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The work presented in this thesis addresses a key issue of the CBM experiment at FAIR, which aims to study charm production in heavy ion collisions at energies ranging from 10 to 40 AGeV . For the first time in this kinematical range, open charm mesons will be used as a probe of the nuclear fireball. Despite of their short decay length, which is typically in the order of few 100 µm in the laboratory frame, those mesons will be identified by reconstructing their decay vertex.
End-stage renal disease has been denominated a vasculopathic state, owing to the accelerated arterial stiffening, which occurs in addition to and independent of atherosclerosis and bears an increased cardiovascular risk. The altered metabolic milieu in uraemia leads to an increased oxidative stress, heightened inflammatory burden, and an abnormal calcium-phosphate metabolism, which are thought to be responsible for the vascular changes. The pulse wave velocity (PWV) is a widely employed surrogate parameter of arteriosclerosis. The purpose of this study was to gain more insight into the pathogenesis of arterial stiffness, by investigating the influence of markers of oxidative stress, procoagulation, and inflammation, and of the calcium-phosphate product on the PWV. We conducted a cross-sectional study in 53 stable patients aged 59 ± 16 years, who had been on haemodialysis for at least 4 months (68 ± 48). Carotid-radial PWV was measured using a semi-automated device, Complior SP (Artech Medical, France). Advanced glycosylation end-products (AGE) and advanced oxidation protein products (AOPP), were quantified according to previously described methods. High sensitive CRP was measured using ELISA, whereas the other biochemical parameters, i.e. fibrinogen, albumin, calcium, phosphate, cholesterol, and triglycerides, were determined using routine methods. For statistical calculations we employed SPSS (Statistical Package of Social Science, 12.0, 2003). The correlations between PWV, as the dependent variable, and many dependent variables were assessed by means of multiple regression analysis, in which we controlled for the influence of the traditional cardiovascular risk factors and some of the patients’ medication (calcium-channel blockers and statins). PWV was found to be significantly correlated to serum CRP (p=0.003), LDLcholesterol (p<0.001), triglycerides (p<0.001), AGE (p=0.002), calcium (p<0.001), phosphate (p=0.001), and fibrinogen (p=0.020). Between PWV and dialysis duration (months) an interesting quadratic relationship (p=0.058) was noted. Against expectation, regression analysis showed a negative correlation between AOPP and PWV (p=0.001). We failed to confirm the correlation between PWV and age, systolic blood pressure, or heart rate. Among traditional cardiovascular risk factors only LDL-cholesterol was positively correlated to PWV. In this cross-sectional analysis we could put forward that PWV correlates positively and significantly with fibrinogen, CRP, AGEs, calcium, phosphate, and LDL-cholesterol in haemodialysis patients. It seems procoagulatory and proinflammatory pathways, oxidative stress, and the calcium-phosphate product exert a synergistic effect on disturbances of vascular architecture in ESRD patients.
Mesenchymal stem cells (MSC), also referred to as marrow stromal cells, maintain the capacity to differentiate into multiple mesenchymal lineages such as osteoblasts, chondrocytes, adipocytes, myoblasts, stromal, neural and endothelial cells. The use of autologous MSC has generated widespread interest due to their developing application in regenerative medicine and tissue engineering in orthopedic surgery. They have become an indispensable cell source for successful implementation in many bone reconstruction procedures. In addition to their multipotency and selfrenewal capacity, they are easily harvested, have demonstrated a homing mechanism and can be efficiently expanded in vitro, thus providing a safe and costefficient tissue replacement for patients with skeletal injury or disease. Little information is currently available concerning donor characteristics for tissue engineering growth of osseous tissue. This study examines the influences of such donor characteristics, including injury pattern, gender, age, and site of harvest on the quantity, quality and osteogenic differentiation of MSC. The goal is to evaluate whether certain patient groups are practically suitable for an ex vivo expansion and therapeutic reimplantation of MSC. The effect of injury pattern on the reservoir and proliferative capacity of MSC in human bone marrow is clearly demonstrated in this analysis. Age and gender were also shown to influence MSC number and proliferation, as in previous studies. A total of 53 participants (46 patients and 7 healthy volunteers ranging from 18 to 64 years of age), who were scheduled to undergo operative procedures on the pelvis, vertebrae, tibia or hip as well as cancellous bone autografts for reconstruction of various bone defects, were included in the study. Participants were divided into 4 groups for each gender: single fracture, multiple trauma, atrophic nonunion and healthy volunteers. A minimum of 6 ml bone marrow samples were aspirated intraoperatively and processed immediately according to protocol. Following cultivation and expansion for 14 days, the cells were then stained for the colony forming unit-fibroblast (CFU-F) assay and each culture flask was photographed, digitized and converted to an 8 bit grey level TIF-format. Using the digitized CFU-F assay, the mean colony number, mean colony area and mean cell number per microscopic field of view (cell density) could be determined. In addition, confirmation of MSC phenotype was established using fluorescent activated cell sorting (FACS). MSC potential for osteogenic differentiation was quantified by von Kossa, alkaline phosphatase and alizarin staining. Furthermore, serum from a total of 39 randomly chosen participants was collected and tested for hormone levels of 17β-estradiol, testosterone and prolactin as well as the cytokine interleukin-6. These analyses demonstrate several significant trauma-related modifications in MSC reservoir and proliferation, in both male and female patients. In multiple trauma patients, the highest MSC frequency was found, independent of gender and age. Proliferative capacity was also highest in male multiple trauma patients. In the case of atrophic nonunion, the lowest MSC reservoir was detected, independent of gender. Furthermore, MSC frequency in male patients was significantly higher than in female, although analyses of hormone and interleukin-6 levels provided no correlation. Agerelated changes in MSC reservoir could also be observed, whereas the proliferative capacity produced only a tendency toward decreasing values with increasing age. Concerning the site of cell harvest, MSC isolated from the proximal extremity of the tibia, greater trochanter and vertebral body did not proliferate sufficiently enough to be included in statistical analysis, supporting the use of the iliac crest for efficient expansion of MSC. This data suggests the interaction of yet to be identified processes in bone marrow in multiple trauma situations which stimulate the activation and mobilization of MSC. Moreover, in the case of atrophic nonunion, the concentration in bone marrow is depleted and the absence of systemic stimulation present in multiple trauma results in reduced activation of proliferative capacity. Such patients, with severe injury or atrophic nonunion, represent a group of patients with an especially acute necessity for effective and successful bone reconstruction. This data can be used to determine the applicability of MSC from various patient groups for osseous tissue replacement procedures. Especially in such medically challenging situations, further research is essential not only to delineate the factors involved in MSC regulation but also to develop methods to stimulate MSC expansion and proliferation.
Leukemia inhibitory factor enhances neurogenin's pro-neural effect during mouse cortical development
(2007)
Die Entwicklung von unterschiedlichen Zelltypen waehrend der embryonalen ZNS-Entwicklung ist abhaengig von zellintrinsischen und positionsabhaengigen, aeusseren Einfluessen. Dabei bilden sich die verschiedenen Zellen in nacheinander ablaufenden bzw. sich teilweise ueberlappenden Zeitraeumen. Zuerst entstehen Radiaglia und Neuronen, nachfolgend Astrozyten und zuletzt Oligodendrozyten. Werden neurale Stammzellen/Vorlaeuferzellen (NPCs – neural precursor cells) zu unterschiedlichen Zeitpunkten entnommen und ohne den Einfluss von Wachstumsfaktoren kultiviert, so entwickeln sich diese Zellarten in der gleichen Reihenfolge. Die Neurogenese, die bei Mausembryos am Tag E11-12, nach dem Etablieren der Radialglia, beginnt, findet an E14 ihren Hoehepunkt. Zu diesem Zeitpunt werden die Gene Neurogenin1 (Ngn1) und Ngn2 in den neuralen Vorlaeuferzellen der Ventrikularzone des dorsalen Cortexes in hohem Masse exprimiert. Wie aus Untersuchungen von unserm Labor gezeigt wurde, beguenstigt es die Entstehung von Neuronen und blockiert gleichzeitig Pro-Astrozyten-Einfluesse. Zum einen inhibiert Ngn den JAK/STAT Signalweg, dessen Aktivierung fuer die Gliogenese noetig ist, indem es die Phosphoylierung von STAT1/3 auf bisher noch unbekannte Weise blockiert. Ausserdem bindet der Transkriptions-Coaktivator cAMP-response element binding protein (CBP), welches auch von den STATs fuer die Transkription benoetigt wird, bevorzugt an Ngn sobald dieses von den Vorlaeuferzellen exprimiert wird. Mit dem Tag E16 nimmt die Neurogenese in vivo wieder stark ab und es setzt die Gliogenese ein, bei der zunaechst ueberwiegend Astrozyten gebildet werden. Faktoren wie leukemia inhibitory factor (LIF) sowie ciliary neurotrophic factor (CNTF) beguenstigen dabei die Astrozytogenese indem sie den JAK/STAT Signalweg aktivieren. Die Bindung von LIF/CNTF fuehrt zur Phosphorylierung von STAT-Transkriptionsfaktoren, die ihrerseits dann an den CBP/p300 Komplex binden und schliesslich die Expression von Astrozyten-spezifischen Genen aktivieren. Die STAT-Faktoren koennen aber erst nach Abfall des Ngn-Spiegels an den Transkriptions-Coaktivator binden, da sich die Bindungsstellen dieser beiden ueberlappen. Um die Hypothese zu ueberpruefen, dass LIF auch die Neurogenese, oder spezifischer, die Wirkung von Ngn positiv beeinflusst, wurden cortikale NPCs von murinen Embryos entnommen und der Wirkung von LIF via Luciferase Assay untersucht. Dabei wurden die Vorlaeuferzellen mit Ngn und einem Reporter transfiziert, welcher den NeuroD-Promoter beinhaltete. NeuroD-Expression findet in der Regel gegen Mitte/Ende der Neurogenese statt und ist wichtig fuer die Reifung von Neuronen. Der Promoter von NeuroD beinhaltet ein E-box Element, an welches Ngn bindet und die Transkription einleitet. Wie unsere ersten Versuche zeigten, verstaerkt LIF die Transkriptionsaktivitaet von Ngn und somit die Transkription von NeuroD. Wenn aber im selben Versuch ein NeuroD-Reporter transfiziert wurde, dessen E-box mutiert war, wurde keine Transkriptionsaktivitaet gemessen, was wiederum bestaetigte, dass der pro-neurale LIF-Effekt ueber Ngn lief und E-box-Bindung noetig war. Um den Einfluss des pro-neuralen Effekts von LIF auf Proteinebene zu testen, wurden NPCs mit Ngn-Adenovirus infiziert und mit LIF stimuliert. Dabei wurden die Zellen auf die Expression von Neuron-spezifischem class III β-tubulin (TuJ1) untersucht. Die Ergebnisse zeigten, dass LIF bei Zellen, die Ngn exprimierten, die Rate der Neuronen von etwa 5% auf etwa 50% anstiegen liess, waehrend LIF bezueglich der Gliogenese (gezeigt durch die Expression von GFAP) in Ngn-exprimierenden Vorlaeuferzellen kaum Wirkung zeigte. Als naechstes sollte untersucht werden ueber welchen Signalweg LIF Ngn aktivierte. LIF bindet zunaechst an LIF receptor β (LIFRβ), der dann an glycoprotein 130 (gp130) bindet. Diese Bindung fuehrt dann zur Aktivierung mehrerer Signalkaskaden: dem JAK/STAT, dem MAPK, dem Akt/PI3K und dem PLCγ/PKC Signalweg. Da der JAK/STAT Signalweg fuer die Gliogenese wichtig ist, lag unser Fokus auf den anderen Signalwegen. Deren Aktivierung wurde dann mit spezifischen Inhibitoren blockiert und, wie auch in den Vorversuchen, die Wirkung von LIF auf Transkriptionsebene (NeuroD) in neuralen Vorlaeuferzellen bestimmt. Dabei zeigte sich, dass die Blockierung des PLCγ/PKC Signalweges die NeuroD-Promoteraktivitaet am starksten inhibierte, waehrend auch LIF´s pro-neurale Wirkung verloren ging. Dementsprechend zeigte die Western Blot Analyse, dass die Expression von class III β-tubulin (TuJ1) durch die Anwendung der PKC Inhibitoren am staerksten inhibiert wurde, wobei auch hier die Stimulation durch LIF keine erhoehte Neurogenese mit sich zog. In weiteren Versuchen konnten wir dann mit Hilfe von Immunoprezipitation demonstrieren, dass LIF die Bindung von Ngn an CBP verstaerkte (eine Bindung, welche durch PKC Inhibitoren aufgehoben wurde), was wiederum zu einer erhoehten Bindung dieses Transkriptionskomplexes an den NeuroD Promoter fuehrte, wie unsere Chromatin Immunoprezipitation (ChIP) Daten beweisen. Dies wiederum laesst darauf schliessen, dass womoeglich diese erhoehte Ngn-CBP/NeuroD-Promoter Bindung der Grund fuer die erhoehte NeuroD-Transkriptionsaktivitaet ist daher auch fuer die erhoehte neuronale Differenzierung. Interessanterweise konnten wir auch zeigen, dass Brahma-related gene 1 (Brg1), eine katalytische Untereinheit des SWI/SWF Komplexes, an den Ngn/CBP cotranscriptionalen Komplex bindet und dass diese Bindung durch LIF-Stimulation verstaerkt wurde. Dies suggeriert wiederum, dass auch Brg1 eine wichtige Rolle waehrend der murinen, cortikalen Neurogenese spielt. Dennoch, in folgenden Experimenten verblieb der Fokus auf Ngn und CBP. Um unsere Hypothese zu bestaetigen, dass PKCδ ein moeglicher Mediator des LIF-Effekts sein koennte, zeigten wir zunaechst, dass die PKCδ-Expression in cortikalen NPCs waehrend der Neurogenese erhoeht ist. Desweiteren demonstrierten wir, dass die Inhibition von PKCδ einen aehnliche Wirkung zeigte wie die Inhibition von PKC mit einem generellen PKC Inhibitor: weder war nach PKCδ-Inhibition eine LIF-induzierte NeuroD-Transkription erzielbar, noch wurde nach LIF-Stimulation der pro-neurale Marker class III β-tubulin/TuJ1 in Ngn1-infizierten NPCs exprimiert. Um aber mehr spezifisch die PKC- und PKCδ-Aktivitaet/Expression zu blockieren transfizierten wir NPCs mit PLCγ oder PKCδ siRNA. Unsere Daten zeigten hierbei, dass siRNA-transfizierte Zellen kein class III β-tubulin mehr aufweisen, was darauf hindeuted, dass PKCδ der potentielle Mediator des pro-neuralen LIF-Effekts ist. Durch unsere in vivo Daten demonstrierten wir schliesslich, dass LIF auch hierbei fuer die Neurogenese von Bedeutung ist. Verglichen wurden die Cortices von E13 LIF Het (heterozygote) und KO (knock out) Maeusen mit denen von WT (wild type) Maeusen. Durch Immunohistologie von Hirnschnitten konnten dabei keine groesseren Unterschiede bezueglich der Expression neuraler Marker beobachtet werden, waehrend aber mit Hilfe der Western Blot Analyse, eine quantitativere Methode, gezeigt wurde, dass LIF Het und KO Maeuse weniger pro-neurale Marker im Cortex exprimieren wie WT Mause. Um auch zu beweisen, dass dies auf eine verringerte Transkription von NeuroD zurueckzufuehren ist, demonstrierten wir mit Hilfe des ChIP Assay, dass LIF Het und KO Maeuse weniger Ngn1-CBP Bindung an den NeuroD-Promoter aufweisen wie WT Maeuse. Diese Experimente veranschaulichen einen eleganten Regulationsmechanismus, durch welchen ein einzelner, extrazellulaerer Faktor die unterschiedliche Differenzierung einer Zelle verstaerkt, abhaengig von der Anwesenheit oder Abwesenheit eines einzelnenn intrazellulaeren Faktors. Auch koennen durch die erlangten Resultate Strategien entworfen werden, durch die in Zukunft die Produktion bestimmter Neurone zur Heilung von verschiedenen, neurodegenerativen Krankheiten erhoeht wird.
Many environmental chemicals are suspected of disturbing the human and animal endocrine system. These so-called endocrine disruptors can operate in many ways. The interaction of endocrine disruptive effects that eventually endanger human health is still unclear. However, one of the basic mecha-nisms of endocrine disruption is the inhibition of key enzymes in the hormone metabolism. In this study, we focused on the inhibitory potency of suspected endocrine disrupting compounds on aromatase (P450arom) and 5alpha-reductase (5alpha-Re) activities in human tissue and human cancer cells. Both enzymes are essential for the human sex steroid hormone metabolism. We were able to demonstrate that the organotin compounds tributyltin (TBT) and triphenyltin (TPT) are potent unspecific inhibitors of P450arom and 5alpha-Re activity. Prochloraz and fenarimol inhibited P450arom activity at low concentrations (IC50<2 µM), while 5alpha-Re activity was only impaired at higher concentrations (IC50>10 µM). While the human tissue assay proved to be more practical and sensitive as a screening tool for putative endocrine disruptors, the cell assay reflected partly the situation in vivo. In another experimental series, we investigated the inhibitory effect of TPT on P450arom, 5alpha-Re, 3beta-HSD type 2, 17beta-HSD type 1 and type 3 alone and in combination with the strong antioxidant dithioerythrithol (DTE). TPT inhibited unspecifically all enzymes that were tested. The experiments also showed that DTE is able to compensate the adverse effects of TPT, and that the effectiveness of the compensatory activity of DTE differs among the enzymes investigated. The suppressed 5alpha-Re activity could not be reactivated with DTE. Conceivably, cysteine residues that are responsible for the tertiary and quarternary structure of the enzyme are critical targets for TPT. A human sampling study was undertaken with the COMPRENDO partner in Gdansk. 60 Polish and 15 German blood samples were investigated for chemical residues and sex hormone concentrations. In addition, 15 placenta samples from Poland and Germany, respectively, were tested for chemical residues, P450arom activities and CYP19 mRNA contents. The chemical analysis was performed by the COMPRENDO partners in Milan (p,p´DDE), Orleans (TBT and TPT) and Ioannina (diuron, fenarimol, linuron und vinclozolin). The results showed that individual sex hormone concentrations in blood were not correlated with chemical body burden. The detected differences in sex hormone concentrations, specific aromatase activity and relative CYP19 mRNA content of Polish and German donors were presumably the result of other factors than the ones determined in this study. Another task of the EU-project was the investigation of the effects of chemical exposure of the aquatic model organisms Pimephales promelas, Rutilus rutilus and Xenopus laevis. We investigated the specific P450arom and 5alpha-Re activities in brain and gonads of the animals. During the qualitative investigation of the androgen metabolism in Xenopus laevis brain, 5alpha-reductase activity was discovered for the first time. In contrast to the inhibitory potency of TPT discovered in our enzyme assays, TPT exposure of aquatic model organisms had no observed effect on enzyme activity in the organs investigated, except for P450arom activities in female gonads of Pimephales promelas at 320 ng TPT/L. In this group, mean P450arom activities were elevated, possibly as a result of an overshooting upregulation due to the inhibition of P450arom by TPT. The exposure of Rutilus rutilus and Xenopus laevis to the effector substances methyltestosterone and letrozole resulted in slightly different mean enzyme activities compared to the control group. In conclusion, many of the tested pesticides are able to inhibit P450arom and 5alpha-Re, and thus might be of clinical relevance. However, results are not always coherent, and possible risks for human and wildlife health are therefore difficult to predict. Risk assessment will require large studies with an additional number of short and long term in vitro and in vivo assays. Any extrapolation to humans should be very meticulously performed.
The retinoic acid related orphan receptor alpha (RORalpha) regulates the expression of various target genes by binding to specific response elements in their promoter region. RORalpha is an interesting pharmaceutical target since it positively affects several pathophysiological processes of clinical relevance. RORalpha enhances the expression of Apo-AI protein, the major constituent of HDL, which is responsible for the cholesterol transportation. RORalpha notably contributes to the bone mineralization and generation of the extracellular bone matrix, demonstrating its involvement in osteoporosis, and by up-regulating the gene for IKBalpha, RORalpha has anti-inflammatory effects. Moreover, RORalpha is necessary for cerebellar development and the maintenance of the mammalian day-night periodicity governed by the core-clock within the suprachiasmatic nuclei. RORalpha receptors have been reported to bind cholesterol, melatonin, or to function ligand-independent. By monomeric binding to the recognition motif AGGTCA preceded by an A/T-rich sequence (ROR response element, RORE), RORalpha constitutively activates gene transcription. However, RORalpha activity is passively suppressed by its opponents RevErbalpha and RevErbbeta, which both bind to the same target sequence. ...
Photosystem II (PSII) is a polypeptide-cofactor complex organised as a homodimeric multisubunit protein embedded in the thylakoid membrane. PSII monomers are heterooligomers related to each other by a pseudo-twofold axis perpendicular to the membrane plane (Loll et al. 2005). PSII acts as a photochemical enzyme that through the chlorophylls and the other cofactors catalyses photon capture and electron transfer from water to the plastoquinone pool with concomitant evolution of oxygen. Photon capture and charge separation take place in the PSII core which consists of the D1 and D2 proteins, the cytochrome b559 alpha- and beta-chains (PsbE and F subunits) and the chlorophyll a-binding antenna proteins CP43 and CP47 (Loll et al. 2005). The remaining polypeptides are low molecular mass proteins with not clearly understood fuctions; they include chloroplast-encoded (PsbH, I, J, K, L, M, N, T and Z) and nucleus-encoded (PsbR, S, W and X) proteins consisting of one to four transmembrane helices (Barber et al. 1997). The oxygen-evolving part of PSII consists of a Mn-Ca transition complex called Mn cluster or oxygen evolving complex that is situated on the luminal side of PSII. In higher plants it is stabilised by the PsbO (33 kDa), PsbP (23 kDa) and PsbQ (17 kDa) extrinsic subunits (Soursa et al. 2006; Ifuku et al. 2005). The structure and mechanisms related to the oxygen evolving complex of PSII are not completely clarified. Currently two high resolution structures from the cyanobacteria S. elongatus are available (Loll et al. 2005; Ferreira et al. 2004) Nevertheless structural information is not as well defined in green algae and higher plants as in cyanobacteria. In fact the 8Å structure available from spinach has too low resolution for addressing questions such as the structural and functional differences in respect to PSII from cyanobateria (Rhee et al. 1997).. Therefore it is obvious that for PSII from higher plants the main general questions are still open: is the structure of PSII from higher plants equivalent to the structures observed in cyanobacteria? Is the typical higher plants subunit PsbS stably or transiently bound to PSII? Finding an answer to these questions was the main focus of this work. In this work a simple and rapid protocol to isolate the oxygen-evolving photosystem II (PSII) core complex from Nicotiana tabacum was developed. A PSII having a His-tag extension made of six or ten consecutive histidine residues at the N-terminus of the PsbE subunit was purified by a single-step Ni2+ NTA-affinity column chromatography after solubilisation of the thylakoid membranes using different mild detergents. Characterization of the oxygen evolution and the subunit composition by immunoblotting and mass spectroscopy revealed that the His-tagging did not affect the functional integrity of the PSII reaction center. The final PSII core complex was purified in a single step from solubilised thylakoids in less than 14 hours getting a very pure sample in high amount. The isolated core complex was in a dimeric form as demonstrated by Blue Native PAGE, analytical gel filtration and single particles analysis; with a molecular mass of about 500 kDa, consisting of D1, D2, CP43, CP47, 33 kDa and low molecular weight proteins. The preparation retains a high rate of oxygen-evolving activity but showed different stabilities of the binding of the three extrinsic proteins. The subunit of 33 kDa was always present in the preparations with a constant amount, whereas the 23 and 17 kDa subunits were always in less and unconstant amounts. Nevertheless the oxygen evolution was not depending on the amount of the 23 and 17 kDa subunits. Furthermore the preparation showed a high oxygen-evolving activity of 1390 micromol/mg Chl·h-1 in presence of betaine, while its activity was 440-680 micromol/mg Chl·h-1 in its absence. The presence of 1.0 mol/L betaine during the isolation of PSII increased the preservation of the photochemical activity hence the oxygen evolution. It was inferred from these results that His-tagging does not affect the functional and structural integrity of the PSII core complex and that the “Histag strategy” is highly useful for biochemical, physicochemical and structural studies of higher plant PSII. PSII is directly involved in two essential processes, the efficient capture and funnelling of light energy to the reaction centre and the controlled dissipation of excess excitation energy. Those functions require structural and functional flexibility in order to be performed with high efficiency. Moreover light-harvesting proteins respond to an external signal, the thylakoid pH, to induce feedback control regulating those activities in every moment. This process called non-photochemical quenching (NPQ) is mainly depending on the xanthophyll cycle and the PsbS protein (Szabo et al. 2005). In this work several new evidences related with those two processes were found. The subunit PsbS is a polypeptide whose involvement in the NPQ processes is debated. Nevertheless, its position in the PSII complex and the mechanisms by which this subunit contributes to carry out the NPQ functions are not definitely known. In addition it is not sure if it is a pigment binding protein or not. Currently several lines of evidence indicate that this subunit is able to bind two molecules of zeaxanthin, one of the pigments involved in the xanthophyll cycle. In this work immunolabelling indicated that PsbS is tightly bound to the PSII core dimer, monomer and incomplete PSII particles as Reaction Centre-CP47 (RC-CP47). Furthermore qualitative HPLC indicates a complete absence of zeaxanthin in the sample and the presence of violaxanthin, another pigment involved in the xanthophyll cycle. The absence of zeaxanthin was expected considering that the plants were harvested after the dark period and that the particles were purified in complete dark (or in green light), whereas the presence of violaxanthin was unexpected considering that so far no evidence of violaxanthin bound to PSII cores devoid of LHC proteins was reported. Furthermore the amount of chlorophyll b was not relevant for suspecting this pigment bound to PsbS. Therefore we conclude that if PsbS is able to bind chlorophyll it has to be a chlorophyll a. The results indicate that PsbS could be able to bind not only zeaxanthin but also violaxanthin. The extrinsic subunit Psb27 was also found in this preparation. The presence and the amount of this subunit, reported to be involved in the repair of damaged PSII, was not constant and therefore behaving as the other two extrinsic proteins 23kDa (PsbP) and 17kDa (PsbQ). Electron crystallography studies on spinach PSII particles purified by differential solubilisation resulted in crystalline tubes with new unit cell constants. From data analysis a density map at 15Å resolution was obtained with a P22121 symmetry. However, at this resolution it cannot be said if the internal symmetry axis is related with the two-fold axis of the dimer or the pseudo two-fold axis of the monomer. In conclusion a method to isolate functional, pure PSII core complexes was developped. These samples, together with the improved 2d crystallisation protocol could lead to crystals with higher quality hence better resolution density maps in the future.
The development of novel drugs targeting GPCRs is of particular interest since modulation of subfamilies of this receptor class highly influences neurotransmission in the central nervous system. This study has focused on the development of ligands for the dopamine D3 receptor. The receptor belongs to the dopamine D2-like family among the biogenic amine binding GPCRs. The dopamine D3 receptor is involved in neurological and neuropsychiatric disorders such as Parkinson’s disease, schizophrenia and drug addiction. Due to its close structural similarity to the dopamine D2 receptor subtype, it is still a challenge to identify and further optimize new leads. Therefore an in vitro screening assay, which also allows elucidating comprehensive structure-affinity relationships, is required. In this investigation the implementation and evaluation of radioligand binding assays for human dopamine D2S and dopamine D3 receptors and for the related aminergic human histamine H1 receptor stably expressed in Chinese hamster ovary (CHO) cells has been performed. Saturation binding experiments with [³H]spiperone at dopamine D2S and D3 receptors and with [³H]mepyramine at histamine H1 receptors were carried out. The determined equilibrium dissociation constant of radioligands (Kd) and the total number of specific binding sites (Bmax) of the receptor membrane preparations were in good agreement with reference data. Inhibition constants (Ki) of reference ligands obtained in radioligand competition binding experiments at dopamine hD2S, hD3 and histamine H1 receptors validated the reliability and reproducibility of the assay. In order to discriminate agonists from antagonists, a GTP shift assay has been investigated for dopamine D2S and D3 receptors. In competition binding studies at dopamine D2S receptors the high- and low affinity state in the absence of the GTP analogue Gpp(NH)p has been recognized for the agonists pramipexole and the seleno analogue 54. In the presence of Gpp(NH)p a decrease in affinity, referred to as “GTP shift”, has been revealed for agonists at dopamine D2S and D3 receptors. An effect of Gpp(NH)p on dopamine D2S receptor binding has not been observed for the antagonists ST 198 and BP 897, while a reverse “GTP shift” has been noticed at the dopamine D3 receptor. For the development of novel ligands with high affinity and selectivity for dopamine D3 receptors, investigation in refined structure-affinity relationships (SAR) of analogues of the lead BP 897 has been performed. Replacement of the naphthalen-2-carboxamide of BP 897 by aryl amide residues (1 - 4) had a clear influence on affinity binding and selectivity for dopamine D3 receptors. Introduction of the benzo[b]thiophen-2-carboxamide (1) has markedly improved binding with subnanomolar affinity and enhanced selectivity for dopamine D3 receptors. Exchanging the aryl substituted basic alkanamine residue of 1 by a 1,2,3,4-tetrahydroisoquinoline moiety (6) emphasized the benefit of the 4-(2-methoxyphenyl) piperazine residue of BP 897 regarding dopamine D2 and D3 receptor affinities. The change of particular elements of BP 897 and the rearrangement of the amide functionality resulted in inverse amide compounds with new chemical properties. Moderate affinity binding data, as obtained for the isoindol-1-carbonyl compound 11, suggest that inverse amides provide a worthwhile new lead structure with a novel structural scaffold. A hybrid approach combining privileged scaffolds of histamine H1 receptor antagonists and fragments of dopamine D3 receptor-preferring ligands, related to BP 897and analogues has been investigated. Various benzhydrylpiperazine derivatives and related structures have shown moderate to high affinities for dopamine D3 receptors with the impressive enhancement of the cinnamide substituted bamipine-related hybrid 39, exhibiting the highest affinity and selectivity for dopamine D3 receptors. Improved affinity profiles of structural modified histamine H1 receptor antagonists for dopamine D2 and D3 receptors and a refined SAR has been achieved. A SAR of derivatives of the dopamine agonist pramipexole and the related etrabamine has been studied. The propargyl substituted etrabamine derivative 61 demonstrated highest affinity and selectivity. The ligand attracts attention since neuroprotective properties have been reported for the propargyl functionality. Further development resulted in the most promising compound 64, a cinnamide derivative with 4-fluoro substitution on the phenyl ring. Subnanomolar affinity and remarkable selectivity for dopamine D3 receptors has aroused particular interest in this ligand due to its development potential as a radioligand for PET studies. Radioligand binding studies in combination with virtual screening and different classification techniques of chemoinformatic methods resulted in further elucidation of SAR. New leads with novel chemical scaffolds have been found in the bicycle[2.2.1]heptane derivative 95 and the benzhydrylidene substituted pyrrolidindione 112 and can be further optimized by chemical modifications. The outcome of the studies provides the development of various novel high affine and dopamine D3 receptor selective ligands. Modifications of lead structures or application of chemoinformatic tools in combination with radioligand competition binding assays have resulted in new leads with different chemical scaffolds. Furthermore, a comprehensive insight into structure-affinity relationships of ligands at dopamine D3 receptors has been revealed. This refined SAR is valuable to develop more affine and selective drug candidates with a designed pharmacological receptor profile.
Intrinsic response properties of auditory thalamic neurons in the Gerbil (Meriones unguiculatus)
(2007)
Neurons in the medial geniculate body (MGB) have the complex task of processing the auditory ascending information from the periphery and a more extensive descending input from the cortex. Differences in the pattern of afferent and efferent neuronal connections suggest that neurons in the ventral and dorsal divisions of the MGB take different roles in this complex task. The ventral MGB (vMGB) is the primary, tonotopic, division and the dorsal MGB (dMGB) is one of the higher order, nontonotopic divisions. The vMGB neurons are arranged tonotopically, have sharp tuning properties, and a short response delay to acoustic stimuli. The dMGB neurons are not tonotopically arranged, have broad tuning properties, and a long response delay to acoustical stimuli. These two populations of neurons, with inherently different tasks, may display differences in intrinsic physiological properties, e.g. the capacity to integrate information on a single cell level. Neurons of the ventral and dorsal divisions of the MGB offer an ideal system to explore and compare the intrinsic neuronal properties related to auditory processing. Coronal slices of 200 μm thicknesses were prepared from the thalamus of 4 - 5 week old gerbils. The current-clamp configuration of the patch-clamp technique was used to do experiments on the dorsal and ventral divisions of the medial geniculate body. Slices were subsequently Nissl stained to verify the location of recording. Recordings from the dorsal and ventral divisions exhibited differences in response to depolarizing current injections. The ventral division responded with significantly shorter first spike latency (vMGB = 41.50 ± 7.7, dMGB = 128.43 ± 16.28; (p < 0.01)) and rise time constant (vMGB = 6.95 ± 0.90, dMGB = 116.67 ± 0.13; (p < 0.01)) than the dMGB. Neurons in the dorsal division possessed a larger proportion of slowly accommodating neurons (rapidly accommodating: vMGB: 89%, dMGB: 64%), including a subpopulation of neurons that fired at resting membrane potential. Neurons in the vMGB are primarily responsible for relaying primary auditory input. Dorsal MGB neurons relay converging multimodal input. A comparative analysis with the primary auditory neurons, the Type I and Type II spiral ganglion neurons, reveals a similar pattern. Type I neurons relay primary auditory input and exhibit short first spike latencies and rise time constants. The Type II neurons relay converging input from many sources, while possessing significantly slower response properties and a greater subpopulation of slowly accommodating neurons. Hence, accommodation, first spike latency, and rise time constant are suggested to be a reflection of the amount of input that must be integrated before an action potential can be fired. More converging input correlates to slower accommodation, a longer first spike latency and rise time. Conversely, a greater capacity to derive discrete input is associated with rapid accommodation, along with a short first spike latency and rise time.
This dissertation contains five independent chapters dealing with wage dispersion and unemployment. The first chapter deals with the explanation of international changes in wage inequality and unemployment in the 80s and 90s. Both theoretically and empirically, social benefits and its link to average income are blamed for the different experiences across countries. The second chapter discusses the search framework, to explain residual wage inequality and finds that institutional wage compression has ambiguous effects on employment. In the third chapter, we apply the theory to German data. We show that job-to-job transitions are important in explaining both frictions and career advances. In the fourth chapter, we empirically assess the relationship between wage dispersion and unemployment for homogeneous workers. We find that neither a frictional nor a neo-classical view in explaining this relationship are convincing. Unemployment within cells is not negatively correlated with wage dispersion. Finally, the last chapter builds a theoretical model which treats heterogeneous individuals in a production function framework and a frictional labor market. The model generates both wage dispersion within and between skill groups and both frictional and structural unemployment. In sum, the dissertation stresses the importance of modelling frictions to understand different types of wage inequality and unemployment.
Spatio-temporal dynamics of primary lymphoid follicles during organogenesis and lymphneogenesis
(2007)
Primary lymphoid follicles are structures which are important for adaptive immune responses in mammals. Within the follicles follicular dendritic cells (FDC) are maintained by constant stimuli provided by B cells. It is thought that the FDC are important for immune response. It is of interest to know how lymphoid follicles are regulated in order to understand their role in various autoimmune diseases in which these follicles are created ectopically. With the help of a tissue simulation relying on an agent-based cell model on top of a regular triangulation various scenarios suggested by the available experimental data have been investigated. In order to cope with the complexity in the simulation of immune tissue the regular triangulation has been implemented for the use on parallel computers. The algorithms for kinetic and dynamic regular triangulation have been created newly. Also the cell model underlying the simulation has been designed newly in many aspects. The simulations allowed to identify common factors that regulate the formation of lymphoid follicles normally during organogenesis in development and lymphneogenesis in the course of diseases. The generation of FDC from local stromal populations under the influence of B cell aggregates is shown to be possible with the given experimental parameters. The sequence of the organogenesis and lymphneogenesis can be described with regard to the morphology of the B and T zone. Tests for the stability of the primary lymphoid follicle system constraints the regulation of the B cell efflux. The required lymphatic vessels around the lymphoid follicle are shown to be negatively correlated with the FDC network. Moreover it is shown that the adjacent T zone consisting of its own stromal population and T cells has similar regulation principles. This easily explains the intermediate ring of B cells found around the T zone during development and certain signaling molecule deficiencies. A major result of this thesis is that the generation of FDC needs negative regulation while a number of other possible mechanisms is incompatible with the available experimental data. Moreover the observed microanatomy was brought into a functional relationship with data on the cellular level finally culminating in the proposal of new experiments that shed light on the dynamics of the primary lymphoid follicle. One conclusion is that the FDC directly or indirectly influence the angiogenesis and lymphangiogenesis processes in secondary lymphoid tissues. The work presented here may help to guide experiments with the help of computers in order to reduce the amount of experiments and design them in a way to maximize the amount of information about biological systems.
G protein-coupled receptors (GPCRs) constitute an important class of integral membrane proteins that are involved in several signaling pathways. About 50% of the currently available drugs are targeted against these receptors and high-resolution structures of these receptors will be of immense importance from the perspective of designing specific and potent drugs. However, structure determination of these receptors and of membrane proteins in general, has been a very challenging task till date. A major limitation in the structure determination of these proteins is that they are present in minute amounts in the native tissues and therefore, they must be produced heterologously. Additionally, crystallization of GPCRs is difficult owing to their flexible nature and limited hydrophilic surface area available for crystal contacts. The aim of my Ph.D. thesis work is two fold, first, to address the problem of GPCR crystallization by using a fusion protein complex approach and second, to tailor Rhodobacter sphaeroides as an expression system for the heterologous production of GPCRs. In the first approach, R. sphaeroides was used as an expression system to generate a fusion protein complex of the photosynthetic reaction center (RC) with a GPCR, expecting that such a complex would be easier to crystallize than the receptor alone. The notion behind this approach is that the RC will act as a scaffold in providing surface area to create crystal contacts and at the same time, it will also reduce the flexibility of the receptor, hopefully without perturbing the functionality of the receptor. Based on the computational modelling experiments, two ways to generate a fusion complex were assigned. Long linkers were inserted between the subunits of the RC and the GPCR. The linkers were designed with a possibility of straightforward alteration of their length as they contained a number of restriction enzyme sites. A series of these constructs were designed and expressed in R. sphaeroides deletion strain, which did not possess the chromosomal RC genes. Though most of these fusion constructs could be successfully expressed, as analyzed by western blot, majority of them were not functional in terms of ligand binding of the GPCR component of the fusion complex. Interestingly, one of these constructs, where the M subunit of RC was directly fused to the human angiotensin II type 1a receptor (AT1aR), exhibited significant functional expression. Based on saturation binding analysis using [125I] iodotyrosyl4Sar1Ile8-angiotensin II (an AT1aR subtype specific antagonist), an expression level of 40+5 pmol/mg of total membrane protein was calculated. This expression level corresponds to approximately 0.3 mg of functional receptor per liter culture and it is significantly higher than the AT1aR expression in native tissues. Additionally, the binding affinity of the recombinant receptor for its endogenous ligand angiotensin II was found to be 1±0.1 nM, which is similar to that observed for the AT1aR in native tissues. More interestingly, the RC part of the fusion complex was structurally assembled in other words, properly folded as judged by the presence of the characteristic peaks at 760 nm, 800 nm and 850 nm by absorption spectroscopy. However, a slight change in the intensity of the peak at 800 nm was observed while comparing the spectra of native RC with that in the fusion protein complex. This slight variation might be due to the change in the protein environment. The fusion protein complex RC-AT1aR was functionally solubilized and purified using a decahistidine tag fused at the c-terminus of the AT1aR. Subsequently, the monodispersity and integrity of the complex was confirmed by size exclusion chromatography, which revealed a homogeneous peak. Additionally, it was also possible to solubilize and purify this complex in the presence of a fluorescein tagged angiotensin II ligand which provides a nice tool to judge the functionality of the AT1aR and integrity of the complex at the same time. The purified RC-AT1aR fusion complex was then subjected to three-dimensional (3-D) crystallization trials and it was possible to obtain reproducible crystals of this complex. The crystals were fluorescent (as the complex was purified in presence of fluorescently labelled angiotensin II) and needle or tetragonal in shape, but produced a powdery diffraction pattern. Further attempts to improve the crystallization condition and to optimize the cryo-conditions are underway. In addition, attempts are also being made to obtain the crystals of this complex with the antagonist (e.g. losartan) bound to the receptor. In view of several limitations in the heterologous expression of GPCRs, as the second part of my Ph.D. thesis, I decided to explore the possibilities of developing a novel expression system based on R. sphaeroides for production of recombinant GPCRs. The notion behind using this host is that lack of inclusion bodies and high concentration of membranes in R. sphaeroides would result in efficient functional overexpression of recombinant membrane proteins. For this purpose, a R. sphaeroides strain, modified by the deletion of the genes encoding the RC and the light harvesting proteins LH1 and LH2, was used. The genes for RC and LHs constitute about 85-90% of total membrane proteins in a R. sphaeroides cell. These membranes are normally housed in special membrane vesicles called intracytoplasmic membranes (ICMs) that can fill almost the entire cell volume under certain growth conditions. Synthesis of a heterologous protein under the control of the moderately strong photosynthetic superoperonic promoter should be coordinated with the synthesis of new membranes to harbour these proteins, thus acting as a natural induction system. Moreover, as most of the native membrane proteins are absent in this deletion strain, heterologously produced protein should not experience a shortage of molecular chaperones for proper folding and insertion. Additionally, the absence of inclusion bodies in this host should enhance the functional and homogenous population of the recombinant proteins. Three human GPCRs, namely the adenosine A2a receptor (A2a), the angiotensin II type 1a receptor (AT1aR) and the bradykinin subtype 2 receptor (B2R) were tested for expression and functionality in this system. Two different constructs were used to determine the optimal position and ribosome-binding site (RBS) in the superoperon for the highest expression level. Of these three receptors, the AT1aR and B2R were successfully produced, while the A2aR failed to express, producing green carotenoid free R. sphaeroides mutants, for unknown reasons. For the recombinant B2R, [3H] bradykinin binding analysis revealed a low functional expression level of 0.7-0.8 pmol/mg of total membrane protein. This expression level corresponds to 0.01 mg functional receptor per liter of culture and is not sufficient for large-scale expression of this receptor. However, for the recombinant AT1aR, [125I] iodotyrosyl4Sar1Ile8- angiotensin II binding analysis revealed an expression level of 12±1 pmol/mg of total membrane protein. This expression level corresponds to approximately 0.1 mg functional receptor per liter culture and this is significantly higher than the AT1aR expression in native tissues. This expression system is still in the nascent stages of development and there are several parameters, which are still to be assessed for the optimal use of this system for the production of GPCRs and other membrane proteins. In conclusion, my Ph.D. work presents a novel fusion protein complex based approach for obtaining crystallizable GPCRs and a novel expression system for producing heterologous GPCRs. It was possible, for the first time, to produce a functional RC-GPCR complex that could easily be crystallized, though further finetuning of the system is required. R. sphaeroides based novel expression system was successfully used to produce functional human GPCRs under the control of a moderately strong photosynthetic superoperonic promoter. This expression system represents a naturally induced system where the expression of a heterologous protein is coordinated with the synthesis of new membranes to harbour the recombinant protein. The fusion protein complex approach and the expression system presented here can hopefully be used as a general method to facilitate the expression and crystallization of other membrane proteins.
The thesis is devoted to the study of the Antarctic polar vortex, mainly by analyzing data collected during APE-GAIA (1999) and ASHOE (1994) campaigns and recorded by the ADEOS satellite (1996-1997), and to improvement of the chromato-graphic processing schemes. A general introduction and overview of the campaigns and instruments relevant to the present work are given in Chapters 1 and 2. A relatively large part of the thesis (Chapters 3-5) is on improvement of the analysis of raw chromatographic data recorded during in-flight measurements of the trace gases. A Gaussian non-straight-base-line method, i.e. the Gaussian processing scheme (Chapter 3), is developed for better evaluation of the chromatographic peak size. Furthermore, a statistical cross-correlation method (Chapter 5) based on statistical behaviour of the whole chromatogram series fNchrg recorded, e.g., during a research flight or laboratory calibration, is developed and applied to measure the low-concentration trace gases. As demonstrated for HAGAR's chromatograms (HAGAR - High Altitude Gas Analyzer), the combination of the Gaussian fitting scheme for individual chromatograms and the statistical cross-correlation method for a series of subsequent chromatograms considerably improves and stabilizes quantitative analysis of in-flight chromatographic data. In this case, the detection accuracy of weak and noisy chromatographic signals can be improved by up to 40 %. A particular attention is paid to the in-flight two-standard calibration method. For this method, a special procedure, that allows to evaluate and effectively remove a weak background chromatographic signal associated with residual molecules in the carrier gas N2, is proposed and coded (Chapter 4). The developed approaches and methods are completely automized and, therefore, can be used for processing of in-flight chromatograms of recent and future field campaigns. The main part of the thesis (Chapters 6-8) deals with a two-dimensional quasi-Lagrangian coordinate system ... , based on a long-lived stratospheric trace gas i, and its systematic use for i = N2O in order to describe the structure of a well-developed Antarctic polar vortex, linearization and compactization of the tracer-tracer correlations in the polar vortex core (i.e. the stratospheric dynamics in this area), and the differential ozone losses in the Antarctic polar vortex area. In the coordinate system ... (...-method, Chapter 6), which refers to a well-developed polar vortex, the mixing ratio Âi is the vertical coordinate and ... = .... i is the reference profile in the vortex core) is the meridional coordinate. The quasi-Lagrangian coordinates ... are much more long-lived comparing with the standard quasi-isentropic coordinates, potential temperature ... and equivalent latitude ..e, do not require explicit reference to geographic space, and therefore well-suited for studying the dynamics of the Antarctic polar vortex and the relevant ozone loss processes. By using the introduced coordinate system ... to analyze the well-developed Antarctic vortex investigated in the APE-GAIA campaign, it is shown, in concurrence with the conclusion of A. M. Lee et al. (2001), that the Antarctic vortex area can be described in terms of the well-mixed and well-isolated vortex core, relatively wide vortex boundary region and adjoining surf zone. In this case, the reference profile ... i , which is compact in a well-developed and isolated polar vortex core [J. B. Greenblatt et al. (2002)], can be found by combining airborne (and/or balloon) data with high-altitude satellite measurements. A criterion, which uses the local in-situ measurements of Âi = Âi(£) and attributes the inner vortex edge to a rapid change (±-step) in the meridional pro¯le of the mixing ratio..., is developed in Chapter 6 to determine the (Antarctic) inner vortex edge. In turn, the outer vortex edge of a well-developed Antarctic vortex is proposed to attribute to the position of a local maximum of ...H2O in the polar vortex area. For a well-developed Antarctic vortex, the ...-parametrization of tracer-tracer correlations allows to distinguish the tracer-tracer inter-relationships in the vortex core, vortex boundary region and surf zone (Chapter 7). This is clearly illustrated by analyzing the tracer-tracer relationships Âi ¡ ÂN2O obtained from the in-situ data of the APE-GAIA campaign for i = CFCl3 (CFC-11), CF2Cl2 (CFC-12), CBrClF2 (H-1211) and SF6. The solitary anomalous points in the ...CFC11 ¡ ÂN2O correlation, observed in the Antarctic vortex core during the APE-GAIA and ASHOE campaigns, are interpreted in terms of small-scale localized differential descent. As detailed in Chapter 8, the quasi-Lagrangian coordinate system fÂN2O; ¢ÂN2Og is an effective tool for evaluation of the differential ozone losses in the polar vortex area. With this purpose, a two-parametric reference function ...O3 = F(...), which characterizes the unperturbed O3 distribution in the early winter polar vortex area, is introduced to separate and quantify in terms of the meridional coordinate ...2O the differential ozone losses in the vortex core and vortex boundary region. The method is applied to analyze the ozone depletion in the Antarctic stratosphere during the austral spring 1999 (APE-GAIA campaign). In Chapter 9, the main results of the thesis are summarized.
Background The purpose of the trial was to evaluate the safety and performance of the new Protégé stent in the treatment of common and/or internal carotid artery stenoses. Methods The Protégé® GPS stent is a self-expanding Nitinol stent system. It is mounted on a 6 Fr 0.018” (6-9mm stent) or 7 Fr, 0.035” (10mm stent) over-the-wire-delivery system and includes a new stent release system which allows exact placement of the stent. Seventyseven patients were enrolled in the trial. Study patient assessments were conducted clinically and by duplex scan at baseline, peri-procedure, discharge, one and six months post procedure. Results Seventyseven lesions were treated. Thirtyone lesions were symptomatic, 46 lesions were asymptomatic. The procedure was technically successful in 76 (99%) lesions. The percentage of stenosis was reduced from 86 ± 7 % to 16 ± 8 %. One procedure failed because the embolic protection device could not be retrieved and the patient was sent to surgery. Within 30 days there were 4 (5.2%) Major Adverse Neurological Events (MANEs). Three of the MANEs were major strokes (3.9%), one a minor stroke. The fifth MANE occurred prior to the six month follow-up visit; this patient had a major stroke 75 days after the procedure and died 36 days later. One additional death occurred due to urosepsis. Conclusions The trial shows that the Protégé stent satisfies safety and performance criteria for the treatment of carotid artery stenosis. The complication rate was comparable to the incidence of these events in other recent carotid stent and endarterectomy studies.
Aims: The purpose of this study was to evaluate the feasibility and short-term efficacy of transcatheter paravalvular leak closure using different occlusion devices. Methods and Results: Twenty one patients underwent transcatheter closure of either aortic or mitral paravalvular leak from June 2002 to February 2006 using the Amplatzer PDA, ASD or VSD occluder. All patients had symptoms and signs of haemolysis and/or cardiac decompensation with dyspnoea. Implantation of a device was technically successful in twenty patients (95 %). Immediate residual leak was found in seventeen patients (85 %). Significant shunting persisted in nine cases during follow up (45 %). Permanent leaflet obstruction was observed in one patient. Severe complications during follow up led to early death in one patient and surgical intervention in three. A successful second catheter treatment was performed in another three patients. The event-free survival from reoperation, death and stroke at the end of the observation period was 80 %. Conclusion: Transcatheter closure of paravalvular leaks is a technically feasible, but demanding procedure. Residual leaks are common and may worsen pre-existing haemolysis. Due to the significant ongoing morbidity in this group of patients and the complexity of follow up individual patient results differ considerably. Nevertheless, it is possible to achieve some symptomatic relief, thus an interventional approach should be discussed as a potential treatment option for those patients with a limited defect and who are not deemed suitable for another operation.
The removal of apoptotic cells (AC) can be regarded as an integral component of the program to terminate inflammation. Clearance of AC by professional phagocytes such as macrophages induces an anti-inflammatory phenotype in the latter ones. Anti-inflammatory or M2 polarization is also observed in macrophages infiltrating certain human tumors. These tumor-associated macrophages (TAM) contribute actively to tumor progression by promoting immune evasion, angiogenesis and tumor cell survival. The aim of my Ph.D. thesis was to approach the mechanisms as well as the characteristics of macrophage phenotype alterations induced by AC, and to elucidate a possible connection between tumor cell apoptosis and TAM generation. In the first part of my studies, I investigated the impact of AC on macrophage viability. I could show that macrophage survival against pro-apoptotic agents increased after the interaction with AC. Protection of macrophages against cell death required activation of phosphatidylinositol-3 kinase (PI3K), extracellular signal-regulated kinase 1/2 (ERK1/2) and Ca2+ signaling, and correlated with Bcl-XL and Bcl-2 up-regulation as well as Ser136-Bad phosphorylation. Unexpectedly, neither phagocytosis nor binding of apoptotic debris to the phagocyte was necessary to induce protection. AC released the bioactive lipid sphingosine-1-phosphate (S1P), dependent on sphingosine kinase (SphK) 2, as a survival messenger. These data indicated an active role of AC in preventing cell destruction in their neighborhood. My next aim was to elucidate the mechanism of S1P production by AC. During cell death, SphK 2 was cleaved at its N-terminus by caspase-1. Thereupon, the truncated but enzymatically active fragment of SphK 2 was released from cells. This release was coupled to phosphatidylserine exposure, a hallmark of apoptosis and a crucial signal for the phagocyte/apoptotic cell interaction. Thus, I observed a link between common signaling events during apoptosis and the extracellular production of S1P, which is known to affect immune cell attraction and polarization as well as angiogenesis in cancer. In the next part of my studies, I asked for a correlation between tumor cell apoptosis and TAM polarization. During co-culture of human macrophages with human breast cancer carcinoma cells (MCF-7), the latter ones were killed, while macrophages acquired an alternatively activated phenotype. This was characterized by decreased tumor necrosis factor (TNF)-α; and interleukin (IL)-12-p70 production, but increased formation of IL-8 and IL-10. Alternative macrophage activation required tumor cell death, because a co-culture with apoptosis-resistant colon carcinoma cells (RKO) or Bcl-2-overexpressing MCF-7 cells failed to induce phenotype alterations. These phenotype alterations were also achieved with conditioned media from apoptotic tumor cells, which again argued for a soluble factor being involved. Knock-down of SphK2, but not SphK1, to attenuate S1P formation in MCF-7 cells, repressed the otherwise observed alternative macrophage polarization during co-culture. Furthermore, macrophage polarization achieved by tumor cell apoptosis or substitution of authentic S1P was characterized by suppression of pro-inflammatory nuclear factor (NF)-κB DNA binding. These findings suggested that tumor cell apoptosis-derived S1P contributes to the macrophage polarization present in human tumors. To validate these in vitro data, I used an in vivo tumor model to clarify the relevance of SphK2 and S1P in tumor development. The growth of, as well as blood vessel infiltration into SphK2 knock-down MCF-7 (MCF-7-siSphK2) xenografts in nude mice was markedly decreased in comparison to control MCF-7 xenografts. In contrast, macrophage infiltration was similar or even more pronounced. These data provided a first hint for an in vivo role of SphK2-derived S1P in macrophage polarization associated with tumor promotion. In summary, these data indicate a new mechanism how AC themselves shape macrophage polarization, which results in the termination of inflammatory responses and macrophage survival. Furthermore, my studies present evidence that human tumors may utilize this mechanism to foster growth via increased angiogenesis.
Many tax-codes around the world allow for special taxable treatment of savings in retirement accounts. In particular, profits in retirement accounts are usually tax exempt which allow investors to increase an asset's return by holding it in such a retirement account. While the existing literature on asset location shows that risk-free bonds are usually the preferred asset to hold in a retirement account, we explain how the tax exemption of profits in retirement accounts affects private investors' asset allocation. We show that total final wealth can be decomposed into what the investor would have earned in a taxable account and what is due to the tax exemption of profits in the retirement account. The tax exemption of profits can thus be considered a tax-gift which is similar to an implicit bond holding. As this tax-gift's impact on total final wealth decreases over time, so does the investor's equity exposure. JEL Classification Codes: G11, H24
The ABC protein ABCE1, also called HP68 or RNase L inhibitor (RLI), is one of the most conserved proteins in evolution. It is universally expressed in eukaryotes and archaea, where ABCE1 is essential for life. ABCE1 plays a crucial role in translation initiation and ribosome biogenesis, however, the molecular mechanism of ABCE1 remains unclear. In addition to two ABC ATPase domains, ABCE1 contains a unique N-terminal region with eight conserved cysteines predicted to coordinate iron-sulfur (Fe-S) clusters. To analyze the function of ABCE1, the hyperthermophilic crenarchaeote Sulfolobus solfataricus was chosen as a model system. S. solfataricus ABCE1 was overexpressed homologously in S. solfataricus and heterologously in E. coli. Noteworthy, for tagged-protein production in S. solfataricus a novel expression system based on a virus shuttle vector was established. This is the first example for a successful overexpression and purification of isolated full-length ABCE1. For the first time it was shown that ABCE1 indeed bears biochemical properties of an ABC protein even though it has unique features. Remarkably, the nucleotide binding domains (NBDs) of ABCE1 bound ATP and AMP, but were functionally non-equivalent in ATP hydrolysis. Mutations of conserved residues in the second NBD led to a hyperactive ATPase, which implies an intramolecular mechanism of dimer formation. Truncation of the Fe-S cluster domains did not influence ATPase activity. The Fe-S clusters of ABCE1 were analyzed by biophysical and biochemical methods. As presented in this study, ABCE1 harbors two essential diamagnetic [4Fe-4S]2+ clusters, one ferredoxin-like cluster formed by cysteines at position 4/5/6/7 and one unique ABCE1 cluster formed by cysteines at position 1/2/3/8. ABCE1 was found to be associated with RNA after purification from S. solfataricus and bound ribosomal RNA in vitro. In addition, ABCE1 showed homo-oligomerization and appeared to form a hexameric complex of ~440 kDa, which was RNase sensitive. Archaeal ABCE1 associated with ribosomes, however, the unique Fe-S clusters of ABCE1 were not required for this interaction. Although archaeal ABCE1 assembled with ribosomes and ribosomal RNA, ABCE1 proved not to be essential for translation in S. solfataricus and did not interact with archaeal initiation factors. Nevertheless, the ABCE1 gene is one of the few genes conserved between archaea and eukaryotes and fulfills a universal task, which needs further characterization.
21 Hsfs belonging to classes A, B and C were identified in Arabidopsis following the sequencing of its genome. 1.) Cloning of full length and CTD chimeric constructs followed by transient reporter assays in tobacco protoplast using GUS fusion constructs of the promoters of Hsp17.4-CI, synthetic (HSE9) and APX2 showed Hsfs A1a, A1b, A1d, A1e, A2, A3 and A9 to be active. CTDs of Hsfs A7a, A7b and HsfC1 had activity but they showed poor DNA binding in reporter assays. Hsfs A1a, A1b, A1d, A1e, A2 and A3 were able to induce the expression of endogenous Hsps in tomato protoplasts. Interesting differences in promoter selectivity were observed for several Hsfs. 2.) RT-PCR and microarray analysis showed the Hsfs to be differentially expressed depending on tissue, abiotic and biotic stress, hormone and developmental s ge. Interesting patterns of coexpressed Hsfs were observed under different stresses and developmental stages. 3.) HsfA1b was found to be active on the plasmid borne PHsf:GUS reporters of Hsfs A1d, A2, A4a, A7b and B4 when tested in tobacco mesophyll protoplasts. Hsfs A1d, A2, A4a, A7b and B4 when tested in tobacco mesophyll protplasts. HsfA2 was inactive on PHsfA:GUS. HsfB1 showed repression of endogenous activity on several PHsf:GUS reporter constructs. 4.) The transcriptional regulation under heat stress and promoter organization of HsfA2 and FtSH4 (a metalloprotease gene oriented in a head to head fashion with HsfA2 in the Arabidopsis genome, sharing a common promoter region) was studied. The transcripts of FtSH4 and HsfA2 coaccumulated under heat stress. HsfA1b was active on PHsfA2:GUS and PFtSH4:GUS. Hsf binding sites on the intergenic region were determined using promoter deletion constructs in tobacco and Arabidopsis protoplasts. A bidirectional regulation of HsfA2 and FtSH4 by HsfA1b was observed in tobacco protoplast. 5.) Microarray analysis of a HsfA2 T-DNA insertion line vs. wild type Col-0 under heat stress conditions led to identification of a subset of target genes to be severely affected in the absence of HsfA2. Apart from several Hsps (heat stressproteins) and APX2 (Ascorbate peroxidase 2, oxidative stress scavenger), several other unknown genes are affected. APX2 was the most severely affected among them. HsfA2 was able to induce the transcription from its target gene promoters in fusion to GUS in transient reporter assays in tobacco protoplast. The HSE cluster to which HsfA2 binds on the APX2 promoter was also mapped by the same technique. The direct binding of HsfA2 to the promoter of selected target genes in the Arabidopsis genome was also demonstrated by chromatin immunoprecipitation studies.