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Institute
- Graduate School of Life Sciences (124) (remove)
Sonstige beteiligte Institutionen
- Biomedical Center Munich, Department of Physiological Chemistry, Ludwig-Maximilians-Universität München (1)
- Department of Veterinary Sciences, Experimental Parasitology, Ludwig-Maximilians-Universität München (1)
- Max-Delbrück-Center für molekulare Medizin, Berlin (1)
- Research Center for Infectious Diseases, University of Würzburg (1)
- Spanish National Center for Biotechnology (CNB-CSIC) (1)
- Technische Universität Darmstadt (1)
- University of Applied Sciences Aschaffenburg (1)
- University of Leipzig, Faculty of Life Sciences, Institute for Biology (1)
- Zentrum für Infektionsforschung (ZINF) Würzburg (1)
Platelets, small anucleate cell fragments in the blood stream, derive from large precursor cells, so-called megakaryocytes (MK) residing in the bone marrow (BM). In addition to their role in wound healing, platelets have been shown to play a significant role during inflammatory bleeding. Above all, the immunoreceptor tyrosine-based activation motif (ITAM) receptors GPVI as well as CLEC-2 have been identified as main regulators of vascular integrity.
In addition to ITAM-bearing receptors, our group identified GPV as another potent regulator of hemostasis and thrombosis. Surprisingly, concomitant lack of GPV and CLEC-2 deteriorated blood-lymphatic misconnections observed in Clec2-/- mice resulting in severe edema formation and intestinal inflammation. Analysis of lymphatic and vascular development in embryonic mesenteries revealed severely defective blood-lymph-vessel separation, which translated into thrombocytopenia and increased vascular permeability due to reduced tight junction density in mesenteric blood vessels and consequent leakage of blood into the peritoneal cavity.
Recently, platelet granule release has been proposed to ameliorate the progression of retinopathy of prematurity (ROP), a fatal disease in newborns leading to retinal degradation. The mechanisms governing platelet activation in this process remained elusive nonetheless, which prompted us to investigate a possible role of ITAM signaling. In the second part of this thesis, granule release during ROP was shown to be GPVI- and partly CLEC-2-triggered since blockade or loss of these receptors markedly deteriorated ROP progression.
Proplatelet formation from MKs is highly dependent on a functional microtubule and actin cytoskeleton, the latter of which is regulated by several actin-monomer binding proteins including Cofilin1 and Twinfilin1 that have been associated with actin-severing at pointed ends. In the present study, a redundancy between both proteins especially important for the guided release of proplatelets into the bloodstream was identified, since deficiency in both proteins markedly impaired MK functionality mainly due to altered actin-microtubule crosstalk.
Besides ITAM-triggered activation, platelets and MKs are dependent on inhibitory receptors, which prevent overshooting activation. We here identified macrothrombocytopenic mice with a mutation within Mpig6b encoding the ITIM-bearing receptor G6b-B. G6b-B-mutant mice developed a severe myelofibrosis associated with sex-specific bone remodeling defects resulting in osteosclerosis and -porosis in female mice. Moreover, G6b-B was shown to be indispensable for MK maturation as verified by a significant reduction in MK-specific gene expression in G6b-B-mutant MKs due to reduced GATA-1 activity.
Adrenal Cushing’s Syndrome (CS) is a rare but life-threatening disease and therefore it is of great importance to understand the pathogenesis leading to adrenal CS. It is well accepted that Protein Kinase A (PKA) signalling mediates steroid secretion in adrenocortical cells. PKA is an inactive heterotetramer, consisting of two catalytic and two regulatory subunits. Upon cAMP binding to the regulatory subunits, the catalytic subunits are released and are able to phosphorylate their target proteins. Recently, activating somatic mutations affecting the catalytic subunit a of PKA have been identified in a sub-population of cortisol-producing adenomas (CPAs) associated with overt CS. Interestingly, the PKA regulatory subunit IIb has long been known to have significantly lower protein levels in a sub-group of CPAs compared to other adrenocortical tumours. Yet, it is unknown, why these CPAs lack the regulatory subunit IIb, neither are any functional consequences nor are the underlying regulation mechanisms leading to reduced RIIb levels known. The results obtained in this thesis show a clear connection between Ca mutations and reduced RIIb protein levels in CPAs but not in other adrenocortical tumours. Furthermore, a specific pattern of PKA subunit expression in the different zones of the normal adrenal gland is demonstrated. In addition, a Ca L206R mutation-mediated degradation of RIIb was observed in adrenocortical cells in vitro. RIIb degradation was found to be mediated by caspases and by performing mutagenesis experiments of the regulatory subunits IIb and Ia, S114 phosphorylation of RIIb was identified to make RIIb susceptible for degradation. LC-MS/MS revealed RIIb interaction partners to differ in the presence of either Ca WT and Ca L206R. These newly identified interaction partners are possibly involved in targeting RIIb to subcellular compartments or bringing it into spatial proximity of degrading enzymes. Furthermore, reducing RIIb protein levels in an in vitro system were shown to correlate with increased cortisol secretion also in the absence of PRKACA mutations. The inhibiting role of RIIb in cortisol secretion demonstrates a new function of this regulatory PKA subunit, improving the understanding of the complex regulation of PKA as key regulator in many cells.
Design of novel IL-4 antagonists employing site-specific chemical and biosynthetic glycosylation
(2021)
The cytokines interleukin 4 (IL-4) and IL-13 are important mediators in the humoral immune response and play a crucial role in the pathogenesis of chronic inflammatory diseases, such as asthma, allergies, and atopic dermatitis. Hence, IL-4 and IL-13 are key targets for treatment of such atopic diseases.
For cell signalling IL-4 can use two transmembrane receptor assemblies, the type I receptor consisting of receptors IL-4R and γc, and type II receptor consisting of receptors IL-4R and IL-13R1. The type II receptor is also the functional receptor of IL-13, receptor sharing being the molecular basis for the partially overlapping effects of IL-4 and IL-13. Since both cytokines require the IL-4R receptor for signal transduction, this allows the dual inhibition of both IL-4 and IL-13 by specifically blocking the receptor IL-4R.
This study describes the design and synthesis of novel antagonistic variants of human IL-4. Chemical modification was used to target positions localized in IL-4 binding sites for γc and IL-13R1 but outside of the binding epitope for IL-4R. In contrast to existing studies, which used synthetic chemical compounds like polyethylene glycol for modification of IL-4, we employed glycan molecules as a natural alternative. Since glycosylation can improve important pharmacological parameters of protein therapeutics, such as immunogenicity and serum half-life, the introduced glycan molecules thus would not only confer a steric hindrance based inhibitory effect but simultaneously might improve the pharmacokinetic profile of the IL-4 antagonist.
For chemical conjugation of glycan molecules, IL-4 variants containing additional cysteine residues were produced employing prokaryotic, as well as eukaryotic expression systems. The thiol-groups of the engineered cysteines thereby allow highly specific modification. Different strategies were developed enabling site-directed coupling of amine- or thiol- functionalized monosaccharides to introduced cysteine residues in IL-4. A linker-based coupling procedure and an approach requiring phenylselenyl bromide activation of IL-4 thiol-groups were hampered by several drawbacks, limiting their feasibility. Surprisingly, a third strategy, which involved refolding of IL-4 cysteine variants in the presence of thiol- glycans, readily allowed synthesis of IL-4 glycoconjugates in form of mixed disulphides in milligram amount. This approach, therefore, has the potential for large-scale synthesis of IL-4 antagonists with highly defined glycosylation. Obtaining a homogenous glycoconjugate with exactly defined glycan pattern would allow using the attached glycan structures for fine-tuning of pharmacokinetic properties of the IL-4 antagonist, such as absorption and metabolic stability.
The IL-4 glycoconjugates generated in this work proved to be highly effective antagonists inhibiting IL-4 and/or IL-13 dependent responses in cell-based experiments and in in vitro binding studies. Glycoengineered IL-4 antagonists thus present valuable alternatives to IL-4 inhibitors used for treatment of atopic diseases such as the neutralizing anti-IL-4R antibody Dupilumab.
Nutrition facts of pollen: nutritional quality and how it affects reception and perception in bees
(2021)
Nutrients belong to the key elements enabling life and influencing an organism’s fitness. The intake of nutrients in the right amounts and ratios can increase fitness; strong deviations from the optimal intake target can decrease fitness. Hence, the ability to assess the nutritional profile of food would benefit animals. To achieve this, they need the according nutrient receptors, the ability to interpret the receptor information via perceptive mechanisms, and the ability to adjust their foraging behavior accordingly. Additionally, eventually existing correlations between the nutrient groups and single nutrient compounds in food could help them to achieve this adjustment. A prominent interaction between food and consumer is the interaction between flowering plants (angiosperms) and animal pollinators. Usually both of the interacting partners benefit from this mutualistic interaction. Plants are pollinated while pollinators get a (most of the times) nutritional reward in form of nectar and/or pollen. As similar interactions between plants and animals seem to have existed even before the emergence of angiosperms, these interactions between insects and angiosperms very likely have co-evolved right from their evolutionary origin. Therefore, insect pollinators with the ability to assess the nutritional profile may have shaped the nutritional profile of plant species depending on them for their reproduction via selection pressure. In Chapter I of this thesis the pollen nutritional profile of many plant species was analyzed in the context of their phylogeny and their dependence on insect pollinators. In addition, correlations between the nutrients were investigated. While the impact of phylogeny on the pollen protein content was little, the mutual outcome of both of the studies included in this chapter is that protein content of pollen is mostly influenced by the plant’s dependence on insect pollinators. Several correlations found between nutrients within and between the nutrient groups could additionally help the pollinators to assess the nutrient profile of pollen. An important prerequisite for this assessment would be that the pollinators are able to differentiate between pollen of different plant species. Therefore, in Chapter II it was investigated whether bees have this ability. Specifically, it was investigated whether honeybees are able to differentiate between pollen of two different, but closely related plant species and whether bumblebees prefer one out of three pollen mixes, when they were fed with only one of them as larvae. Honeybees indeed were able to differentiate between the pollen species and bumblebees preferred one of the pollen mixes to the pollen mix they were fed as larvae, possibly due to its nutritional content. Therefore, the basis for pollen nutrient assessment is given in bees. However, there also was a slight preference for the pollen fed as larvae compared to another non-preferred pollen mix, at least hinting at the retention of larval memory in adult bumblebees. Chapter III looks into nutrient perception of bumblebees more in detail. Here it was shown that they are principally able to perceive amino acids and differentiate between them as well as different concentrations of the same amino acid. However, they do not seem to be able to assess the amino acid content in pollen or do not focus on it, but instead seem to focus on fatty acids, for which they could not only perceive concentration differences, but also were able to differentiate between. These findings were supported by feeding experiments in which the bumblebees did not prefer any of the pollen diets containing less or more amino acids but preferred pollen with less fatty acids. In no choice feeding experiments, bumblebees receiving a diet with high fatty acid content accepted undereating other nutrients instead of overeating fat, leading to increased mortality and the inability to reproduce. Hence, the importance of fat in pollen needs to be looked into further. In conclusion, this thesis shows that the co-evolution of flowering plants and pollinating insects could be even more pronounced than thought before. Insects do not only pressure the plants to produce high quality nectar, but also pressure those plants depending on insect pollination to produce high quality pollen. The reason could be the insects’ ability to receive and perceive certain nutrients, which enables them to forage selectively leading to a higher reproductive success of plants with a pollinator-suitable nutritional pollen profile.
Bei der zystischen Fibrose (CF) sowie der primären Ziliendyskinesie (PCD) handelt es sich um zwei seltene Erkrankungen, die unter anderem den mukoziliären Transport beeinträchtigen. CF gehört hierbei zu den am häufigsten vorkommenden angeborenen Stoffwechselerkrankungen, wobei Betroffene unter einem Defekt des Cystic Fibrosis Transmembrane Conductor Regulator (CFTR)-Gens leiden, der durch die Produktion von hochviskosem Sekret in muzinproduzierenden Organen, wie dem gastrointestinalen Trakt und der Lunge, gekennzeichnet ist. Patienten, die an PCD leiden, weisen Defekte in, zum jetzigen Zeitpunkt, ca. 38 bekannten und PCD-assoziierten Genen auf, die in strukturellen Defekten des ziliären Apparats und somit in dysfunktionalen Kinozilien resultieren. Da aktuell weder für die CF noch für die PCD eine Heilung möglich ist, steht bei der Therapie vor allem die Linderung der Symptome im Fokus. Grundlegendes Ziel ist der langfristige Erhalt der Lungenfunktion sowie die Prävention bakterieller Infekte. Als bisherige Modellsysteme zur Erforschung möglicher Therapeutika gelten Tiermodelle, die den humanen Phänotyp aufgrund von Speziesdiversität nicht vollständig abbilden können. Als vielversprechende Testsysteme für die zystische Fibrose gelten humane intestinale Organoidkulturen. Nachdem allerdings vorwiegend respiratorische Symptome für die Mortalität der Patienten verantwortlich sind, stellen CF-Atemwegsmodelle bessere Testsysteme für zukünftige Therapeutika dar. Atmungsorganoidkulturen wurden verwendet, um die CFTR-Funktionalität zu untersuchen, repräsentieren aber nicht vollständig die in vivo Situation. Deshalb werden zur Entwicklung neuer Therapiestrategien patientenspezifische 3D in vitro Testsysteme der humanen Atemwege benötigt, die insbesondere im Hinblick auf personalisierte Medizin ihren Einsatz finden. In der vorliegenden Arbeit wurde eine für den Lehrstuhl neue Methode zur Zellgewinnung aus nasalen Schleimhautabstrichen etabliert, die eine standardisierte Versorgung mit humanem Primärmaterial garantiert. Zur Generierung einer krankheitsspezifischen Zelllinie, wie beispielsweise einer PCD-Zelllinie mit Hilfe des CRISPR/Cas9-Systems, ist eine Atemwegszelllinie erforderlich, die die in vivo Situation vollständig repräsentiert. So wurden vier verschiedene respiratorische Epithelzelllinien (HBEC3-KT, Calu-3, VA10 und Cl-huAEC) auf ihren mukoziliären Phänotyp hin untersucht, wobei lediglich die Zelllinie HBEC3-KT in zilientragende Zellen differenzierte. Diese zeigten jedoch nur auf ca. 5 % der Modelloberfläche Kinozilien, wodurch die humane respiratorische Mukosa nicht komplett abgebildet werden konnte und die HBEC3-KT-Zelllinie keine geeignete Zelllinie zur Generierung einer PCD-Zelllinie darstellte. Mit Hilfe des Tissue Engineering war es möglich, 3D in vitro Testsysteme basierend auf zwei unterschiedlichen Matrices, der biologischen SIS (small intestinal submucosa) und der synthetischen Polyethylenterephthalat (PET)-Membran, aufzubauen. Es wurden 3D Atemwegstestsysteme mit humanen primären nasalen und tracheobronchialen Epithelzellen generiert. Ergänzend zu histologischen Untersuchungen und zur Charakterisierung spezifischer Marker des respiratorischen Systems mittels Immunfluoreszenz, wurde die Ultrastruktur der Modelle, mit speziellem Fokus auf ziliäre Strukturen, analysiert. Um Rückschlüsse auf die ziliäre Funktionalität ziehen zu können und somit eine hohe in vivo Korrelation zu bestätigen, wurde im Rahmen dieser Arbeit am Lehrstuhl für Tissue Engineering und Regenerative Medizin die Methode der Hochgeschwindigkeitsvideomikroskopie etabliert, welche die Analyse der Zilienschlagfrequenz sowie des mukoziliären Transports ermöglicht. Ebenfalls wurde der Einfluss von isotoner Kochsalzlösung und des � 2-adrenergen Agonisten Salbutamol, das vor allem als Bronchodilatator bei Asthmapatienten eingesetzt wird, auf die Zilienschlagfrequenz analysiert. Es konnte gezeigt werden, dass beide Substanzen den Zilienschlag im Atemwegsmodell erhöhen. Zur Generierung der Testsysteme der beiden seltenen Erkrankungen CF und PCD wurden Epithelzellen der betroffenen Patienten zunächst mittels nicht-invasiver Raman-Spektroskopie auf einen potentiellen Biomarker untersucht, welcher Einsatz in der Diagnostik der beiden Krankheiten finden könnte. Es konnte jedoch weder für die CF noch für die PCD ein Biomarker aufgedeckt werden. Jedoch zeigten PCD-Zellen eine geringe Auftrennung gegenüber nicht-PCD Zellen. Anschließend wurden 3D-Atemwegstestsysteme basierend auf Patientenzellen aufgebaut. Der Phänotyp der CF-Modelle wurde mittels immunhistologischer Färbung und der Analyse des gestörten mukoziliären Transports verifiziert. Strukturelle ziliäre Defekte konnten durch die ultrastrukturelle Analyse von Zilienquerschnitten in drei donorspezifischen PCD-Modellen identifiziert werden. Darüber hinaus konnte die ziliäre Funktionalität mit Hilfe der Hochgeschwindigkeitsvideomikroskopie nicht nachgewiesen werden. Zusammenfassend ist es in dieser Arbeit gelungen, eine neue Methode zur vollständigen Charakterisierung von 3D-Atemwegstestsystemen zu etablieren, die die Analyse der Zilienschlagfrequenz sowie des mukoziliären Transports ermöglicht. Es konnte erstmalig gezeigt werden, dass mit Hilfe des Tissue Engineering ein personalisiertes Krankheitsmodell für die PCD auf Segmenten eines dezellularisierten porzinen Jejunums generiert werden kann, das zukünftig ein Testsystem für potentielle Therapeutika darstellen kann.
Die Entwicklung des Schädeldachs beginnt beim Menschen bereits in der frühen Embryogenese und ist erst im Erwachsenenalter abgeschlossen. Das Wachstum der Schädelknochen muss sich während der Entwicklung fortwährend dem Gehirnwachstum anpassen. An den Stellen, wo zwei Schädelknochen aufeinandertreffen, formen sich Schädelnähte, die aus mesenchymalem Bindegewebe bestehen und als Wachstumsfugen des Schädels dienen. Tritt eine frühzeitige Verknöcherung innerhalb einer oder mehrerer Schädelnähte auf, spricht man von einer Kraniosynostose. Als Konsequenz wird ein weiteres Knochenwachstum verhindert, sodass sich das Neurokranium in dieser Region nicht dem expansiven Wachstum des Gehirns anpassen kann. Dies geht in der Regel mit einem kompensatorischen Wachstum des Schädels und infolgedessen mit kraniofazialen Dysmorphien und einem erhöhten intrakraniellen Druck einher. Klinische Studien und Forschungen an Modellorganismen konnten bereits eine Vielzahl an Genen mit der Entstehung von Kraniosynostosen assoziieren, darunter die Transkriptionsfaktoren TCF12 und TWIST1. Beim Menschen sind heterozygote Mutationen in TCF12 und TWIST1 mit Kraniosynostosen der Koronarnaht assoziiert. Bei Mäusen hingegen führt eine heterozygote Tcf12 Mutation nur in Kombination mit einer heterozygoten Twist1 Mutation zu Fusionen der Koronarnaht.
Der Zebrabärbling (Danio rerio, überwiegend auch Zebrafisch genannt) weist eine bemerkenswerte Ähnlichkeit bezüglich der Anatomie und Morphologie des Schädeldachs zum Menschen auf. Um die genaue Funktion von TCF12 bei der Ausbildung der Schädelnähte zu untersuchen, wurde im Rahmen dieser Arbeit der Zebrafisch als in vivo Modell für die Entstehung tcf12-induzierter Kraniosynostosen etabliert. Zu Beginn der Arbeit wurde das Expressionsmuster von tcf12 über die Entwicklung hinweg analysiert. Ein besonderer Fokus lag dabei auf einem Expressionsnachweis während der Entwicklung der Schädelplatten und der Schädelnähte. Ein erster Expressionsnachweis von tcf12 mittels PCR-Analysen und Whole-mount RNA in-situ Hybridisierungen zeigte eine breite Expression von tcf12 ab dem 1-3 Somiten Stadium an. Für tiefergehende in vivo Analysen wurden im Zuge dieser Arbeit tcf12:EGFP Reportergenlinien generiert. Mit diesen gelang ein Nachweis der tcf12 Expression entlang der Wachstumsfronten der Schädelplatten, innerhalb der Schädelnähte sowie im Periost und der Dura mater.
Mit den tcf12:EGFP Fischen als Referenz wurde in weiterführenden Experimenten die Aktivität drei hochkonservierter CNEs (engl. conserved non-coding elements) in vivo im Zebrafisch untersucht. Zwei der CNEs konnten als tcf12 Enhancer verifiziert werden, die eine Genexpression während der Neurogenese des zentralen Nervensystems (ZNS) steuern. Die beiden Enhancer-Elemente zeichnen sich durch eine hohe Konservierung vom Menschen bis hin zum Zebrafisch aus.
Aufgrund der unterschiedlichen Sensitivität gegenüber einem Funktionsverlust von TCF12 und TWIST1 in Mensch und Maus sollte die Auswirkung eines Knockouts der orthologen Gene auf die Entwicklung der Schädelnähte des Zebrafisches untersucht werden. Mittels CRISPR/Cas9 wurden verschiedene Knockout-Linien für die Gene tcf12, twist1a und twist1b generiert. Analysen der Knockoutmutanten zeigten, dass ein heterozygoter Verlust von tcf12 und twist1b in seltenen Fällen zu partiellen Fusionen der Koronarnähte im Zebrafisch führt. Des Weiteren konnte bei tcf12 und twist1b Einzel- und Doppelmutanten ein abnormes Wachstum der Schädelplatten im Bereich der Suturen beobachtet werden. Die Expressionsstudien und die Analysen der Knockoutmutanten deuten auf eine Regulation von TCF12 bei der Differenzierung der Stammzellen sowie der Proliferation der Osteoblasten innerhalb der Schädelnähte hin.
Um die Auswirkung von TCF12 Mutationen auf funktioneller Ebene zu untersuchen wurden im Verlauf dieser Arbeit Luciferase-Reporter Assays durchgeführt. Anhand dieser konnte nachgewiesen werden, dass Mutationen, die die basic helix-loop-helix (bHLH)-Domäne beeinträchtigen, die Transaktivierungsfähigkeit von TCF12 aufheben. Co-Transfektions-Experimente mit TWIST1 offenbarten eine Regulation der Transaktivierung von TCF12 durch TWIST1, sowohl im Menschen, als auch im Zebrafisch. Im Rahmen dieser Arbeit konnten die genauen Expressionsorte von TCF12 während der Morphogenese des Schädeldachs nachgwiesen und die Funktion von TCF12 und seinem Interaktionspartner TWIST1 bei der Entstehung von Kraniosynostosen weiter aufgeklärt werden.
Ciliary neurotrophic factor (Cntf) acts as a differentiation and survival factor for different types of neurons and glial cells. It is expressed by peripheral Schwann cells and astrocytes in the central nervous system and mediates its effects via a receptor complex involving CntfRα, LifRß and gp130, leading to downstream activation of Stat3. Recent studies by our group have shown that Cntf modulates neuronal microtubule dynamics via Stat3/stathmin interaction. In a mouse model for motor neuron disease, i.e. pmn, Cntf is able to rescue axonal degeneration through Stat3/stathmin signaling. While these findings suggest a role of Cntf in controlling axonal functions in the neuromuscular system, additional data indicate that Cntf might also play a role in synaptic plasticity in the hippocampus. Electrophysiological recordings in hippocampal organotypic cultures and acute slices revealed a deficit in long-term potentiation (LTP) in Cntf -/- mice. This deficit was rescued by 24 h stimulation with Cntf, combined with an acute application of Cntf during LTP-measurements indicating that Cntf is both necessary and sufficient for hippocampal LTP, and possibly synaptic plasticity. Therefore, Cntf knockout mice were investigated to elucidate this possible role of Cntf in hippocampal LTP and synaptic plasticity.
First, we validated the presence of Cntf in the target tissue: in the hippocampus, Cntf was localized in Gfap-positive astrocytes surrounding small blood vessels in the fissure and in meningeal areas close to the dentate gyrus. Laser micro-dissection and qPCR analysis showed a similar distribution of Cntf-coding mRNA validating the obtained immunofluorescent results. Despite the strong LTP deficit in organotypic cultures, in vivo behavior of Cntf -/- mice regarding hippocampus-dependent learning and anxiety-related paradigms was largely inconspicuous. However, western blot analysis of hippocampal organotypic cultures revealed a significant reduction of pStat3 levels in Cntf -/- cultures under baseline conditions, which in turn were elevated upon Cntf stimulation. In order to resolve and examine synaptic structures we turned to in vitro analysis of cultured hippocampal neurons which indicated that pStat3 is predominantly located in the presynapse. In line with these findings, presynapses of Cntf -/- cultures were reduced in size and when in contact to astrocytes, contained less pStat3 immunoreactivity compared to presynapses in wildtype cultures.
In conclusion, our findings hypothesize that despite of a largely inconspicuous behavioral phenotype of Cntf -/- mice, Cntf appears to have an influence on pStat3 levels at hippocampal synapses. In a next step these two key questions need to be addressed experimentally: 1) is there a compensatory mechanism by members of the Cntf family, possibly downstream of pStat3, which explains the in vivo behavioral results of Cntf -/- mice and can likewise account for the largely inconspicuous phenotype in CNTF-deficient humans? 2) How exactly does Cntf influence LTP through Stat3 signaling? To unravel the underlying mechanism further experiments should therefore investigate whether microtubule dynamics downstream of Stat3 and stathmin signaling are involved in the Cntf-induced modulation of hippocampal synaptic plasticity, similar to as it was shown in motoneurons.
Arid environments cover almost one-third of the land over the world. Plant life in hot arid regions is prone to the water shortage and associated high temperatures. Drought-stressed plants close the stomata to reduce water loss. Under such conditions, the remaining water loss exclusively happens across the plant cuticle. The cuticular water permeability equals the minimum and inevitable water loss from the epidermal cells to the atmosphere under maximally stomatal closure. Thus, low cuticular water permeability is primordial for plant survival and viability under limited water source. The assumption that non-succulent xerophytes retard water loss due to the secretion of a heavier cuticle is often found in the literature. Intuitively, this seems to be plausible, but few studies have been conducted to evaluate the cuticular permeability of xerophilous plants. In chapter one, we investigated whether the cuticular permeability of Quercus coccifera L. grown in the aridest Mediterranean-subtype climate is indeed lower than that of individuals grown under temperate climate conditions. Also, the cuticular wax chemical compositions of plants grown in both habitats were qualitatively and quantitatively analysed by gas-chromatography. In few words, our findings showed that although the cuticular wax deposition increased in plants under Mediterranean climate, the cuticular permeability remained unaltered, regardless of habitat.
The associated high temperatures in arid regions can drastically increase the cuticular water permeability. Thereby, the thermal stability of the cuticular transpirational barrier is decisive for safeguarding non-succulent xerophytes against desiccation. The successful adaptation of plants to hot deserts might be based on finding different solutions to cope with water and heat stresses. Water-saver plants close the stomata before the leaf water potential drastically changes in order to prevent damage, whereas water-spender plants reduce the leaf water potential by opening the stomata, which allow them to extract water from the deep soil to compensate the high water loss by stomatal transpiration. In chapter two, we compare the thermal stability of the cuticular transpiration barrier of the desert water-saver Phoenix dactylifera L. and the water-spender Citrullus colocynthis (L.) Schrad. In short, the temperature-dependent increase of the cuticular permeability of P. dactylifera was linear over the whole temperature range (25-50°C), while that of C. colocynthis was biphasic with a steep increase at temperatures ≥ 40°C. This drastic increase of cuticular permeability indicates a thermally induced breakdown of the C. colocynthis cuticular transpiration barrier, which does not occur in P. dactylifera. We further discussed how the specific chemical composition of the cutin and cuticular waxes might contribute to the pronounced thermal resistance of the P. dactylifera cuticular transpiration barrier.
A multitude of morpho and physiological modifications, including photosynthetic thermal tolerance and traits related to water balance, led to the successful plant colonisation of hot arid regions over the globe. High evaporative demand and elevated temperatures very often go along together, thereby constraining the plant life in arid environments. In chapter 3, we surveyed cuticular permeability, leaf thermal tolerance, and cuticular wax chemical composition of 14 non-succulent plant species native from some of the hottest and driest biomes in South-America, Europe, and Asia. Our findings showed that xerophilous flowering plants present high variability for cuticular permeability and leaf thermal tolerance, but both physiological features could not be associated with the species original habitat. We also provide substantial evidence that non-succulent xerophytes with more efficient cuticular transpirational barrier have higher leaf thermal tolerance, which might indicate a potential coevolution of these features in hot arid biomes. We further discussed the efficiency of the cuticular transpiration barrier in function to the cuticular wax chemical composition in the general discussion section.
The integrity of its DNA is fundamental for every living cell. However, DNA is constantly threatened by exogenous and endogenous damaging agents that can cause a variety of different DNA lesions. The severe consequences of an accumulation of DNA lesions are reflected in cancerogenesis and aging. Several DNA repair mechanisms ensure the repair of DNA lesions and thus maintain DNA integrity. One of these DNA repair mechanisms is nucleotide excision repair (NER), which is famous for its ability to address a large variety of structurally unrelated DNA lesions. A key component of eukaryotic NER is the transcription factor II H (TFIIH) complex, which is not only essential for DNA repair but also for transcription. The TFIIH complex is composed of ten subunits. How these subunits work together during NER to unwind the DNA around the lesion is, however, not yet fully understood. High-resolution structural data and biochemical insights into the function of every subunit are thus indispensable to understand the functional networks within TFIIH. The importance of an intact TFIIH complex is reflected in the severe consequences of patient mutations in the TFIIH subunits XPB, XPD or p8 leading to the hallmark diseases xeroderma pigmentosum, Cockayne syndrome and trichothiodystrophy. Defects in the NER pathway are further associated with several types of cancer including skin cancer.
The herein described work focused on five TFIIH subunits derived from the thermophilic fungus Chaetomium thermophilum, the p34/p44 pair and the ternary XPB/p52/p8 complex. The interaction between p34 and p44 was characterized based on a high-resolution structure of the p34_vWA/p44_RING minimal complex. Biochemical studies of the p34/p44 interaction led to the disclosure of an additional interaction between the p34 and p44 subunits, which had not been characterized so far. The p34/p44 interaction was shown to be central to TFIIH, which justifies the presence of several redundant interfaces to safeguard the interaction between the two proteins and might explain why so far, no patient mutations in these subunits have been identified. The p52 subunit of TFIIH was known to be crucial to stimulate the ATPase activity of XPB, which is required during NER. This work presents the first entire atomic resolution structural characterization of p52, which was derived of several crystal structures of p52 variants and a p52/p8 variant thereby demonstrating the interaction between p52 and p8. The precise structural model of p52 offered the possibility to investigate interactions with other TFIIH subunits in more detail. The middle domain 2 of p52 and the N-terminal domain of XPB were shown to mediate the main interaction between the two subunits. An analysis of the p52 crystal structures within recently published cryo-electron microscopy structures of TFIIH provides a model of how p52 and p8 stimulate the ATPase activity of XPB, which is essential for NER and transcription. The structural and biochemical findings of this work provide an additional building block towards the uncovering of the architecture and function of this essential transcription factor.
Depressionen und Angststörungen sind die beiden häufigsten psychischen Erkrankungen. Für Angststörungen wurde in zahlreichen Untersuchungen die Bedeutung veränderter Muster in den basalen emotional-assoziativen Lernprozessen für die Ätiologie und Aufrechterhaltung der Erkrankung gezeigt. Hierzu zählen eine verstärkte Akquisitionsreaktion auf den konditionierten Stimulus, Defizite in der Inhibition der Furchtreaktion auf den Sicherheit signalisierenden Stimulus, Übergeneralisierung und Beeinträchtigungen in der Extinktion konditionierter Reaktionen.
Aufgrund der hohen Prävalenzen einer Komorbidität mit Depressionen rückte in den letzten Jahren zunehmend die Untersuchung der genannten Prozesse bei Depressionen in den Fokus. Hierfür konnten bisher keine einheitlichen Ergebnisse gezeigt werden.
Weiterhin wird der Subtyp der ängstlichen Depression einerseits mit hohen Prävalenzen beschrieben, andererseits zeigen Untersuchungen eine schlechtere Prognose, stärkere Einschränkungen in der Funktionalität und ein schlechteres Ansprechen auf die Therapie im Vergleich zu depressiven Patienten ohne hohes Ängstlichkeitsniveau.
In dieser Arbeit wurden die Akquisition, Generalisierung und Extinktion in einem differentiellen Konditionierungsparadigma bei schwer depressiven ängstlichen und nicht ängstlich-depressiven Patienten sowie einer gesunden Kontrollgruppe untersucht. Ängstliche und nicht ängstlich-depressive Patienten zeigten ein beeinträchtigtes Sicherheitslernen in der Akquisition und Beeinträchtigungen in der Extinktion der konditionierten Furcht. Es ergaben sich keine Unterschiede hinsichtlich der Stärke der Generalisierung zwischen Patienten und den gesunden Kontrollen und es konnten keine differenzierenden Muster zwischen den ängstlich- und den nicht ängstlich-depressiven Patienten gezeigt werden.
Zusammenfassend weisen die Ergebnisse auf Veränderungen im Furchtlernen bei Patienten mit Depressionen hin. Es konnten keine Belege für unterschiedliche Mechanismen im Furchtlernen von ängstlich- und nicht ängstlich-depressiven Patienten gefunden werden. Unsere Ergebnisse stützen somit die Klassifikation der ängstlichen Depression als Subtyp der Depression. Weiterhin weisen die Ergebnisse der beeinträchtigten Extinktion bei Patienten mit Depressionen darauf hin, dass Expositionselemente, welche bei der Therapie von Angststörungen als Verfahren der Wahl eingesetzt werden, auch bei der Behandlung von Depressionen integriert werden sollten, um so den Therapieerfolg zu verbessern.