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Desert ants of the genus Cataglyphis have become model systems for the study of insect navigation. An age-related polyethism subdivides their colonies into interior workers and short-lived light-exposed foragers. While foraging in featureless and cluttered terrain over distances up to several hundred meters, the ants are able to precisely return back to their often inconspicuous nest entrance. They accomplish this enormous navigational performance by using a path integration system - including a polarization compass and an odometer - as their main navigational means in addition to landmark-dependent orientation and olfactory cues. C. fortis, being the focus of the present thesis, is endemic to the salt flats of western North Africa, which are completely avoided by other Cataglyphis species. The fact that Cataglyphis ants undergo a behavioral transition associated with drastically changing sensory demands makes these ants particularly interesting for studying synaptic plasticity in visual and olfactory brain centers. This thesis focuses on plastic changes in the mushroom bodies (MBs) - sensory integration centers supposed to be involved in learning and memory presumably including landmark learning - and in synaptic complexes belonging to the lateral accessory lobe (LAL) known to be a relay station in the polarization processing pathway. To investigate structural synaptic plasticity in the MBs of C. fortis, synaptic complexes (microglomeruli, MG) in the visual (collar) and olfactory (lip) input regions of the MB calyx were immunolabeled and their pre- and postsynaptic profiles were quantified. The results show that a volume increase of the MB calyx during behavioral transition is associated with a decrease of MG number - an effect called pruning - in the collar and, less pronounced, in the lip that goes along with dendritic expansion in MB intrinsic Kenyon cells. Light-exposure of dark-reared ants of different age classes revealed similar effects and dark-reared ants age-matched to foragers had MG numbers comparable to those of interior workers. The results indicate that the enormous structural synaptic plasticity of the MB calyx collar is primarily driven by visual experience rather than by an internal program. Ants aged artificially for up to one year expressed a similar plasticity indicating that the system remains flexible over the entire life-span. To investigate whether light-induced synaptic reorganization is reversible, experienced foragers were transferred back to darkness with the result that their MBs exhibit only some reverse-type characteristics, in particular differences in presynaptic synapsin expression. To investigate the structure of large synaptic complexes in the LAL of C. fortis and to detect potential structural changes, pre- and postsynaptic profiles in interior workers and foragers were immunolabeled and quantified by using confocal imaging and 3D-reconstruction. The results show that these complexes consist of postsynaptic processes located in a central region that is surrounded by a cup-like presynaptic profile. Tracer injections identified input and output tracts of the LAL: projection neurons from the anterior optic tubercle build connections with neurons projecting to the central complex. The behavioral transition is associated with an increase by ~13% of synaptic complexes suggesting that the polarization pathway may undergo some sort of calibration process. The structural features of these synaptic contacts indicate that they may serve a fast and reliable signal transmission in the polarization vision pathway. Behavioral analyses of C. fortis in the field revealed that the ants perform exploration runs including pirouette-like turns very close to the nest entrance for a period of up to two days, before they actually start their foraging activity. During these orientation runs the ants gather visual experience and might associate the nest entrance with specific landmarks or get entrained to other visual information like the polarization pattern, and, concomitantly adapt their neuronal circuitries to the upcoming challenges. Moreover, the pirouettes may serve to stimulate and calibrate the neuronal networks involved in the polarization compass pathway. Video recordings and analyses demonstrate that light experience enhanced the ants’ locomotor activity after three days of exposure. The fact that both the light-induced behavioral and neuronal changes in visual brain centers occur in the same time frame suggests that there may be a link between structural synaptic plasticity and the behavioral transition from interior tasks to outdoor foraging. Desert ants of the genus Cataglyphis possess remarkable visual navigation capabilities, but also employ olfactory cues for detecting nest and food sites. Using confocal imaging and 3D-reconstruction, potential adaptations in primary olfactory brain centers were analyzed by comparing the number, size and spatial arrangement of olfactory glomeruli in the antennal lobe of C. fortis, C. albicans, C. bicolor, C. rubra, and C. noda. Workers of all Cataglyphis species have smaller numbers of glomeruli compared to those of more olfactory-guided Formica species - a genus closely related to Cataglyphis - and to those previously found in other olfactory-guided ant species. C. fortis has the lowest number of glomeruli compared to all other species, but possesses a conspicuously enlarged glomerulus that is located close to the antennal nerve entrance. Males of C. fortis have a significantly smaller number of glomeruli compared to female workers and queens and a prominent male-specific macroglomerulus likely to be involved in sex pheromone communication. The behavioral significance of the enlarged glomerulus in female workers remains elusive. The fact that C. fortis inhabits microhabitats that are avoided by all other Cataglyphis species suggests that extreme ecological conditions may not only have resulted in adaptations of visual capabilities, but also in specializations of the olfactory system. The present thesis demonstrates that Cataglyphis is an excellent candidate for studying the neuronal mechanisms underlying navigational features and for studying neuronal plasticity associated with the ant’s lifelong flexibility of individual behavioral repertoires.
Die Funktionalität β1- und β2-adrenerger Rezeptoren wird durch Polymorphismen in ihrer kodierenden Region moduliert. Wir haben uns die Technik des Fluoreszenz-Resonanz- Energie-Transfers (FRET) zu Nutze gemacht, um den Einfluss der am häufigsten vorkommenden Polymorphismen (Ser49Gly und Gly389Arg im β1AR, Arg16Gly und Gln27Glu im β2AR) auf die Rezeptorkonformation nach Aktivierung zu untersuchen. Dafür wurden FRET-Sensoren für die beiden βAR-Subtypen mit einem gelb-fluoreszierenden Protein (YFP) sowie einem cyan-fluoreszierenden Protein (CFP oder Cerulean) in der dritten intrazellulären Schleife bzw. am C-Terminus verwendet. Nach Stimulierung der βARSensoren konnte die Aktivierung der polymorphen Rezeptorvarianten in lebenden Zellen in Echtzeit untersucht werden. Dabei behielten die FRET-Sensoren sowohl die Bindungsaffinitäten der nativen Rezeptoren als auch eine intakte Funktionalität hinsichtlich der Bildung von sekundären Botenstoffen. Der Vergleich der Aktivierungskinetiken der verschieden polymorphen Varianten des β1AR und β2AR ergab keine signifikanten Unterschiede nach einer einmaligen Stimulation. Es zeigte sich jedoch, dass Rezeptorpolymorphismen die Aktivierungskinetik vorstimulierter βAR erheblich beeinflussen. So konnten wir im Vergleich zur ersten Aktivierung eine schnellere Aktivierung der Gly16-Varianten des β2AR sowie des Gly49Arg389-β1AR feststellen, während die Arg16-β2AR-Variante und der Ser49Gly389-β1AR dagegen bei einer wiederholten Stimulation langsamer aktiviert wurden. Diese Ergebnisse lassen auf ein "Rezeptorgedächtnis" schließen, das spezifisch für bestimmte polymorphe Rezeptorvarianten ist und eine βAR-Subtyp-spezische Ausprägung zeigt. Die Ausbildung der unterschiedlichen Aktivierungskinetiken hing von der Interaktion des Rezeptors mit löslichen intrazellulären Faktoren ab und bedurfte einer Phosphorylierung intrazellulärer Serin- und Threonin-Reste durch G-Protein-gekoppelte Rezeptorkinasen. Die Interaktion mit löslichen intrazellulären Faktoren scheint für den β1AR weniger stark ausgeprägt zu sein als für den β2AR. Die cAMP-Produktion war für die schneller werdenden, “hyperfunktionellen” Gly16-β2ARVarianten signifikant um mehr als 50% höher im Vergleich zur “hypofunktionellen” Arg16- Variante. Die unterschiedliche Funktionalität spiegelte sich im Therapieausgang bei Tokoysepatientinnen wider, dessen Erfolg mit dem Arg16Gly Polymorphismus verknüpft war. Die Daten implizieren eine intrinsische, polymorphismusabhängige Eigenschaft der βAR, die die Aktivierungskinetik der Rezeptoren bei wiederholten Stimulationen determiniert. Diese könnte auch für die zwischen Individuen variierende Ansprechbarkeit auf β-Agonisten und β-Blocker mitverantwortlich sein.
Thrombus formation at sites of vascular lesions is a dynamic process that requires a defined series of molecular events including the action of platelet adhesion/activation receptors, intracellular signal transduction, cytoskeletal rearrangements and activation of plasma coagulation factors. This process is essential to limit post-traumatic blood loss but may also contribute to acute thrombotic diseases such as myocardial infarction and stroke. With the help of genetically modified mice and the use of specific protein inhibitors and receptordepleting antibodies, the work presented in this thesis identified novel mechanisms underlying thrombus formation in hemostasis and thrombosis. In the first part of the study, it was shown that von Willebrand Factor (vWF) binding to glycoprotein (GP)Iba is critical for the formation of stable pathological thrombi at high shear rates, suggesting GPIba as an attractive pharmacological target for antithrombotic therapy. The subsequent analysis of recently generated phospholipase (PL)D1-deficient mice identified this enzyme, whose role in platelet function had been largely unknown, as a potential target protein downstream of GPIba. This was based on the finding that PLD1- deficient mice displayed severely defective GPIba-dependent thrombus stabilization under high shear conditions in vitro and in vivo without affecting normal hemostasis. The second part of the thesis characterizes the functional relevance of the immunoreceptor tyrosine-based activation motif (ITAM)-bearing collagen receptor GPVI and the recently identified hemITAM-coupled C-type lectin-like receptor 2 (CLEC-2) for in vivo thrombus formation. Genetic- and antibody-induced GPVI deficiency was found to similarly protect mice from arterial vessel occlusion in three different thrombosis models. These results confirmed GPVI as a promising antithrombotic target and revealed that antibody-treatment had no obvious off-target effects on platelet function. Similarly, immunodepletion of CLEC-2 by treating mice with the specific antibody INU1 resulted in markedly impaired thrombus growth and stabilization under flow in vitro and in vivo. Furthermore, it could be demonstrated that double-immunodepletion of GPVI and CLEC-2 resulted in severely decreased arterial thrombus formation accompanied by dramatically prolonged bleeding times. These data revealed an unexpected redundant function of the two receptors for in vivo thrombus formation and might have important implications for the potential development of anti-GPVI and anti-CLEC-2 antithrombotic agents. The third part of the thesis provides the first functional analysis of megakaryocyte- and platelet-specific RhoA knockout mice. RhoA-deficient mice displayed a defined signaling defect in platelet activation, leading to a profound protection from arterial thrombosis andand ischemic brain infarction, but at the same time also strongly increased bleeding times. These findings identified the GTPase as an important player for thrombus formation in hemostasis and thrombosis. Based on the previous proposal that the coagulation factor (F)XII might represent an ideal target for safe antithrombotic therapy without causing bleeding side effects, the last part of this thesis assesses the antithrombotic potential of the newly generated FXIIa inhibitor rHAInfestin- 4. It was found that rHA-Infestin-4 injection into mice resulted in virtually abolished arterial thrombus formation but no change in bleeding times. Moreover, rHA-Infestin-4 was similarly efficient in a murine model of ischemic stroke, suggesting that the inhibitor might be a promising agent for effective and safe therapy of cardio- and cerebrovascular diseases.
Dilated cardiomyopathy (DCM) represents an important subgroup of patients suffering from heart failure. The disease is supposed to be associated with autoimmune mechanisms in about one third of the cases. In the latter patients functionally active conformational autoantibodies directed against the second extracellular loop of the β1-adrenergic receptor (AR, β1ECII-aabs) have been detected. Such antibodies chronically stimulate the β1-AR thereby inducing the adrenergic signaling cascade in cardiomyocytes, which, in the long run, contributes to heart failure progression. We analyzed the production of cAMP after aab-mediated β1-AR activation in vitro using a fluorescence resonance energy transfer (FRET) assay. This assay is based on HEK293 cells stably expressing human β1-AR as well as the cAMP-sensor Epac1-camps. The assay showed a concentration-dependent increase in intracellular cAMP upon stimulation with the full agonist (-) isoproterenol. This response was comparable to results obtained in isolated adult murine cardiomyocytes and was partially blockable by a selective β1-AR antagonist. In the same assay poly- and monoclonal anti-β1ECII-abs (induced in different animals) could activate the adrenergic signaling cascade, whereas isotypic control abs had no effect on intracellular cAMP levels. Using the same method, we were able to detect functionally activating aabs in the serum of heart failure patients with ischemic and hypertensive heart disease as well as patients with DCM, but not in sera of healthy control subjects. In patients with DCM we observed an inverse correlation between the stimulatory potential of anti-β1-aabs and left ventricular pump function. To adopt this assay for the detection of functionally activating anti-β1ECII-aabs in clinical routine we attempted to establish an automated large-scale approach. Neither flow cytometry nor FRET detection with a fluorescence plate reader provided an acceptable signal-to-noise ratio. It was possible to detect (-) isoproterenol in a concentration-dependent manner using two different FRET multiwell microscopes. However, due to focus problems large-scale detection of activating anti-β1ECII-abs could not be implemented. Neutralization of anti-β1-aabs with the corresponding epitope-mimicking peptides is a possible therapeutic approach to treat aab-associated autoimmune DCM. Using our FRET assay we could demonstrate a reduction in the stimulatory potential of anti-β1ECII-abs after in vitro incubation with β1ECII-mimicking peptides. Cyclic (and to a lesser extent linear) peptides in 40-fold molar excess acted as efficient ab-scavengers in vitro. Intravenously injected cyclic peptides in a rat model of DCM also neutralized functionally active anti-β1ECII-abs efficiently in vivo. For a detailed analysis of the receptor-epitope targeted by anti-β1ECII-abs we used sequentially alanine-mutated β1ECII-mimicking cyclic peptides. Our data revealed that the disulfide bridge between the cysteine residues C209 and C215 of the human β1-AR appears essential for the formation of the ab-epitope. Substitution of further amino acids relevant for ab-binding in the cyclic scavenger peptide by alanine reduced its affinity to the ab and the receptor-activating potential was blocked less efficiently. In contrast, the non-mutant cyclic peptide almost completely blocked ab-induced receptor activation. Using this ala-scan approach we were able to identify a “NDPK”-epitope as essential for ab binding to the β1ECII. In summary, neutralization of conformational activating anti-β1ECII-(a)abs by cyclic peptides is a plausible therapeutic concept in heart failure that should be further exploited based on the here presented data.
Investigation on Distinct Roles of Smad Proteins in Mediating Bone Morphogenetic Proteins Signals
(2011)
Bone morphogenetic proteins (BMPs) belong to the transforming growth factor-β (TGF-β) superfamily and play important roles in numerous biological events in the development of almost all multi-cellular organisms. Dysregulated BMP signaling is the underlying causes of numerous heritable and non-heritable human diseases including cancer. The vast range of biological responses induced by BMPs converges on three closely related Smad proteins that convey intracellular signals from BMP receptors to the nucleus. The specificity of BMP signaling has been intensively investigated at the level of ligand-receptor interactions, but how the different Smad proteins contribute to differential signals elicited by BMPs remains unclear. In this work, we investigated the BMP/Smad signaling in different aspects. In search for an appropriate fluorescence reporter in zebrafish, we compared different photo-switchable proteins and found EosFP the best candidate this model system for its fast maturation and fluorescence intensity. We modified and created appropriate vectors enabling Tol2-transposon based trangenesis in zebrafish, with which transgenic zebrafish lines were generated. We combined fluorescence protein tagging with high resolution microscopy and investigate the dynamics of Smad proteins in model system zebrafish. We observed that Smad5 undergoes nucleo-translocation as BMP signal transmitter during zebrafish gastrulation. We explored the Smad involvement during myogenic-to-osteogenic conversion of C2C12 cell line induced by BMP4. We created transient loss-of-function of Smads by siRNA-mediated knockdowns and analyzed the effects on these coupled yet distinct procedures by quantitative real-time PCR and terminal marker staining. We found that different Smad-complex stoichiometry might be responsible for distinct cellular signals elicited by BMPs.
Platelet activation and adhesion results in thrombus formation that is essential for normal hemostasis, but can also cause irreversible vessel occlusion leading to myocardial infarction or stroke. The C-type lectin-like receptor 2 (CLEC-2) was recently identified to be expressed on the platelet surface, however, a role for this receptor in hemostasis and thrombosis had not been demonstrated. In the current study, the involvement of CLEC-2 in platelet function and thrombus formation was investigated using mice as a model system. In the first part of the thesis, it was found that treatment of mice with a newly generated monoclonal antibody against murine CLEC-2 (INU1) led to the complete and highly specific loss of the receptor in circulating platelets (a process termed “immunodepletion”). CLEC-2-deficient platelets were completely unresponsive to the CLEC-2-specific agonist rhodocytin, whereas activation induced by all other tested agonists was unaltered. This selective defect translated into severely decreased platelet aggregate formation under flow ex vivo; and in vivo thrombosis models revealed impaired stabilization of formed thrombi with enhanced embolization. Consequently, CLEC-2 deficiency profoundly protected mice from occlusive arterial thrombus formation. Furthermore, variable bleeding times in INU1-treated mice indicated a moderate hemostatic defect. This reveals for the first time that CLEC-2 significantly contributes to thrombus stability in vitro and in vivo and plays a crucial role in hemostasis and arterial thrombosis. Thus, CLEC-2 represents a potential novel anti-thrombotic target that can be functionally inactivated in vivo. This in vivo down-regulation of platelet surface receptors might be a promising approach for future anti-thrombotic therapy. The second part of the work investigated the effect of double-immunodepletion of the immunoreceptor tyrosine-based activation motif (ITAM)- and hemITAM-coupled receptors, platelet glycoprotein (GP) VI and CLEC-2, on hemostasis and thrombosis using a combination of the GPVI- and CLEC-2-specific antibodies, JAQ1 and INU1, respectively. Isolated targeting of either GPVI or CLEC-2 in vivo did not affect expression or function of the respective other receptor. However, simultaneous treatment with both antibodies resulted in the sustained loss of GPVI and CLEC-2 signaling in platelets, while leaving other activation pathways intact. In contrast to single deficiency of either receptor, GPVI/CLEC-2 double-deficient mice displayed a dramatic hemostatic defect. Furthermore, this treatment resulted in profound impairment of arterial thrombus formation that far exceeded the effects seen in single-depleted animals. Importantly, similar results were obtained in Gp6-/- mice that were depleted of CLEC-2 by INU1-treatment, demonstrating that this severe bleeding phenotype was not caused by secondary effects of combined antibody treatment. These data suggest that GPVI and CLEC-2 can be independently or simultaneously down-regulated in platelets in vivo and reveal an unexpected functional redundancy of the two receptors in hemostasis and thrombosis. Since GPVI and CLEC-2 have intensively been discussed as potential anti-thrombotic targets, these results may have important implications for the development of novel, yet save anti-GPVI or anti-CLEC-2-based therapies.
Effective T cell immunity was believed to occur by mature DC, whereas tolerogenicity was attributed strictly to immature DC phenotypes. However, intermediate DC maturation stages were identified conditioned by inflammatory mediators like TNF. Furthermore, the T cell tolerance mechanisms are dependent on distinct modes and intensities of co-stimulation. Therefore, in this study it was addressed how distinct DC maturation signatures instruct CD4+ T cell tolerance mechanisms. DC acquire antigens from apoptotic cells for self-peptide-MHC presentation and functionally adapt presumed tolerogenic DC phenotypes. Here, immature murine bone-marrow derived DC representing both inflammatory and conventional DC subsets adapted a maturationresistant DC signature upon apoptotic cell recognition but no additional tolerogenic features. Immature DC instruct CD4+ FoxP3+ regulatory T cells in a TGF-β prone micro-environment or generate anergic CD4+ T cells hampered in the TCR-induced proliferation and IL-2 secretion. Secondary stimulation of such anergic CD4+ T cells by immature DC increased primarily IL-10 production and conferred regulatory function. These IL-10+ regulatory T cells expressed high levels of CTLA-4, which is potently induced by immature DC in particular. Data in this work showed that anergic T cells can be re-programmed to become IL-10+ regulatory T cells upon ligation of CTLA-4 and CD28 signalling cascades by B7 costimulatory ligands on immature DC. In contrast, semi-mature DC phenotypes conditioned by the inflammatory mediator TNF prevented autoimmune disorders by induction of IL-10+ Th2 responses as demonstrated previously. Here, it was shown that TNF as an endogenous maturation stimulus and pathogenic Trypanosoma brucei variant-specific surface glycoproteins (VSG) induced highly similar DC gene expression signatures which instructed default effector Th2 responses. Repetitive administration of the differentially conditioned semi-mature DC effectively skewed T cell immunity to IL-10+ Th2 cells, mediating immune deviation and suppression. Collectively, the data presented in this work provide novel insights how immature and partially mature DC phenotypes generate T cell tolerance mechanisms in vitro, which has important implications for the design of effective DC-targeted vaccines. Unravelling the DC maturation signatures is central to the long-standing quest to break tolerance mimicked by malignant tumours or re-establish immune homeostasis in allergic or autoimmune disorders.
Die Unterscheidung zwischen körpereigenen und körperfremden Strukturen ist eine grundlegende Herausforderung der spezifischen Immunantwort. Pathologische Veränderungen dieser Abgrenzung können zu schwerwiegenden Autoimmunerkrankungen wie beispielsweise Diabetes Mellitus, Rheumatischer Arthritis oder Multipler Sklerose führen. Um unerwünschte (Auto-) Immunreaktionen zu verhindern, existieren verschiedene Formen von peripheren Toleranzmechanismen, die durch viele Transkriptionsfaktoren wie z. B. ICER (inducible cAMP early repressor), NFAT (nuclear factor of activated T cells) und Foxp3 (forkhead box protein p3) kontrolliert werden. Foxp3+ regulatorische T-Zellen (Tregs) sind spezialisierte immun-suppressive Lymphozyten, welche die Aktivierung anderer Immunzellen unterdrücken können. Einer der möglichen Mechanismen ist der Transfer zyklischen Adenosin-Monophosphats (cAMP) von Tregs in konventionelle T- und B-Lymphozyten. Die erhöhte intrazelluläre Konzentration an cAMP führt in Effektorzellen zur Induktion und Kerntranslokation von ICER. Der transkriptionelle Repressor ICER supprimiert die Expression vieler NFAT-regulierter Gene und hemmt darüber hinaus die Induktion der NFATc1/αA-Isoform selbst. Diese Isoform wird speziell in pro-inflammatorischen Effektorzellen hochreguliert und ist maßgeblich an deren spezifischem transkriptionellen Programm beteiligt. Foxp3 ist ein zentraler Faktor für die Bildung und Funktion sowohl Thymus-generierter nTregs als auch peripher (TGFβ-) induzierter iTregs. Die Kontrolle des Foxp3-Gens wird in iTregs – überraschenderweise aber nicht in nTregs – durch NFAT-Faktoren reguliert. Allerdings hemmt Foxp3 durch eine negative Rückkopplung wiederum die Induktion und Aktivität von NFATc1/αA. Dies stellt somit ein weiteres Regulativ dar, wobei Foxp3 nicht nur die Plastizität, sondern auch die Funktion von immun-suppressiven T-Zellen steuert. Zusätzlich regulieren die verschiedenen NFAT-Faktoren auch die Antigen präsentierenden dendritischen Zellen (DCs). Während NFATc1 und NFATc2 die Differenzierung und Proliferation von DCs beeinflussen, reguliert NFATc3 deren Zytokinexpression und steuert indirekt auch die nachfolgende T-Zell-Immunantwort. Die Kontrolle der Genregulation in Immunzellen durch die Transkriptionsfaktoren ICER, NFAT und Foxp3 erfüllt somit spezifische Funktionen der Immunität, reguliert aber gleichzeitig wichtige Aspekte der peripheren Toleranz, um schädliche (Auto-) Immunreaktionen zu verhindern.
Die asexuellen Sporen von Aspergillus fumigatus sind ubiquitär verbreitete Luftkeime. Als Saprophyt ist dieser opportunistisch humanpathogene Pilz darauf spezialisiert, polymere Substanzen aus dem umgebenden Milieu zu zersetzen, um daraus die von ihm benötigten Nährstoffe zu generieren und aufzunehmen. Die Fähigkeit, verschiedene Stickstoff- und Kohlenstoffquellen zu verwerten, trägt dabei zu seiner Virulenz bei und hierbei scheint die extrazelluläre Proteolyse eine wichtige Rolle zu spielen. Sekretierte Proteasen, die das umgebende Gewebe während einer Infektion mit A. fumigatus erschließen, könnten somit zu dessen Pathogenität beitragen. Dementsprechend sollte im Rahmen dieser Arbeit die Bedeutung einer Regulation der extrazellulären proteolytischen Aktivität von A. fumigatus für dessen Virulenz untersucht werden. Dies geschah durch Untersuchungen eines konservierten Transkriptionsfaktors, PrtT. Dabei stellte sich heraus, dass PrtT die Expression der drei Hauptproteasen von A. fumigatus, Alp, Mep und Pep stark beeinflusst, in einem murinen Tiermodell der pulmonaren Aspergillose scheint dieser Regulator jedoch keine Rolle für die Pathogenität von A. fumigatus zu spielen. Um einen weiteren Aspekt des pilzlichen Aminosäurestoffwechsels zu beleuchten, wurde die Biosynthese der aromatischen Aminosäuren als mögliche Virulenzdeterminate untersucht. Für den Menschen sind diese Aminosäuren essentiell, weshalb dieser Syntheseweg ein mögliches Ziel für antimykotische Substanzen darstellen könnte. Es konnten mehrere für A. fumigatus essentielle Komponenten des Shikimatweges identifiziert werden, des Weiteren wurden Deletionsmutanten in den Genen aroC und trpA, die für die Chorismatmutase bzw. Anthranilatsynthase der Biosynthese von Phenylalanin und Tyrosin bzw. Tryptophan kodieren, erzeugt und phänotypisch charakterisiert. Deren Untersuchung in einem alternativen Tiermodell der Aspergillose zeigte eine deutlich attenuierte Virulenz. Diese Ergebnisse verdeutlichen, wie wichtig die Biosynthese der aromatischen Aminosäuren für das Wachstum von A. fumigatus ist, und dass ein Eingriff in diesen Syntheseweg eine lohnende Strategie zur Entwicklung neuer Antimykotika sein könnte. Die hier präsentierten Ergebnisse unterstreichen die für den Schimmelpilz A. fumigatus typische Redundanz bezüglich extrazellulärer proteolytischer Enzyme und dass diese nur bedingt hinsichtlich ihres Virulenzbeitrags untersucht werden können. Im Gegensatz hierzu lassen sich bestimmte Stoffwechselwege, die oftmals durch einzigartige Genprodukte katalysiert werden, unter Umständen besser als unspezifische aber vielversprechende Virulenzdeterminanten identifizieren.
XPD is a 5‘-3‘ helicase of the superfamily 2. As part of the transcription factor IIH it functions in transcription initiation and nucleotide excision repair. This work focus on the role of XPD in nucleotide excision repair. NER is a DNA repair pathway unique for its broad substrate range. In placental mammals NER is the only repair mechanism able to remove lesions induced by UV-light. NER can be divided into four different steps that are conserved between pro- and eukaryotes. Step 1 consists of the initial damage recognition, during step 2 the putative damage is verified, in step 3 the verified damage is excised and in the 4th and final step the resulting gap in the DNA is refilled. XPD was shown to be involved in the damage verification step. It was possible to solve the first apo XPD structure by a MAD approach using only the endogenous iron from the iron sulfur cluster. Based on the apo XPD structure several questions arise: where is DNA bound? Where is DNA separated? How is damage verification achieved? What is the role of the FeS cluster? These questions were addressed in this work. Hypothesis driven structure based functional mutagenesis was employed and combined with detailed biochemical characterization of the variants. The variants were analyzed by thermal unfolding studies to exclude the possibility that the overall stability could be affected by the point mutation. DNA binding assays, ATPase assays and helicase assays were performed to delineate amino acid residues important for DNA binding, helicase activity and damage recognition. A structure of XPD containing a four base pair DNA fragment was solved by molecular replacement. This structure displays the polarity of the translocated strand with respect to the helicase framework. Moreover the properties of the FeS cluster were studied by electron paramagnetic resonance to get insights into the role of the FeS cluster. Furthermore XPD from Ferroplasma acidarmanus was investigated since it was shown that it is stalled at CPD containing lesions. The data provide the first detailed insight into the translocation mechanism of a SF2B helicase and reveal how polarity is achieved. This provides a basis for further anlayses understanding the combined action of the helicase and the 4Fe4S cluster to accomplish damage verification within the NER cascade.
Type 1 diabetes is an autoimmune disease that leads to the destruction of insulin-producing pancreatic beta cells and consequently to hyperglycemia. In the last 60 years, the prevalence of type 1 diabetes has been increasing constantly and is predicted to continue rising. About 80% of the disease risk is attributable to the genetic variation. Thanks to genome wide association studies the number of known disease-associated polymorphisms climbed from five to 53 in the last 10 years. As these studies reveal possible candidate genes but not underlying mechanisms we strove to take the next step and explore the association of two genes suggested by these studies with type 1 diabetes. As a method of choice we decided to use lentiviral RNAi in non obese diabetic (NOD) mice, a widely-used model for type 1 diabetes, introducing a shRNA directed against the target message into the genome of this mouse strain via a lentivirus. This allowed us to study the partial loss-of-function of the target gene within the context of diabetes, directly seeing its effect on autoimmune mechanisms. In this thesis we examined two different genes in this manner, Ctla4 and Clec16a. A type 1 diabetes associated polymorphism in the CTLA4 gene had been found to alter the splicing ratio of its variants soluble CTLA-4 (sCTLA-4) and full length CTLA-4, the associated allele producing less sCTLA-4 than the protective allele. We mimicked this effect by specifically targeting the sCtla4 mRNA via lentiviral RNAi in the NOD model. As a result we could confirm the reduction of sCTLA-4 to accelerate type 1 diabetes development. Furthermore we could show a function of sCTLA-4 in regulatory T cells, more specifically at least partly in their ability to modulate costimulation by antigen presenting cells. The second candidate gene, Clec16a was targeted with the shRNA in a way that was designed to knock down most splice variants. As the gene function and the effect of the associated SUMMARY 10 polymorphism was unknown, we reasoned this method to be feasible to investigate its role in type 1 diabetes. The knockdown of Clec16a in NOD mice resulted in an almost complete protection from diabetes development that could be attributed to T cells dysfunction. However, as expression patterns and a study of the Drospophila orthologue suggested a possible role of CLEC16A in antigen presentation we also examined antigen presenting cells in the thymus and periphery. Although we did not detect any effect of the knockdown on peripheral antigen presenting cells, thymic epithelial cells were clearly affected by the loss of CLEC16A, rendering them more activated and shifting the ratio of cortical to medullary epithelial cells in favor of cortical cells. We therefore suggest a role of CLEC16A in the selection of T cells, that needs, however, to be further investigated. In this thesis we provided a feasible and fast method to study function of genes and even of single splice variants within the NOD mouse model. We demonstrate its usefulness on two candidate genes associated with type 1 diabetes by confirming and unraveling the cause of their connection to the disease.
Single-molecule microscopy is one of the decisive methodologies that allows one to clarify cellular signaling in both spatial and temporal dimentions by tracking with nanometer precision the diffusion of individual microscopic particles coupled to relevant biological molecules. Trajectory analysis not only enables determination of the mechanisms that drive and constrain the particles motion but also to reveal crucial information about the molecule interaction, mobility, stoichiometry, all existing subpopulations and unique functions of particular molecules. Efficacy of this technique depends on two problematic issues the usage of the proper fluorophore and the type of biochemical attachment of the fluorophore to a biomolecule. The goal of this study was to evolve a highly specific labeling method suitable for single molecule tracking, internalization and trafficking studies that would attain a calculable 1:1 fluorophore-to-receptor stoichiometry. A covalent attachment of quantum dots to transmembrane receptors was successfully achieved with a techinque that amalgamates acyl carrier protein (ACP) system as a comparatively small linker and coenzyme A (CoA)-functionalized quantum dots. The necessity of optimization of the quantum dot usage for more precise calculation of the membrane protein stoichiometries in larger assemblies led to the further study in which methods maximizing the number of signals and the tracking times of diverse QD types were examined. Next, the optimized techniques were applied to analyze behavior of interleukin-5 β-common chain receptor (IL-5Rβc) receptors that are endogenously expressed at low level on living differentiated eosinophil-like HL-60 cells. Obtained data disclosed that perused receptors form stable and higher order oligomers. Additionally, the mobility analysis based on increased in number (>10%) uninterrupted 1000-step trajectories revealed two patterns of confined motion. Thereupon methods were developed that allow both, determination of stoichiometries of cell surface protein complexes and the acquisition of long trajectories for mobility analysis. Sequentially, the aforementioned methods were used to scrutinize on the mobility, internalization and recycling dynamics characterization of a G protein-coupled receptor (GPCRs), the parathyroid hormone receptor (PTHR1) and several bone morphogenetic proteins (BMPs), a member of the TGF-beta superfamily of receptors. These receptors are two important representatives of two varied membrane receptor classes. BMPs activate SMAD- and non-SMAD pathways and as members of the transforming growth factor β (TGF-β) superfamily are entailed in the regulation of proliferation, differentiation, chemotaxis, and apoptosis. For effective ligand induced and ligand independent signaling, two types of transmembrane serine/threonine kinases, BMP type I and type II receptors (BMPRI and BMPRII, respectively) are engaged. Apparently, the lateral mobility profiles of BMPRI and BMPRII receptors differ markedly, which determinate specificity of the signal. Non-SMAD signaling and subsequent osteoblastic differentiation of precursor cells particularly necessitate the confinement of the BMP type I receptor, resulting in the conclusion that receptor lateral mobility is a dominative mechanism to modulate SMAD versus non-SMAD signaling during differentiation. Confined motion was also predominantly observed in the studies devoted to, entailed in the regulation of calcium homeostasis and in bone remodeling, the parathyroid hormone receptor (PTHR1), in which stimulation with five peptide ligands, specific fragments of PTH: hPTH(1–34), hPTHrP(107–111)NH2; PTH(1–14); PTH(1–28) G1R19, bPTH(3–34), first four belonging to PTH agonist group and the last to the antagonist one, were tested in the wide concentration range on living COS-1 and AD293 cells. Next to the mobility, defining the internalization and recycling rates of the PTHR1 receptor maintained in this investigation one of the crucial questions. Internalization, in general, allows to diminish the magnitude of the receptor-mediated G protein signals (desensitization), receptor resensitization via recycling, degradation (down-regulation), and coupling to other signaling pathways (e.g. MAP kinases). Determinants of the internalization process are one of the most addressed in recent studies as key factors for clearer understanding of the process and linking it with biological responses evoked by the signal transduction. The internalization of the PTH-receptor complex occurs via the clathrin-coated pit pathway involving β-arrestin2 and is initiated through the agonist occupancy of the PTHR1 leading to activation of adenylyl cyclase (via Gs), and phosphatidylinositol-specific phospholipase Cβ (via Gq). Taken together, this work embodies complex study of the interleukin-5 β-common chain receptor (IL-5Rβc) receptors, bone morphogenetic proteins (BMPs) and the parathyroid hormone receptor with the application of single-molecule microscopy with the newly attained ACP-quantum dot labeling method and standard techniques.
When there is an imbalance between reactive oxygen species (ROS) and endogenous antioxidants (glutathione (GSH), superoxide dismutase (SOD), catalase etc.) the oxidative stress is increased and results in the oxidation of lipids, proteins and DNA. Although oxidation of lipids and proteins may also accumulates with age, only DNA oxidation leads to altered genomic information. As one pathway for increased ROS production, many endogenous and exogenous substances activate NADPH oxidase (NOX) enzyme and produce ROS. p47phox is a cytosolic organizer protein which plays an important role in NOX activation. Angiotensin II (Ang II) is an example for an endogenous compound which causes ROS through NOX activation. Rosuvastatin is an example for a drug with antioxidative capacity (upregulation of endogenous antioxidants). It is a lipid lowering drug which also reduces an elevated level of angiotensin II type 1 receptor (AT1R). Commonly, oxidative stress is elevated in ageing and age related diseases (eg. Parkinson’s disease (PD)). The aim of the present study was to investigate the role of NOX derived ROS induced oxidative DNA damage and the influence of ROS in ageing and age related diseases, using different in vitro and in vivo models.
There is evidence that pheromones are communicative signals in animals. However, the existence and function of human pheromones are still under discussion. During the last years several substances have been labeled as putative human pheromones and especially 4,16–androstadien-3-one (androstadienone), found in male and female sweat, became subject of intense investigation. In contrast to common odors androstadienone presumably modulates human physiological and psychological reactions. Data suggest that androstadienone might influence the processing of visual cues, specifically faces or affective stimuli, via projections from the fusiform gyrus and the amygdala. Moreover, attentional processes may be modulated, which is supported by explicit and implicit behavioral data. This thesis includes three experimental studies examining effects of androstadienone exposure on behavioral and cortical reactions to visual and emotional stimuli. The main hypotheses were that androstadienone might influence human behavior to and perception of visual cues. The first study sought to clarify androstadienone effects on attention-related reactions as well as on behavioral tendencies. Motoric approach-avoidance reactions in response to happy and angry facial expressions were investigated in 30 women and 32 men. Participants either inhaled androstadienone or a control solution, without knowing the real content, while performing the following task: they had to push away or to pull towards them a joystick as fast as possible in reaction to either an angry or a happy cartoon face, which was presented on a computer screen. Results showed that androstadienone modulated the participant´s task performance by accelerating the reaction speed compared to the control compound. Faster reactions were observed particularly when reacting to angry faces but not when reacting to happy faces. This might be explained by the finding that human body odors, the source of androstadienone, were found to activate the human fear system, i.e. modulating fear-related attentional processes. Therefore, the quicker reaction towards angry faces with exposure to androstadienone could be due to an enhanced allocation of attentional resources towards fear-related cues like angry faces. Results also showed that androstadienone enhanced men´s approach tendency towards faces independent of emotional expressions. This observation might be explained by androstadienone´s former shown ability to improve attractiveness ratings of other persons. In this regard, the endogenous odor might enhance evaluations of faces in men and, thus, might improve their willingness to approach social stimuli. In contrast to men, women already showed in the control condition higher approach tendency towards faces. Therefore, androstadienone might rather maintain than enhance the approach score in women. In the second study event-related brain potentials (ERPs) triggered by social and non-social visual stimuli were investigated by means of electroencephalography. In a double-blind between-subjects design 51 women participated. Twenty-eight women inhaled androstadienone, whereas 23 women inhaled a control solution. Four different picture categories, i.e. real faces, pictures with couples, pictures with social and non-social scenes, each including three different valence categories, i.e. positive, negative and neutral, should clarify the stimulus type or context androstadienone is acting on. The androstadienone compared to the control odor did not influence brain responses significantly. Explorative analyses, however, suggested that androstadienone influences the processing of faces. While in the control group angry faces elicited larger P300 amplitudes than happy faces, the androstadienone group showed similar P300 amplitudes concerning all emotional expressions. This observation tentatively indicates that the endogenous odor might indeed affect the neuronal responses to emotional facial stimuli, especially late components reflecting evaluative processes. However, this observation has to be verified and further investigated, in particular whether androstadienone caused reduced responses to angry faces or enhanced responses to happy faces. The third study investigated androstadienone effects on face processing especially in men. ERPs elicited by happy, angry and neutral cartoon faces, which were presented on a computer screen, were measured while 16 men, not knowing the applicated odor, inhaled either androstadienone or a control solution. Exposure to androstadienone significantly increased later neuronal responses, the P300 amplitude. This belated component of the ERP reflects attention allocation and evaluative processes towards important stimuli. Therefore, androstadienone might facilitate central nervous face processing by enhancing attention towards these stimuli. In sum, the current results corroborate the notion of androstadienone as an active social chemosignal. In minute amounts and not detectable as an odor it influenced cortical and motoric reactions. Therefore, it might be concluded that androstadienone indeed affects cognitive functions like attentional processes and in turn affects our behavior. The current results further support the notion that androstadienone acts like a human modulator pheromone, namely modulating ongoing behavior or a psychological reaction to a particular context, changing stimulus sensitivity, salience and sensory-motor integration. However, these conclusions remain tentative until further replication takes place, best in ecologically valid environments. Furthermore, one has to keep in mind that the current studies could not replicate several previous findings and could not verify some hypotheses assuming communicative effects of androstadienone. Thus, the main assumption of this thesis that androstadienone is an active chemosignal is still challenged. Also, whether the term “pheromone” is indeed suitable to label androstadienone remains open.
While beneficial sponge-microbe associations have received much attention in recent years, less effort has been undertaken to investigate the interactions of sponges with potentially pathogenic microorganisms. Thus, the aim of this study was to examine two selected Caribbean disease conditions, termed “Sponge Orange Band” and “Sponge White Patch”, via ecological and molecular methods. Sponge Orange Band (SOB) disease affects the prominent Caribbean barrel sponge Xestospongia muta that is counted among the high-microbial-abundance (HMA) sponges, whereas Sponge White Patch (SWP) disease affects the abundant rope sponge Amphimedon compressa that belongs to the low-microbial-abundance (LMA) sponges. I have documented for both Caribbean sponge diseases a disease progression going along with massive tissue destruction as well as loss of the characteristic microbial signatures. Even though new bacteria were shown to colonize the bleached areas, the infection trials revealed in both cases no indication for the involvement of a microbial pathogen as an etiologic agent of disease leaving us still in the dark about the cause of Sponge Orange Band as well as Sponge White Patch disease.
Der Hefepilz Candida albicans gehört zu den fakultativ pathogenen Infektionserregern und ist Teil der natürlichen Mikroflora der Schleimhäute des Verdauungs- und Urogenitaltraktes der meisten gesunden Menschen. Ist das Gleichgewicht der Flora gestört, kann es zu oberflächlichen Mykosen kommen, wie z.B. der oropharyngealen Candidiasis (Mundsoor), die in der Regel durch die Gabe eines Antimykotikums in wenigen Tagen zu behandeln sind. In seltenen Fällen kann es auch zu schwerwiegenden Infektionsverläufen bis hin zu lebensbedrohlichen systemischen Mykosen kommen. Hauptsächlich immunsupprimierte Patienten, wie z.B. AIDS-Patienten oder Personen, die kürzlich einer Organ- oder Knochenmarkstransplantation unterzogen wurden, leiden häufig an oberflächlichen C. albicans-Infektionen. Insbesondere bei wiederkehrenden Infektionen ist der Pilz in der Lage, gegen das häufig verabreichte Medikament Fluconazol eine Resistenz zu entwickeln. Ein wichtiger Mechanismus dieser Resistenzentwicklung ist die Überexpression von Effluxpumpen, die das Medikament aus der Zelle heraustransportieren. Zwei Arten von Effluxpumpen, die eine Rolle in der Resistenzentwicklung in C. albicans spielen, konnten bisher identifiziert werden, die ABC (ATP binding cassette)-Transporter Cdr1 und Cdr2 sowie der MFS (major facilitator superfamily)-Transporter Mdr1. Der Zinc-Cluster Transkriptionsfaktor Mrr1 spielt eine wichtige Rolle in der Regulation der MDR1-E¬ffluxpumpe. Er kontrolliert die MDR1-Expression in Anwesenheit induzierender Substanzen und sogenannte "gain-of-function" Mutationen in MRR1 konnten als die Ursache der konstitutiven MDR1-Hochregulierung und der "Multidrug-Resistance" in C. albicans identifiziert werden. In dieser Arbeit konnte ein Ortholog zu MRR1 aus C. albicans in Candida dubliniensis, einer zu C. albicans nahe verwandten Hefe, identifiziert werden. Es wurde gezeigt, dass in den untersuchten klinischen und in vitro generierten Fluconazol-resistenten C. dubliniensis-Stämmen ebenfalls gain-of-funcion Mutationen in MRR1 die MDR1-Überexpression und eine Resistenz bewirken. Die Ergebnisse demonstrieren, dass der Transkriptionsfaktor Mrr1 eine wichtige Rolle in der Entwicklung der Resistenz in diesen humanpathogenen Pilzen spielt. Bisher ist nicht bekannt, wie der Zinc-Cluster Transkriptionsfaktor MRR1 durch induzierende Substanzen oder gain-of-function Mutationen aktiviert wird. Um zu verstehen, wie die Mrr1- Aktivität reguliert wird, wurden in dieser Arbeit durch Deletionsstudien funktionelle Domänen des Transkriptionsfaktors identifiziert. Um einen besseren Einblick in die Regulation der MDR1-vermittelten Resistenz in C. albicans zu bekommen, wurde in dieser Arbeit die gegenseitige Abhängigkeit von Mrr1 und Cap1 bzw. Upc2 in Bezug auf die MDR1-Expression untersucht. Es wurden ChIP-on-chip Analysen und Transkriptionsprofile mit aktiviertem Mrr1 durchgeführt, um direkte Targets von Mrr1 zu identifizieren. Mit der vorliegenden Arbeit wurde ein wichtiger Beitrag zum Verständnis der Entwicklung der Multidrug-Resistenz in C. albicans geleistet. E¬ffluxpumpen und deren Regulatoren stellen in der Bekämpfung von C. albicans-Infektionen ein interessantes Angriffsziel für die Entwicklung neuer Medikamente und die Weiterentwicklung bereits vorhandender Antimykotika dar.
Urinary tract infection (UTI) is one of the most serious health problems worldwide. It accounts for a million hospital visits annually in the United States. Among the many uropathogenic bacteria, uropathogenic Escherichia coli (UPEC) is the most common causative agent of UTI. However, not all E. coli that inhabit the urinary tract can cause UTI. Some of them thrive for long periods of time in the urinary bladder without causing overt symptoms of infection. This carrier state is called asymptomatic bacteriuria (ABU). E. coli ABU isolates can live in the host without inducing host response due to deletions, insertions and point mutations in the genome leading to the attenuation of virulence genes. They therefore behave in the same way as commensals. Since bacteria that inhabit the urinary tract are said to originate from the lower intestinal tract and ABU behave in a similar way as commensals, this study compared various phenotypic and genotypic characteristics of ABU and commensal E. coli fecal isolates. The two groups did not show a strict clustering with regards to phylogenetic lineage since there appears to be overlaps in their distribution in some clonal complexes. In addition, it was observed that the UPEC virulence genes were more frequently inactivated in ABU than in fecal isolates. Hence, ABU tend to have less functional virulence traits compared to the fecal isolates. The ABU model organism E. coli 83972 which is known not only for its commensal behavior in the urinary bladder but its ability to outcompete other bacteria in the urinary tract is currently being used as prophylactic treatment in patients who have recurrent episodes of UTI at the University Hospital in Lund, Sweden. The pilot studies showed that upon deliberate long-term colonization of the patients with E. coli 83972, they become protected from symptomatic UTI. In this study, the phenotypic and genotypic characteristics of eight re-isolates taken from initially asymptomatically colonized patients enrolled in the deliberate colonization study who reported an episode of symptoms during the colonization period were investigated. Two out of the eight re-isolates were proven to be a result of super infection by another uropathogen. Six re-isolates, on the other hand, were E. coli 83972. The urine re-isolates confirmed to be E. coli 83972 were phenotypically heterogeneous in that they varied in colony size as well as in swarming motility. Four of these re-isolates were morphologically homogenous and similar to the parent isolate E. coli 83972 whereas one of them appeared phenotypically heterogenous as a mixture of smaller and normal-sized colonies. Still another re-isolate phenotypically resembled small colony variants. Meanwhile, three of the six re-isolates did not differ from the parent isolate with regards to motility. On the other hand, three exhibited a markedly increased motility compared to the parent isolate. Transcriptome analysis demonstrated the upregulation of a cascade of genes involved in flagellar expression and biosynthesis in one of the three motile re-isolates. However, upon further investigation, it was found out that the expression of flagella had no effect on bacterial adhesion to host cells in vitro as well as to the induction of host inflammatory markers. Thus, this implies that the increased motility in the re-isolates is used by the bacteria as a fitness factor for its benefit and not as a virulence factor. In addition, among the various deregulated genes, it was observed that gene regulation tends to be host-specific in that there is no common pattern as to which genes are deregulated in the re-isolates. Taken together, results of this study therefore suggest that the use of E. coli 83972 for prophylactic treatment of symptomatic UTI remains to be very promising.
In this thesis I studied psychological aspects in the behaviour of Drosophila, and especially Drosophila larvae. After an introduction where I present the general scientific context and describe the mechanisms of olfactory perception as well as of classical and operant conditioning, I present the different experiments that I realised during my PhD. Perception The second chapter deals with the way adult Drosophila generalise between single odours and binary mixtures of odours. I found that flies perceive a mixture of two odours as equally similar to the two elements composing it; and that the intensity as well as the physico-chemical nature of the elements composing a mixture affect the degree of generalisation between this mixture and one of its elements. These findings now call for further investigation on the physiological level, using functional imaging. Memory The third chapter presents a series of experiments in Drosophila larvae in order to define some characteristics of a new protocol for classical aversive learning which involves associating odours with mechanical disturbance as a punishment. The protocol and the first results should open new doors for the study of classical conditioning in Drosophila larvae, by allowing the comparison between two types of aversive memory (gustatory vs. mechanical reinforcement), including a comparison of their neurogenetic bases. It will also allow enquiries into the question whether these respective memories are specific for the kind of reinforcer used. Agency The fourth chapter documents our attempts to establish operant memory in Drosophila larvae. By analysing the first moments of the test, I could reveal that the larvae modified their behaviour according to their previous operant training. However, this memory seems to be quickly extinguished during the course of the test. We now aim at repeating these results and improving the protocol, in order to be able to systematically study the mechanisms allowing and underlying operant learning in Drosophila larvae. In the fifth chapter, I use the methods developed in chapter four for an analysis of larval locomotion. I determine whether larval locomotion in terms of speed or angular speed is affected by a treatment with the “cognitive enhancer” Rhodiola rosea, or by mutations in the Synapsin or SAP47 genes which are involved in the formation of olfactory memory. I also characterize the modifications induced by the presence of gustatory stimuli in the substrate on which the larvae are crawling. This thesis thus brings new elements to the current knowledge of Drosophila
Growth factor induced signaling cascades are key regulatory elements in tissue development, maintenance and regeneration. Deregulation of the cascades has severe consequences, leading to developmental disorders and neoplastic diseases. As a major function in signal transduction, activating mutations in RAF family kinases are the cause of many human cancers. In the first project described in this thesis we focused on B-RAF V600E that has been identified as the most prevalent B-RAF mutant in human cancer. In order to address the oncogenic function of B-RAF V600E, we have generated transgenic mice expressing the activated oncogene specifically in lung alveolar epithelial type II cells. Constitutive expression of B-RAF V600E caused abnormalities in alveolar epithelium formation that led to airspace enlargements. These lung lesions showed signs of tissue remodeling and were often associated with chronic inflammation and low incidence of lung tumors. Inflammatory cell infiltration did not precede the formation of emphysema-like lesions but was rather accompanied with late tumor development. These data support a model where the continuous regenerative process initiated by oncogenic B-RAF-driven alveolar disruption provides a tumor-promoting environment associated with chronic inflammation. In the second project we focused on wild type B-RAF and its role in an oncogenic-C-RAF driven mouse lung tumor model. Toward this aim we have generated compound mice in which we could conditionally deplete B-RAF in oncogenic-C-RAF driven lung tumors. Conditional elimination of B-RAF did not block lung tumor formation however led to reduced tumor growth. The diminished tumor growth was not caused by increased cell death instead was a consequence of reduced cell proliferation. Moreover, B-RAF ablation caused a reduction in the amplitude of the mitogenic signalling cascade. These data indicate that in vivo B-RAF is dispensable for the oncogenic potential of active C-RAF; however it cooperates with oncogenic C-RAF in the activation of the mitogenic cascade.
Die Therapie von bakteriellen Infektionen beruht heutzutage zum Großteil auf dem Einsatz von Antibiotika. Die schnelle Entwicklung und rasche Verbreitung von resistenten Stämmen mancher Erreger gegen diese Antibiotika stellt ein enormes Problem für das Gesundheitswesen dar. Da momentan zur Antibiotikatherapie keine Alternativen bestehen, kommt der Erforschung neuer potenzieller Wirkstoffe eine sehr große Bedeutung zu. In einem Screening-Verfahren lagen die minimalen Hemmkonzentrationen einiger bisquartärer Bisnaphthalimide gegen Staphylococcus aureus und S. epidermidis im Bereich von 0,6 bis 2,5 µg/ml. Die Substanz mit den geringsten minimalen Hemmkonzentrationen war MT02. Daraufhin wurde das Wirkungsspektrum von MT02 gegen Bakterien detaillierter untersucht und gefunden, dass die Substanz vorwiegend gegen Gram-positive Erreger und nicht gegen Gram-negative Bakterien wirksam ist. Zytotoxizitätstests ergaben eine geringe bis nicht nachweisbare Toxizität gegen verschiedene Zelllinien im Bereich von 73 bis mehr als 150 µg/ml. Um die Wirkungsweise von MT02 genauer zu untersuchen wurden zunächst DNA-Microarray-Untersuchungen an S. aureus durchgeführt. Deren Ergebnisse ließen einen Einfluss der Substanz auf viele Gene des DNA-Metabolismus erkennen. Inkorporationsstudien mittels radioaktiver Ganzzellmarkierung bestätigten die Auswirkung von MT02 auf den DNA-Stoffwechsel. Durch kompetitive Inkubation wurde festgestellt, dass MT02 in der Lage ist Ethidiumbromid von DNA zu verdrängen bzw. dessen Bindung zu verhindern. Genauere Untersuchungen mittels Oberflächen-Plasmon-Resonanz ergaben, dass MT02 konzentrationsabhängig, reversibel und sequenzunspezifisch an DNA bindet. Die thermodynamischen Dissoziationskonstanten lagen im Mittel bei ca. 4 x 10-8 mol/l und beschrieben somit eine relativ starke Bindung von MT02 an DNA. Neben diesem primären Wirkungsmechanismus der DNA-Bindung gaben mehrere Befunde Hinweise auf einen sekundären Wirkmechanismus, der die Zellwand-Struktur bzw. Zellwand-Biosynthese beinhaltet. Eine MT02-resistente Mutante von S. aureus HG001 konnte durch vielfaches Passagieren in MT02-haltigem Medium generiert werden. Diese erzeugte bei Wachstum mit hohen Konzentrationen an MT02 einen roten Phänotyp. Die Natur dieses roten Farbstoffes konnte bislang nicht aufgeklärt werden, jedoch gibt es Hinweise, dass dieser auf Abbauprodukte von MT02 zurückzuführen ist. In einem weiteren Projekt wurde mittels Transkriptionsstudien die Auswirkung von verschiedenen bekannten Antibiotika sowie von neuen Wirkstoffen auf das Transkriptom von S. epidermidis untersucht. Die Ergebnisse dieser Studien können durch vergleichende Analysen als Grundlage für die Einordnung des Wirkmechanismus neuer Substanzen dienen.