b type ions and their resultant internal fragments. This limitation greatly influenced the search results. However, this limitation can be overcome by modifying the N-terminal amino acids with basic moieties such as TMT. The use of elastase as a digestion enzyme in proteomic workflow further increased the complexity of the sample. Therefore, orthogonal multidimensional separation was necessary. Offgel-IEF was used as the separation technique for the first dimension. Here peptides are separated according to the pI. However, the acquired samples could not be loaded to the nLC due to the high viscosity of the concentrated samples when using the standard protocol. In order to achieve compatibility of the Offgel-IEF to the nLC-MALDI-TOF/TOF-platform, the separation protocol of the Offgel-IEF was modified by omitting the glycerol, which was the cause of the viscous solution. The novel glycerol free protocol is advantageous over the conventional method because the samples could directly be picked-up and loaded onto the pre-column without resulting in an increase in back pressure or a subsequent pre-column clogging. The glycerol free protocol was then assessed using purple membrane and membrane fraction of C. glutamicum. The results obtained were comparable to those applied in published reports. Therefore, the absence of glycerol did not affect the separation efficiency of the Offgel-IEF. In addition the applicability of elastase and the glycerol free Offgel-IEF for quantitation of membrane proteins was assessed. Most of the unique peptides identified were in the acidic region and 85 % were focused only into one fraction and approximately 95 % in only two fractions. These results are in accordance with previously published results (Lengqvist et al., 2007). When compared with theoretical digests of the proteins identified in this study, it can be concluded that basic moiety (TMT) on the peptide backbone, did not affect the separation efficiency of the Offgel-IEF. In an applied study, changes in the protein content of yeast strain grown in two different media were relatively quantified. For example, prominent proteins, such as the hexose tranporter proteins responsible for transporting glucose accross the membrane, were successfully quantified. Last but not least, the nLC-MALDI-TOF/TOF platform also served as a basis for the development of a high-throughput method for the identification of protein phosphorylation. The establishment of such a method using MALDI has been challenging due to the lack of sensitive matrices, such as CHCA for non-modified peptides, which exhibit a homogenous crystallisation and thus yield stable signal intensity over a long period of time in an automated setup. The first step of this method was the establishment of a matrix/matrix mixture with better crystal morphology and higher analyte signal intensity than the matrix of choice, i.e. DHB. From MS and MS/MS measurements of standard phosphopeptides, a combination of FCCA and CHAC in a 3:1 ratio and 3 mM NH4H2PO4 facilitated high analyte signal intensities and good fragmentation behaviour. Combining a custom-packed biphasic column for the enrichment of phosphopeptides, the applicability of the matrix mixture was assessed in anautomated phosphopeptide analysis using standard phosphopeptides spiked to a 20-fold excess BSA digest. These analyses showed that this method is reproducibile and both flow throughs can be analysed. Applying the method to the analysis of 2 standard phosphoproteins, alpha/beta-casein, and a leukemia related protein, ENL, 13 phosphopeptides from both alpha/beta-Casein and 13 phosphopeptides with 6 phosphorylation sites from the ENL were identified. As a general conclusion, it can be stated that the nLC-MALDI-TOF/TOF method established here in various modifications for different analytical purposes is a robust platform for proteomic analyses.
Development of a computational method for reaction-driven de novo design of druglike compounds
(2010)
A new method for computer-based de novo design of drug candidate structures is proposed. DOGS (Design of Genuine Structures) features a ligand-based strategy to suggest new molecular structures. The quality of designed compounds is assessed by a graph kernel method measuring the distance of designed molecules to a known reference ligand. Two graph representations of molecules (molecular graph and reduced graph) are implemented to feature different levels of abstraction from the molecular structure. A fully deterministic construction procedure explicitly designed to facilitate synthesizability of proposed structures is realized: DOGS uses readily available synthesis building blocks and established reaction schemes to assemble new molecules. This approach enables the software to propose not only the final compounds, but also to give suggestions for synthesis routes to generate them at the bench. The set of synthesis schemes comprises about 83 chemical reactions. Special focus was put on ring closure reactions forming drug-like substructures. The library of building blocks consists of about 25,000 readily available synthesis building blocks. DOGS builds up new structures in a stepwise process. Each virtual synthesis step adds a fragment to the growing molecule until a stop criterion (upper threshold for molecular mass or number of synthesis steps) is fulfilled. In a theoretical evaluation, a set of ~1,800 molecules proposed by DOGS is analyzed for critical properties of de novo designed compounds. The software is able to suggest drug-like molecules (79% violate less than two of Lipinski’s ‘rule of five’). In addition, a trained classifier for drug-likeness assigns a score >0.8 to 51% of the designed molecules (with 1.0 being the top score). In addition, most of the DOGS molecules are deemed to be synthesizable by a retro-synthesis descriptor (77% of molecules score in the top 10% of the decriptor’s value range). Calculated logP(o/w) values of constructed molecules resemble a unimodal distribution centred close to the mean of logP(o/w) values calculated for the reference compounds. A structural analysis of selected designs reveals that DOGS is capable of constructing molecules reflecting the overall topological arrangement of pharmacophoric features found in the reference ligands. At the same time, the DOGS designs represent innovative compounds being structurally distinct from the references. Synthesis routes for these examples are short and seem feasible in most cases. Some reaction steps might need modification by using protecting groups to avoid unwanted side reactions. Plausible bioisosters for known privileged fragments addressing the S1 pocket of trypsin were proposed by DOGS in a case study. Three of them can be found in known trypsin inhibitors as S1-adressing side chains. The software was also tested in two prospective case studies to design bioactive compounds. DOGS was applied to design ligands for human gamma-secretase and human histamine receptor subtype 4 (hH4R). Two selected designs for gamma-secretase were readily synthesizable as suggested by the software in one-step reactions. Both compounds represent inverse modulators of the target molecule. In a second case study, a ligand candidate selected for hH4R was synthesized exactly following the three-step synthesis plan suggested by DOGS. This compound showed low activity on the target structure. The concept of DOGS is able to deliver synthesizable and bioactive compounds. Suggested synthesis plans of selected compounds were readily pursuable. DOGS can therefore serve as a valuable idea generator for the design of new pharmacological active compounds.
Biodegradation and elimination of industrial wastewater in the context of whole effluent assessment
(2010)
The focus of this thesis is on the assessment of the degradability of indirectly discharged wastewater in municipal treatment plants and on assessing indirectly discharged effluents by coupling the Zahn-Wellens test with effect-based bioassays. With this approach persistent toxicity of an indirectly discharged effluent can be detected and attributed to the respective emission source. In the first study 8 wastewater samples from different industrial sectors were analysed according to the “Whole-Effluent Assessment“ (WEA) approach developed by OSPAR. In another study this concept has been applied with 20 wastewater samples each from paper manufacturing and metal surface treating industry. In the first study generally low to moderate ecotoxic effects of wastewater samples have been determined. One textile wastewater sample was mutagenic in the Ames test and genotoxic in the umu test. The source of these effects could not be identified. After treatment in the Zahn-Wellens test the mutagenicity in the Ames test was eliminated completely while in the umu test genotoxicity could still be observed. Another wastewater sample from chemical industry was mutagenic in the Ames test. The mutagenicity with this wastewater sample was investigated by additional chemical analysis and backtracking. A nitro-aromatic compound (2-methoxy-4-nitroaniline) used for batchwise azo dye synthesis and its transformation products are the probable cause for the mutagenic effects analysed. Testing the mother liquor from dye production confirmed that this partial wastewater stream was mutagenic in the Ames test. The wasteweater samples from paper manufacturing industry of the second study were not toxic or genotoxic in the acute Daphnia test, fish egg test and umu test. In the luminescent bacteria test, moderate toxicity was observed. Wastewater of four paper mills demonstrated elevated or high algae toxicity, which was in line with the results of the Lemna test, which mostly was less sensitive than the algae test. The colouration of the wastewater samples in the visible band did not correlate with algae toxicity and thus is not considered as its primary origin. The algae toxicity in wastewater of the respective paper factory could also not be explained with the thermomechanically produced groundwood pulp (TMP) partial stream. Presumably other raw materials such as biocides might be the source of algae toxicity. In the algae test, often flat dose–response relationships and growth promotion at higher dilution factors have been observed, indicating that several effects are overlapping. The wastewater samples from the printed circuit board and electroplating industries (all indirectly discharged) were biologically pre-treated for 7 days in the Zahn–Wellens test before ecotoxicity testing. Thus, persistent toxicity could be discriminated from non-persistent toxicity caused, e.g. by ammonium or readily biodegradable compounds. With respect to the metal concentrations, all samples were not heavily polluted. The maximum conductivity of the samples was 43,700 micro S cm -1 and indicates that salts might contribute to the overall toxicity. Half of the wastewater samples proved to be biologically well treatable in the Zahn–Wellens test with COD elimination above 80%, whilst the others were insufficiently biodegraded (COD elimination 28–74%). After the pre-treatment in the Zahn–Wellens test, wastewater samples from four companies were extremely ecotoxic especially to algae. Three wastewater samples were genotoxic in the umu test. Applying the rules for salt correction to the test results following the German Wastewater Ordinance, only a small part of toxicity could be attributed to salts. In one factory, the origin of ecotoxicity has been attributed to the organosulphide dimethyldithiocarbamate (DMDTC) used as a water treatment chemical for metal precipitation. The assumption, based on rough calculation of input of the organosulphide into the wastewater, was confirmed in practice by testing its ecotoxicity at the corresponding dilution ratio after pre-treatment in the Zahn–Wellens test. The results show that bioassays are a suitable tool for assessing the ecotoxicological relevance of these complex organic mixtures. The combination of the Zahn–Wellens test followed by the performance of ecotoxicity tests turned out to be a cost-efficient suitable instrument for the evaluation of indirect dischargers and considers the requirements of the IPPC Directive.
Purpose of the Study: The purpose of the current study was to evaluate the role of radiofrequency (RF) and microwave (MW) ablation in the treatment of pulmonary neoplasms. Materials and Methods: From March 2004 to January 2009, 164 patients (92 males, 72 females; mean age 59.7 years, SD: 10.2) underwent computed tomography (CT)-guided percutaneous RFA of pulmonary malignancies. RFA was performed on 248 lung lesions (20 primary lesions and 228 metastatic lesions) in 248 sessions (one lesion per session). Tumors were pathologically proven and were classified as primary lung neoplasms in 20 patients (non-small cell lung cancer) and as metastatic lung neoplasms in 144 patients. RFA was performed using: a) CelonProSurge bipolar internally cooled applicator b) RITA®StarburstTMXL. From December 2007 to October 2009, 80 patients (30 males, 50 females; mean age 59.7 years, range: 48-68, SD: 6.4) underwent computed tomography (CT) guided percutaneous MW ablation of pulmonary metastases from variable histopathological primaries. MW was performed on 130 lung lesions in 130 sessions (one lesion per session) using Valleylab TM system. Results: The overall success rate of RFA was 67.7% (168/248 lesions), with overall failure rate either due to tumor residue or recurrence on follow up in 32.3% (80/248) with mean time to tumor progress was 5.6 months SD: 2.99 (Range:1-18 months). Complete successful ablation was achieved in patients treated by MWA in 73.1% (95/130 lesions), with failure rate either due to tumor residue or recurrence on follow up in 26.9% (35/130) with mean time to tumor progress 6 months SD: 2.83 (Range:1-12months). Correlation of the histopathological type of the lesion and the end result of ablation therapy revealed insignificant correlation in both RFA and MWA (p > 0.1). The preablation tumor size was one of the most significant factors that determined the end result of ablation. In RFA successful tumor ablation was significant statistically for lesions with maximal axial diameter up to 2.5 cm (110/140) in comparison to lesions of more than 2.5 cm in maximal axial diameter (58/108) (Fisher’s exact test: p < 0.0001). While in MW ablated lesions successful tumor ablation was significant statistically for lesions with maximal axial diameter up to 3 cm (90/110) in comparison to lesions of more than 3 cm in maximal axial diameter (5/20) (Fisher’s exact test: p < 0.001). The location of the lesion was another important factor that determined the end result of ablation. In both RFA and MWA successful ablation was significantly more correlated to peripheral lesions (RFA: 120/160, 80% / MWA: 80/100, 80%) than centrally located lesions (RFA: 48/88, 50%; MWA: 15/30, 50%) (Fisher’s Exact Test: p > 0.001). For successfully RFA ablated cases mean preablation tumor volumes 1.9 cc SD: 0.9 (range: 0.3 - 4.25 cc) while for failed cases the mean tumor volume was 3.7 SD: 2.4 (range: 0.8 – 6.8cc). For successfully MW ablated cases the mean preablation tumor volume: 2.4 cc SD: 2.2 (range: 0.25-8.2 cc) while for failed cases the mean tumor volume was 3.5 SD: 2.6 (range: 0.3 – 7.1 cc). In RFA the survival rates at 12, 24 and 36 months were 90%, 78% and 68% respectively while in MWA treated patients the survival rate within 12 months follow up period was 96% while at 20 month the survival rate was 77%. Complications associated with the ablation therapy were: a) procedure related mortality: 0.4% (1/248) in RFA due to massive pulmonary hemorrhage versus 0% (0/130) in MWA, b) pneumothorax: 11.3% (28/240) in RFA versus 8.5% (11/130) in MWA, c) pulmonary Hemorrhage: 17.7% (44 of 248 sessions) of which one patient had massive uncontrolled bleeding and immediate death versus 6.2% (8/130) in MWA, d) pleural effusion: 3.2 % (8 of 248 sessions) in RFA versus 3.8 % (6/130) in MWA, e) hemoptysis: 4% (10/248) in RFA versus 4.6% (6/130) in MWA ranging from mild tinged sputum to frank bleeding, f) infection: 0.4% (1/248) in RFA, versus 0% in MWA, and g) post ablation pain: 10% (25/248) in RFA versus 9.2% (12/130) in MWA. Pain was generally adequately controlled by analgesics. Conclusion: Radiofrequency and microwave ablation are effective minimally invasive tools and may be safely applied for management of lung malignancy. The success of ablation therapy is significantly correlated to the preablation tumor size, volume and tumor location.
G-protein coupled receptors (GPCRs) are the key players in signal perception and transduction and one of the currently most important class of drug targets. An example of high pharmacological relevance is the human endothelin (ET) system comprising two rhodopsin-like GPCRs, the endothelin A (ETA) and the endothelin B (ETB) receptor. Both receptors are major modulators in cardiovascular regulation and show striking diversities in biological responses affecting vasoconstriction and blood pressure regulation as well as many other physiological processes. Numerous disorders are associated with ET dysfunction and ET antagonism is considered an efficient treatment of diseases like heart failure, hypertension, diabetes, artherosclerosis and even cancer. This study exemplifies strategies and approaches for the preparative scale synthesis of GPCRs in individual cell-free (CF) systems based on E. coli, a newly emerging and promising technique for the production of even very difficult membrane proteins. The preparation of high quality samples in sufficient amounts is still a major bottleneck for the structural determination of the ET receptors. Heterologous overexpression has been a challenge now for decades but extensive studies with conventional cell-based systems had only limited success. A central milestone of this study was the development of efficient preparative scale expression protocols of the ETA receptor in qualities sufficient for structural analysis by using individual CF systems. Newly designed optimization strategies, the implementation of a variety of CF expression modes and the development of specific quality control assays finally resulted in the production of several milligrams of ETA receptor per one millilitre of reaction mixture. The versatility of CF expression was extensively used to modulate GPCR sample quality by modification of the solubilization environment with detergents and lipids in a variety of combinations at different stages of the production process. Downstream processing procedures of CF synthesized GPCRs were systematically optimized and sample properties were analysed with respect to homogeneity, protein stability and receptor ligand binding competence. Evaluation was accomplished by an array of complementary and specifically modified techniques. Depending on its hydrophobic environment, CF production of the ETA receptor resulted in non-aggregated, monodisperse forms with sufficient long-term stability and high degrees of secondary structure thermostability. The obtained results document the CF production of the ETA receptor in two different modes as an example of a class A GPCR in ligand-binding competent and non-aggregated form in quantities sufficient for structural approaches. The presented strategy could serve as basic guideline for the production of related receptors in similar systems.
In this work we study compact stars, i.e. neutron stars, as cosmic laboratories for the nuclear matter. With a mass of around 1 - 3 solar masses and a radius of around 10km, compact stars are very dense and, besides nucleons, can contain exotic matter such as hyperons or quark matter. The KaoS collaboration studied nuclear matter for densities up to 2-3 times saturation density by analysing kaon multiplicities from Au+Au and C+C collisions. The results show that nuclear matter in the corresponding density region is very compressible, with a compressibility of <200MeV. For such soft nuclear equations of state the maximum masses of neutron stars are ca. 1.8 - 1.9 solar masses, whereas the central densities are higher than 5 times nuclear saturation density and therefore point towards a possible phase transition to quark matter. If quark matter would be present in the interior of neutron stars, so-called hybrid stars, it could be produced already during their birth in supernova explosions. To study this we implement a quark matter phase transition in a hadronic equation of state which is used in supernova simulations. Supernova simulations of low and intermediate mass progenitors and two different bag constants show a collapse of the proto neutron star due to the softening of the equations of state in the quark-hadron mixed phase. The stiffening of the equation of state for pure quark matter halts the collapse and leads to the production of a second shock wave. The second shock wave is energetic enough to lead to an explosion of the star and produces a neutrino burst when passing the neutrinospheres. Furthermore, first studies of the longtime cooling of hybrid stars show, that colour superconductivity can significantly influence the cooling behaviour of hybrid stars, if all quarks form Cooper Pairs. For the so-called CSL phase (colour-spin locking) with pairing energies of several MeV, the cooling of the quark phase is suppressed and the hybrid star appears as a pure hadronic star.
Vibronic (vibrational-electronic) transition is one of the fundamental processes in molecular physics. Indeed, vibronic transition is essential both in radiative and nonradiative photophysical or photochemical properties of molecules such as absorption, emission, Raman scattering, circular dichroism, electron transfer, internal conversion, etc. A detailed understanding of these transitions in varying systems, especially for (large) biomolecules, is thus of particular interest. Describing vibronic transitions in polyatomic systems with hundreds of atoms is, however, a difficult task due to the large number of coupled degrees of freedom. Even within the relatively crude harmonic approximation, such as for Born-Oppenheimer harmonic potential energy surfaces, the brute-force evaluation of Franck-Condon intensity profiles in a time-independent sum-over-states approach is prohibitive for complex systems owing to the vast number of multi-dimensional Franck-Condon integrals. The main goal of this thesis is to describe a variety of molecular vibronic transitions, with special focus on the development of approaches that are applicable to extended molecular systems. We use various representations of Fermi’s golden rule in frequency, time and phase spaces via coherent states to reduce the computational complexity. Although each representation has benefits and shortcomings in its evaluation, they complement each other. Peak assignment of a spectrum can be made directly after calculation in the frequency domain but this sum-over-states route is usually slow. In contrast, computation is considerably faster in the time domain with Fourier transformation but the peak assignment is not directly available. The representation in phase space does not immediately provide physically-meaningful quantities but it can link frequency and time domains. This has been applied to, herein, for example (non-Condon) absorption spectra of benzene and electron transfer of bacteriochlorophyll in the photosynthetic reaction center at finite temperature. This work is a significant step in the treatment of vibronic structure, allowing for the accurate and efficient treatment of complex systems, and provides a new analysis tool for molecular science.
Succinate:quinone oxidoreductases (SQORs) are integral membrane protein complexes, which couple the two-electron oxidation of succinate to fumarate (succinate → fumarate + 2H+ + 2e-) to the two-electron reduction of quinone to quinol (quinone + 2H+ + 2e- → quinol) as well as catalyzing the opposite reaction, the reduction of fumarate by quinol. In mitochondria and some aerobic bacteria, succinate:ubiquinone reductase, also known as complex II of the aerobic respiratory chain or as succinate dehydrogenase from the tricarboxylic acid (TCA or Krebs) cycle, catalyzes the oxidation of succinate by ubiquinone, which is mildly exergonic under standart conditions and not directly associated with energy storage in the form of a transmembrane electrochemical proton potential (Δp). Gram-positive bacteria do not contain ubiquinone but rather menaquinone, a quinone with significantly lower oxidation-reduction (“redox”) midpoint potential. In these cases, the catalyzed oxidation of succinate by quinone is endergonic under standard conditions. Consequently, these bacteria face a thermodynamic problem in supporting the catalysis of this reaction in vivo. Based on experimental evidence obtained on whole cells and purified membranes, it had previously been proposed that the SQR from Gram-positive bacteria supports this reaction at the expense of the protonmotive force, Δp. Nonetheless, it has been argued that the observed Δp dependence is not associated specifically with the activity of SQR because the occurrence of artifacts in experiments with bacterial membranes and whole cells can not be fully excluded. Clearly, definitive insight into the mechanism of catalysis of this intriguing reaction required a corresponding functional characterization of an isolated, membranebound SQR from a Gram-positive bacterium. The first aim of the present work addresses the question if the general feasibility of the energetically uphill electron transfer from succinate to menaquinone is associated specifically to a single enzyme complex, the SQR. The prerequisite to achieve this goal was stable preparation of this enzyme.
The glycine receptor (GlyR) is the major inhibitory neurotransmitter receptor in spinal cord and brainstem. Heteropentameric GlyRs are clustered and anchored at inhibitory postsynaptic sites by the binding of the large intracellular loop between transmembrane domains 3 and 4 of the GlyRbeta subunit (GlyRbeta-loop) to the cytoplasmic scaffolding protein gephyrin. GlyRs are also cotransported with gephyrin along microtubules in the anterograde and retrograde direction due to the binding of gephyrin to microtubule-associated motor proteins. Additionally, GlyRs undergo lateral diffusion in the plasma membrane from extrasynaptic to synaptic sites and vice versa. Since its discovery, gephyrin has remained for many years the only binding partner interacting directly with the GlyRbeta subunit. In an attempt to elucidate further mechanisms involved in GlyR function and regulation at inhibitory postsynaptic sites, a proteomic screen for putative binding partners to the GlyRbeta loop was performed. Three proteins were identified as putative interactors. In this thesis, the interaction between these putative binding proteins and the GlyRbeta subunit was analyzed and characterized. Binding studies with glutathione-S-transferase fusion proteins revealed that all putative binding proteins, Syndapin (Sdp), Vacuolar Protein Sorting 35 (Vps35) and Neurobeachin (Nbea), interact specifically with the GlyRbeta loop. The Sdp family of proteins are F-BAR and SH3 domain containing proteins. Inmmunocytochemical experiments showed that SdpI as well as the isoforms SdpII-S and SdpIIL colocalize with the full-length GlyRbeta subunit in a mammalian cell expression system. In cultured spinal cord neurons, a partial colocalization of endogenous SdpI with several excitatory and inhibitory synaptic markers was demonstrated. Mapping experiments using deletion mutants narrowed the SdpI binding site down to 22 amino acids. Peptide competition experiments confirmed the specificity of the interaction between SdpI and this sequence of the GlyRbeta subunit. Point mutation analysis revealed a SH3-proline rich domain dependent interaction between SdpI and the GlyRbeta subunit, respectively. In addition, binding studies in mammalian cells showed that both splice variants of SdpII as well as SdpI interact with the GlyR scaffolding protein gephyrin. Although the SdpI and gephyrin binding sites do not overlap, protein competition studies revealed that interaction of the E-domain of gephyrin with the GlyRbeta loop interferes with SdpI binding. Since SdpI is a dynamin binding protein involved in vesicle endocytosis and recycling pathways, a possible function of SdpI in the regulation of GlyR synaptic distribution was investigated. Co-immunoprecipitation experiments confirmed a SdpI-GlyR association in the vesicle-enriched fraction of rat spinal cord tissue. Immunocytochemical studies of SdpI knock out mice showed that the clustering and distribution of GlyRs in the brain stem is unchanged. However, acute down-regulation of SdpI in rat spinal cord neurons by viral shRNA expression led to a reduction in the number and size of GlyR clusters, an effect that could be rescued upon shRNA-resistant SdpI overexpression. Further immunocytochemical analysis of the localization of gephyrin, the gamma2 subunit of the type A gamma-aminobutyric acid receptor (GABAARgamma2 subunit) and the vesicular inhibitory amino acid transporter (VIAAT) under SdpI knock-down conditions showed that both the number and average size of the gamma2-subunit containing GABAA receptor clusters were significantly reduced in spinal cord neurons. In contrast to GlyR and GABAARgamma2 immunoreactivity, the number and average size of gephyrin and VIAAT clusters were barely reduced upon SdpI downregulation. These results suggest that SdpI has a role in GlyR trafficking that can be compensated by other syndapin isoforms or other trafficking pathways. Furthermore, SdpI might be required for the clusters of GlyRs and gamma2-subunit containing GABAARs in spinal cord and brainstem. Vps35 is the core protein of the retromer complex, which mediates the endosome to Golgi apparatus retrieval of different types of receptors in mammals and yeast. Here, protein-protein interaction assays revealed for the first time that Vps35 interacts directly with the GlyRbeta loop as well as with gephyrin. The generation of specific Vps35 antibodies allowed to determine the distribution of this protein in the central nervous system. Immunocytochemical analyses revealed the presence of Vps35 in the somata and neurites of spinal cord neurons, suggesting a possible interaction of Vps35 with the GlyR under physiological conditions. Nbea is a BEACH domain containing, neuron-specific protein. Binding studies revealed a direct interaction between two regions of Nbea and the GlyRbeta loop. Immunocytochemical experiments confirmed a somatic and synaptic distribution of Nbea in primary cultures. In spinal cord neurons, a partial colocalization of Nbea with excitatory and inhibitory synaptic markers suggests a possible interaction of Nbea with the GlyR at inhibitory synaptic sites.
Summary: Information and communication is critical to the successful management of infectious diseases because an effective communication strategy prevents the surge of anxious patients who have not been genuinely exposed to the pathogen ('low risk patients') affecting medical infrastructures (1) and the future transmission of the infectious agent (2). Surge of low risk patients: The arrival of large numbers of low risk patients at hospitals following an infectious diseases emergency would be problematic for three main reasons. First, it would complicate the situation at hospitals receiving exposed patients, delaying the treatment of the acutely ill, creating difficulties of crowd control and tying up medical resources. Second, for the low risk patients themselves, attending hospital following an infectious disease emergency might increase their risk of exposure to the agent in question. Third, the needs of low risk patients may be poorly attended to at hospitals which are already overstretched dealing with medical casualties. Future transmission: Obtaining early information about symptoms and isolating infected patients is the most effective strategy to interrupt the chain of infection in the public in the absence of specific prophylaxis or treatment. Particularly at the beginning of an outbreak, these nonpharmaceutical interventions play an important role in enabling the early detection of signs or symptoms and in encouraging passengers to adopt appropriate preventive behaviour in order to limit the spread of the disease. This thesis includes two papers dealing with this problem: The first part is a systemic literature review of information needs following an infectious disease emergency (Anthrax, SARS, Pneumonic Plague). The key question was: what are the information needs of the public during an infectious disease emergency? The second part is an empirical investigation of information needs and communication strategies at the airport during the early stage of the Influenza Pandemic. The key question here was: what communication strategies help to meet the information needs and to enable the public to behave appropriately and responsibly? Conclusions: Evidence from the anthrax attacks in the United States suggested that a surge of low risk patients is by no means inevitable. Data from the SARS outbreak illustrated that if hospitals are seen as sources of contagion, many patients with non-bioterrorism related health care needs may delay seeking help. Finally, the events surrounding the Pneumonic Plague outbreak of 1994 in Surat, India, highlighted the need for the public to be kept adequately informed about an incident to avoid creating rumours. Clear, consistent and credible information is key to the successful management of infectious disease outbreaks. The results of the empirical investigation suggested that the desire for information is a reflection of current anxiety and does not mirror the objective scientific assessment of exposure. The airport study showed that perceived information needs were directly related to anxiety – the least anxious did not require any further information, the most anxious reported significant information needs concerning medical treatment, public health management and the assessment of the ongoing situation – irrespective of their actual exposure. A communication strategy only focussing on the 'real' exposed individuals neglects the information needs of those worrying about having contracted the virus and seeking medical attendance. Effective communication strategies should enable the general public to detect early signs or symptoms and provide them with behaviour advice to prevent the further transmission of the infectious agent. These include the provision of clear information about the incident, the symptoms and what to do to prevent the further transmission, detailed and regularly updated information in various media formats (telephone, internet, etc.) and rapid triage at hospital entrances to guide patients to the appropriate medical infrastructures. Relevance: These research findings could contribute to a shift in the organisational and communicative approach responding to infectious diseases outbreaks and could be considered relevant for future risk communication and policy decision making.
This thesis investigates the development of early cognition in infancy using neural network models. Fundamental events in visual perception such as caused motion, occlusion, object permanence, tracking of moving objects behind occluders, object unity perception and sequence learning are modeled in a unifying computational framework while staying close to experimental data in developmental psychology of infancy. In the first project, the development of causality and occlusion perception in infancy is modeled using a simple, three-layered, recurrent network trained with error backpropagation to predict future inputs (Elman network). The model unifies two infant studies on causality and occlusion perception. Subsequently, in the second project, the established framework is extended to a larger prediction network that models the development of object unity, object permanence and occlusion perception in infancy. It is shown that these different phenomena can be unified into a single theoretical framework thereby explaining experimental data from 14 infant studies. The framework shows that these developmental phenomena can be explained by accurately representing and predicting statistical regularities in the visual environment. The models assume (1) different neuronal populations processing different motion directions of visual stimuli in the visual cortex of the newborn infant which are supported by neuroscientific evidence and (2) available learning algorithms that are guided by the goal of predicting future events. Specifically, the models demonstrate that no innate force notions, motion analysis modules, common motion detectors, specific perceptual rules or abilities to "reason" about entities which have been widely postulated in the developmental literature are necessary for the explanation of the discussed phenomena. Since the prediction of future events turned out to be fruitful for theoretical explanation of various developmental phenomena and a guideline for learning in infancy, the third model addresses the development of visual expectations themselves. A self-organising, fully recurrent neural network model that forms internal representations of input sequences and maps them onto eye movements is proposed. The reinforcement learning architecture (RLA) of the model learns to perform anticipatory eye movements as observed in a range of infant studies. The model suggests that the goal of maximizing the looking time at interesting stimuli guides infants' looking behavior thereby explaining the occurrence and development of anticipatory eye movements and reaction times. In contrast to classical neural network modelling approaches in the developmental literature, the model uses local learning rules and contains several biologically plausible elements like excitatory and inhibitory spiking neurons, spike-timing dependent plasticity (STDP), intrinsic plasticity (IP) and synaptic scaling. It is also novel from the technical point of view as it uses a dynamic recurrent reservoir shaped by various plasticity mechanisms and combines it with reinforcement learning. The model accounts for twelve experimental studies and predicts among others anticipatory behavior for arbitrary sequences and facilitated reacquisition of already learned sequences. All models emphasize the development of the perception of the discussed phenomena thereby addressing the questions of how and why this developmental change takes place - questions that are difficult to be assessed experimentally. Despite the diversity of the discussed phenomena all three projects rely on the same principle: the prediction of future events. This principle suggests that cognitive development in infancy may largely be guided by building internal models and representations of the visual environment and using those models to predict its future development.
This thesis consists of four chapters. Each chapter covers a topic in international macroeconomics and monetary policy. The first chapter investigates the impact of unexpected monetary policy shocks on exchange rates in a multi-country econometric model. The second chapter examines the linkage between macroeconomic fundamentals and exchange rates through the monetary policy expectation channel. The third chapter focuses on the international transmission of bank and corporate distress. The last chapter unfolds the interest rate channel of monetary policy transmission in-an emerging economy-China, where regulations and market forces co-exist in this transmission.