Biologische Hochschulschriften (Goethe-Universität)
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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.
Durch die Behandlung HIV-positiver Patienten mit einer Kombinationstherapie verschiedener antiviraler Substanzen (HAART = hochaktive antiretrovirale Therapie) kann die Virusreplikation über einen längeren Zeitraum unterdrückt werden. Allerdings hat diese Therapie Limitationen. Die Medikamente verursachen hohe Therapiekosten, haben zum Teil starke Nebenwirkungen und es entstehen mit der Zeit resistente Viren. Eine Alternative besteht in der somatischen Gentherapie der HIV-Infektion. Bei diesen Ansätzen werden Zellen der Patienten genetisch modifiziert, so dass sie ein antivirales Genprodukt exprimieren. In der vorliegenden Arbeit wurde ein membrangebundenes, antivirales C46 Peptid (maC46) sowohl in vitro in Zelllinien und primären humanen T-Zellen als auch in vivo in zwei humanisierten Mausmodellen getestet. Das C46 Peptid entstammt der C-terminalen "heptad repeat" Sequenz des HIV Hüllproteins gp41. C-Peptide wie C46 oder auch T20, welches bereits für die HAART Therapie zugelassen ist, binden während der Fusion des Virus mit der Zielzelle an gp41 und inhibieren so die Fusion. Werden T-Zelllinien oder primäre humane T-Zellen mit einem gammaretroviralen Vektor, der maC46 codiert, transduziert, können sie sehr effizient vor einer Infektion mit HIV geschützt werden [30]. Dieser Vektor wurde bereits in einer klinischen Studie mit T-Zellen von 10 HIV-positiven Patienten getestet [142]. Dabei konnte allerdings kein antiviraler Effekt der Gentherapie beobachtet werden. Hier wurde nun ein lentiviraler Vektor für maC46 (LV-maC46-GFP) verwendet. Lentivirale Vektoren transduzieren im Gegensatz zu gammaretroviralen auch ruhende Zellen, was ein kürzeres ex vivo Aktivierungs- und Transduktionsprotokoll ermöglicht. Außerdem ist für lentivirale Vektoren das Risiko der Transformation der Zelle niedriger als für gammaretrovirale. Für eine mögliche klinische Anwendung sollte es daher tolerierbar sein, für lentivirale Vektoren eine höhere MOI zu verwenden als für gammaretrovirale. Eine höhere Transduktionseffizienz sollte auf der anderen Seite auch eine effektive und langanhaltende Transgenexpression ermöglichen. Zunächst wurde gezeigt, dass sowohl die T-Zelllinie PM-1 als auch primäre humane T-Zellen nach Transduktion mit LV-maC46-GFP vor einer Infektion mit HIV geschützt waren und während der Infektion einer gemischten Kultur einen Selektionsvorteil gegenüber nicht-transduzierten Zellen hatten. Dabei konnte auch durch konfokale Mikroskopie gezeigt werden, dass das Virus die maC46-exprimierenden Zellen nicht injizieren konnte, sondern lediglich auf der Zelloberfläche gebunden wurde. Im Weiteren wurden zwei humanisierte Mausmodelle etabliert, um LV-maC46-GFP in vivo zu testen. Im humanen Immunsystem Mausmodell (HIS-Mausmodell) wurden immundefiziente Mäuse mit humanen Blutstammzellen repopuliert. In den Tieren kam es zu einer de novo Bildung von humanen, reifen T-Lymphozyten durch Thymopoese. Dabei wurden im Blut der Tiere humane, maC46- exprimierende CD4+ T-Zellen detektiert. Nach Infektion der Tiere mit HIV wurden diese T-Zellen depletiert. Es kam allerdings nicht zu einer Anreicherung oder einem selektiven Überleben der genmodifizierten T-Zellen. Eine Erklärung dafür könnte eine gestörte T-Zellhomeostase in den Tieren sein. Das zweite humanisierte Mausmodell (T-Zellmausmodell) verwendete immundefiziente Mäuse, die mit transduzierten humanen T-Zellen repopuliert wurden. Die Infektion mit HIV erfolgte entweder in vitro vor Transplantation der Zellen oder in vivo nach Repopulierung der Tiere. In beiden Fällen konnte ein selektives Überleben maC46-exprimierender CD4+ T-Zellen nach HIV-Infektion beobachtet werden. Im letzten Teil der vorliegenden Arbeit wurde die Weiterentwicklung von maC46, eine sekretierte Variante des C46-Peptids (iSAVE), im T-Zellmausmodell getestet. Ein sekretierter Fusionsinhibitor stellt insofern eine Weiterentwicklung des membrangebundenen dar, als nicht nur die genmodifizierten Zellen, sondern zusätzlich auch nicht-modifizierte Nachbarzellen vor einer Infektion mit HIV geschützt werden könnten. Dadurch erhöht sich auch das Spektrum an möglichen Produzentenzellen für den Fusionsinhibitor. In den hier beschriebenen Experimenten wurden humane T-Zellen entweder mit einem gammaretroviralen (RV-iSAVE) oder einem lentiviralen Vektor (LV-iSAVE) transduziert und die Experssion das iSAVE-Peptids wurde im Serum der Tiere gemessen. In beiden Ansätzen konnte iSAVE Peptid im Serum der Tiere detektiert werden. In weiteren Experimenten sollte nun untersucht werden, ob dieses in vivo sekretierte iSAVE Peptid antiviral aktiv ist und die humanisierten Mäuse vor einer Infektion mit HIV schützen kann.
Fas Ligand (FasL; CD95L; CD178; TNSF6) is a 40 kDa glycosylated type II transmembrane protein with 279 aa in mice and 281 aa in humans that belongs to the tumor necrosis factor (TNF) family. The extracellular domain (ECD) harbors a TNF homology domain, the receptor binding site, a motif for self assembly and trimerization, and several putative N-glycosylation and a metalloprotease cleavage site/s. The cytoplasmic tail of FasL is the longest of all TNFL family members and contains several conserved signaling motifs, such as a putative tandem Casein kinase I phosphorylation site, a unique proline-rich domain (PRD) and phosphorylatable tyrosine residues (Y7 in mice; Y7, Y9, Y13 in human). The FasL/Fas system is renowned for the potent induction of apoptosis in the receptor-bearing cell and is especially important for immune system functions. It is involved in the killing of target cells by natural killer (NK) and cytotoxic T cells, in the (self) elimination of effector cells following the proliferative phase of an immune response (activation-induced cell death; AICD), in the maintenance of immuneprivileged sites and in the induction and maintenance of peripheral tolerance. Owing to its potent pro-apoptotic signaling capacity and important functions, FasL expression and activity are tightly regulated at transcriptional and posttranscriptional levels and restricted to few cell types, such as immune effector cells and cells of immune-privileged sites. In contrast, Fas is expressed in a variety of tissues including lymphoid tissues, liver, heart, kidney, pancreas, brain and ovary. In addition to its pro-apoptotic function, the FasL/Fas system can also elicit nonapoptotic signals in the receptor-expressing cell. Among others, Fas-signaling exerts co-stimulatory functions in the immune system, e.g. by promoting survival, activation and proliferation of T cells. Besides the capacity to deliver a signal into receptor-bearing cells (‘forward signal’), FasL can receive and transmit signals into the ligand-expressing cell. This phenomenon has been described for several TNF family ligands and is known as ‘reverse signaling’. The first evidence for the existence of reverse signaling into FasL-bearing cells stems from two studies that demonstrated either co-stimulation of murine CD8+ T cell lines by FasL cross-linking or inhibition of activation-induced proliferation of murine CD4+ T cells. In both cases, the observed changes of proliferative behaviour critically depended on the presence of a signaling-competent FasL. Almost certainly, the FasL ICD is functionally involved in signal-transmission: (i) The ICD is highly conserved across species and harbors several signaling motifs, most notably a unique PRD. (ii) Numerous proteins have been identified which interact with the FasL PRD via their SH3 or WW domains and regulate various aspects of FasL biology, such as FasL sorting, storage, cell surface expression and the linkage of FasL to intracellular signaling pathways. (iii) Post-translational modifications of the ICD have been implicated in the sorting of FasL to vesicles and the FasL-dependent activation of Nuclear factor of activated T cells (NFAT). (iv) Proteolytic processing of FasL liberates the ICD and allows its translocation into the nucleus where it might influence gene transcription. (v) It could be shown that overexpression of the FasL ICD is sufficient to initiate reverse signaling upon concomitant T cell receptor (TCR) stimulation and ICD cross-linking. Conflicting data on the consequences of FasL reverse signaling exist, and costimulatory as well as inhibitory functions have been reported. These discrepancies probably reflect the use of artificial experimental systems. Neither the precise molecular mechanism underlying FasL reverse signaling, nor its physiological relevance have been addressed at the endogenous protein level in vivo. Therefore, a ‘knockout/knockin’ mouse model in which wildtype FasL was replaced with a deletion mutant lacking the intracellular portion (FasL Delta Intra) was established in the group of PD Dr. Martin Zörnig. In the present study, FasL Delta Intra mice were phenotypically characterized and were employed to investigate the physiological consequences of FasL reverse signaling at the molecular and cellular level. To ensure that FasL Delta Intra mice represent a suitable model to study the consequences of FasL reverse signaling, we demonstrated that activated lymphocytes from homozygous FasL Delta Intra or wildtype mice express comparable amounts of (truncated) FasL at the cell surface. The truncated protein retains the capacity to induce apoptosis in Fas receptor-positive target cells, as co-culture assays with FasL-expressing activated lymphocytes and Fas-sensitive target cells showed. Additionally, systematic screening of unchallenged mice did not reveal any phenotypic abnormalities. Notably, signs of a lymphoproliferative autoimmune disease associated with FasL-deficiency could not be detected. As several reports have implicated FasL reverse signaling in the regulation of T cell expansion and activation, proliferation of lymphocytes isolated from FasL Delta Intra and wildtype mice in response to antigen receptor stimulation was investigated. Using CFSE dilution assays it could be demonstrated that the proliferative response of CD4+ T cells, CD8+ T cells and of B cells was enhanced in the absence of the FasL ICD. Interestingly, this effect was most pronounced in B cells and could only be detected in CD4+ T cells after depletion of CD4+CD25+ regulatory T cells. To our Summary knowledge, this is the first time that FasL reverse signaling has been demonstrated in B cells. In a series of experiments, the activation of several pathways that are known to play important roles in signal-transmission initiated upon antigen receptor triggering was assessed. As a molecular correlate for the observed enhancement of activation-induced proliferation, Extracellular signal regulated kinase (ERK1/2) phosphorylation was significantly increased in FasL Delta Intra mice following antigen receptor crosslinking. Surprisingly, B cell stimulation lead to a comparable extent of activating phosphorylations on S38 in c-Raf and S218/S222 in MEK1/2 in cells isolated from wildtype and FasL Delta Intra mice, indicating that Mitogen activated protein kinases (MAPKs) upstream of ERK1/2 (Raf-1 and MEK1/2) apparently do not contribute to the differential regulation of ERK1/2. Experiments in which activation-induced Akt phosphorylation (S473) was quantified also did not suggest a participation of Phosphoinositol specific kinase 3 (PI3K)/Akt signals in this process. Instead, further characterization of the upstream pathway revealed an involvement of Phospholipase C gamma (PLC gamma) and Protein kinase C (PKC) signals in FasL-dependent ERK1/2- regulation. Previous studies in our group revealed a Notch-like processing of FasL, resulting in the transcriptional regulation of a reporter gene. Furthermore, an interaction of the FasL ICD with the transcription factor Lymphoid-enhancer binding factor-1 (Lef-1) that affected Lef-1-dependent reporter gene transcription could be demonstrated. Therefore, a molecular analysis of activated lymphocytes was performed to identify FasL reverse signaling target genes. The differential expression of promising candidates was verified by quantitative real-time PCR (qRT-PCR), which showed that the transcription of genes associated with lymphocyte proliferation and activation was increased in FasL Delta Intra mice compared to wildtype mice. Interestingly, an extensive regulation of Lef-1-dependent Wnt/beta-Catenin signalingrelated genes was found. Lef-1 mRNA (RT-PCR) and protein (intracellular FACS staining) could be detected in mature B cells, suggesting the possibility of FasL ICD-mediated inhibition of Lef-1-dependent gene expression in these cells, initiated by Notch-like processing of FasL. To investigate the consequences of FasL reverse signaling in vivo, a potential participation of the FasL ICD in the regulation of immune responses upon various challenges was analyzed. In experiments in which thymocyte proliferation or the expansion of antigen-specific T cells following a challenge with the superantigen Staphylococcus enterotoxin B (SEB), with Lymphocytic choriomeningitis virus (LCMV) or with Listeria monocytogenes were investigated, comparable results were obtained with wildtype and FasL Delta Intra mice. Likewise, the recruitment of neutrophils in a thioglycollate-induced model of peritonitis was not affected by deletion of the FasL ICD. These findings might reflect regulatory mechanisms operating in vivo, such as control exerted by regulatory T cells. Along these lines, proliferative differences in CD4+ T cells could only be detected ex vivo after depletion of CD4+CD25+ regulatory T cells. Furthermore, several in vitro studies indicate that retrograde FasL signals can be observed under conditions of suboptimal lymphocyte stimulation, but not when the TCR is optimally stimulated. Therefore, the potent initiation of antigen receptor signaling by stimuli like SEB or LCMV might have masked inhibitory FasL reverse signaling in these experiments. In agreement with the observed hyperactivation of lymphocytes in the absence of the ICD ex vivo, the increase in germinal center B cells (GCs) following immunization with the hapten 3-hydroxy 4-nitrophenylacetyl (NP) and the number of antibody-secreting PCs was significantly higher in FasL Delta Intra mice. The larger quantity of PCs correlated with increased titers of NP-binding, i.e. antigen-specific, IgM and IgG1 antibodies in the serum of FasL Delta Intra mice after immunization. These data suggest that FasL reverse signaling exerts immunmodulatory functions. Supporting this notion, a model of Ovalbumin-induced allergic airway inflammation revealed an involvement of retrograde FasL-signals in the recruitment of immune effector cells into the lung and in the activation of T cells following exposure of mice to Ovalbumin. Together, our ex vivo and in vivo findings based on endogenous FasL protein levels demonstrate that FasL ICD-mediated reverse signaling is a negative modulator of certain immune responses. It is tempting to speculate that FasL reverse signaling might be a fine-tuning mechanism to prevent autoimmune diseases, a theory which will be tested in adequate mouse models in the future.
Das Auftreten von plötzlichem Herztod, das häufig durch ventrikuläre Tachyarrhythmien ausgelöst wird, stellt bis heute eine Herausforderung bei der Therapie der Patienten mit schwerer Herzinsuffizienz dar. Derartige Arrhythmien werden bei über 85% der Patienten mit schwerer Herzinsuffizienz beschrieben und über 50% der Todesursachen werden dabei auf das Auftreten von plötzlichem Herztod zurückgeführt. Es wird vermutet, dass das elektrische Remodeling als Teil der gesamten kardialen Umbauvorgänge bei der Entstehung einer Herzinsuffizienz die pathophysiologische Grundlage dieser Arrhythmien darstellt. Das Renin-Angiotensin-Aldosteron System spielt eine zentrale Rolle bei der Ausbildung des elektrischen Remodeling und insbesondere erhöhte Aldosteronkonzentrationen korrelieren mit dem Risiko kardiovaskulärer Zwischenfälle. Darüberhinaus konnte in zwei klinischen Studien (RALES und EPHESUS) gezeigt werden, dass die Therapie herzinsuffizienter Patienten mit den Aldosteronantagonisten Spironolacton und Eplerenon die Mortalität und Morbidität und insbesondere auch das Auftreten von plötzlichem Herztod signifikant senken konnte. Weitere Studien zeigen eine Verbindung zwischen dem Auftreten einer Herzinsuffizienz und Veränderungen in der Funktion und Expression kardiospezifischer repolarisierender K+-Kanäle. Neben den klinischen Daten, die einen protektiven Effekt der Aldosteronantagonisten bei plötzlichem Herztod belegen, ist wenig über die Auswirkungen von Aldosteron auf das elektrische Remodeling des Herzens bekannt. In dieser Arbeit sollte daher die Auswirkung einer chronischen Aldosteronexposition in Ratten auf die elektrophysiologischen Eigenschaften des Herzens untersucht werden. Dazu wurde Wistar-Ratten Aldosteron verabreicht und einigen Tieren die Aldosteronantagonisten Spironolacton und Eplerenon, um die Effekte der unspezifischen (Spironolacton) und spezifischen (Eplerenon) MR Blockade auf die elektrischen Eigenschaften der Kardiomyozyten zu untersuchen. Die Aldosteron exponierten Tiere entwickelten eine linksventrikuläre Hypertrophie, die sich unabhängig von Blutdruckveränderungen entwickelte, sowie ein signifikant verlängertes QT-Intervall, vermehrt auftretende ventrikuläre Extrasystolen und ventrikuläre Tachykardien. Die Elektrolytwerte (K+, Na+, Cl-) waren dabei nicht verändert. Die Aldosteronantagonisten Spironolacton und Eplerenon waren in der Lage, die unter Aldosteron auftretenden Veränderungen zu verhindern. Die Transkription der Untereinheiten kardiospezifischer K+-Kanäle (Ito, IKur, IK1) und des L-Typ Ca2+-Kanals war unter Aldosteronstimulation im linken Ventrikel signifikant erniedrigt. Auf Proteinebene konnte dies für die Kanaluntereinheiten Kv1.5 (IKur), Kir2.3 (IK1) und Cav1.2 (L-Typ Ca2+-Kanal) bestätigt werden. Die Untersuchung eventuell zugrunde liegender Signaltransduktionswege lieferte erniedrigte mRNA Expressionslevel der kardiospezifischen Proteinkinase C Isoformen PKC-α und PKC-ε, wohingegen die mRNA-Expression von PKC-δ unter Aldosteronstimulation unverändert war. Diese Veränderungen in der Transkription der PKC Isoformen wurden durch Behandlung der Tiere mit den Aldosteronantagonisten inhibiert, was für einen MR vermittelten Effekt spricht. Weiterhin zeigte eine chronische Aldosteronstimulation eine erniedrigte mRNA Expression von Calcineurin Aß (PPP3CB) sowie Calcineurinaktivität in linksventrikulärem Gewebe der Tiere. Dieser Effekt konnte durch die Aldosteronantagonisten nicht aufgehoben werden, so dass ein Signaltransduktionsweg, der nicht über den MR vermittelt wird, zugrunde liegen könnte. Insgesamt konnte in dieser Arbeit gezeigt werden, dass chronisch erhöhte Aldosteronkonzentrationen im Rattenherz blutdruckunabhängig zu strukturellen und elektrischen Veränderungen führen, die das Auftreten maligner ventrikulärer Arrhythmien begünstigen. Beide Aldosteronantagonisten Spironolacton und Eplerenon sind in der Lage, die durch Aldosteron vermittelten Effekte in gleicher Weise zu inhibieren. Die Ergebnisse zeigen pathophysiologische Zusammenhänge auf, die die Bedeutung von Aldosteron und der Therapie mit Aldosteronantagonisten für die Behandlung der Herzinsuffizienz und in Zukunft möglicherweise der Hypertrophie unterstreichen.
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.
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.
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. ...
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.
Die Bedeutung verschiedener CRASP-Proteine für die Komplementresistenz von Borrelia burgdorferi s.s.
(2010)
Die vorliegende Arbeit liefert einen wichtigen Beitrag zum Verständnis des molekularen Mechanismus der Immunevasion von B. burgdorferi s.s., insbesondere der Bedeutung einzelner CRASP-Proteine für die Komplementresistenz. Sie trägt dazu bei, die Relevanz dieser Proteine für die Pathogenese dieses Erregers zu untermauern. Im Rahmen dieser Arbeit gelang es, verschiedene Vektoren mit den ursprünglichen oder mutierten CRASP-kodierenden Genen cspA, cspZ, erpP und erpA aus B. burgdorferi s.s. zu generieren und diese in das CRASP-negative Isolat B. garinii G1 zu transformieren. Die Expression der speziesfremden Gene als auch der Transport der CRASP-Moleküle auf die Zelloberfläche von B. garinii G1 konnten nachgewiesen werden. Für die konstitutiv CRASP-1- oder CRASP-2-produzierenden Borrelienzellen konnte gezeigt werden, dass diese, auf der Zelloberfläche lokalisierten CRASP-Moleküle mit Faktor H und FHL-1 interagieren, die gebundenen Komplementregulatoren ihre funktionelle Aktivität zur C3b-Inaktivierung aufrechterhalten und die Zellen in Gegenwart von Komplement überleben. Damit wurde erstmals der Nachweis erbracht, dass beide CRASP-Moleküle unabhängig voneinander Schutz vor komplementvermittelter Lyse verleihen. Untersuchungen mit den veränderten CRASP-1-Molekülen ergaben, dass die Transformante G1/pCRASP-1 E147K eine verringerte Bindung von Faktor H und FHL-1 aufwies, welche sich jedoch nicht auf die Komplementresistenz der Zellen auswirkte. Im Gegensatz dazu führte eine Aminosäuresubstitution im C-Terminus des CRASP-1-Moleküls an Position 240 zum Verlust der Bindung von Faktor H und einer stark verminderten Bindung von FHL-1, so dass auch keine Kofaktoraktivität nachgewiesen werden konnte. Trotz des Bindungsverlustes beider Komplementregulatoren zeigte die Transformante G1/pCRASP-1 Y240A nur geringe Ablagerungen des lytischen, terminalen Komplementkomplexes (TCC) auf der Zelloberfläche und Wachstum in Gegenwart von aktiven Komplement. Mittels eines Hämolyse-Assays wurde schließlich festgestellt, dass CRASP-1 direkt mit Komponenten des Komplementsystems interagiert und dadurch die Assemblierung des TCC verhindert. Die Bedeutung der Aminosäuren an den Positionen 81, 139, 207 und 211 im CRASP-2-Molekül für die Faktor H / FHL-1-Bindung und die daraus resultierenden Auswirkungen auf die Komplementresistenz der Borrelien wurde gleichfalls nachgewiesen. Dabei wies insbesondere die Transformante G1/pCRASP-2 Y211A ein inhibiertes Wachstum in Humanserum und verstärkt Komplementablagerungen auf der Zelloberfläche auf, was auf den Verlust bzw. der sehr schwachen Bindung von FHL-1 und Faktor H zurückzuführen ist. Im Gegensatz zu den Transformanten, welche ein CRASP-2-Molekül mit nur einem Aminosäureaustausch produzierten, zeigten die Transformanten, deren CRASP-2-Molekül zwei Aminosäuresubstitutionen aufwies (G1/pCRASP-2 R139A-Y207A, G1/pCRASP-2 R139A-Y211A, G1/pCRASP-2 Y207A-Y211A) keine Bindung der beiden Regulatorproteine und keinen Schutz der Zellen vor der lytischen Wirkung von Komplement. Neue, unerwartete Erkenntnisse ergaben sich aus den Untersuchungen mit Borrelienzellen, welche das CRASP-3- oder CRASP-5-kodierende erpP- bzw. erpA-Gen enthielten. Obwohl gereinigtes als auch denaturiertes CRASP-3 und RASP-5 in der Lage war, Faktor H zu binden, wiesen die vitalen Zellen der Transformanten G1/pCRASP-3 und G1/pCRASP-5 keine Bindung von Faktor H und keinen Schutz der Zellen vor komplementvermittelter Lyse auf. Aus den durchgeführten Untersuchungen konnten für gereinigtes CRASP-3 und CRASP-5 als auch für die CRASP-3- und CRASP-5-produzierenden Transformanten neue Liganden, nämlich CFHR-2 und CFHR-5, aus Humanserum identifiziert werden. Zusammenfassend lassen sich folgende Aussagen hinsichtlich des molekularen Mechanismus der Komplementresistenz bei B. burgdorferi s.s. aus den erhobenen Daten dieser Arbeit mit transformierten Borrelienzellen formulieren: *Die Komplementresistenz der Borrelien wird durch die Faktor H- und FHL-1-bindenden Proteine CRASP-1 und CRASP-2, jedoch nicht durch CRASP-3 und CRASP-5 determiniert, *CRASP-1 als multifunktionelles Protein ist zusätzlich in der Lage, direkt mit Komplement zu interagieren, *Die C-terminalen Domänen von CRASP-1 und CRASP-2 sind für die Bindung der beiden Komplementregulatoren Faktor H und FHL-1 relevant, *CRASP-3 und CRASP-5 auf der Borrelienoberfläche lokalisiert, interagieren mit CFHR-1, CFHR-2 und CFHR-5, aber nicht mit Faktor H.