2 resultados para Gene By Gene

em ArchiMeD - Elektronische Publikationen der Universität Mainz - Alemanha


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Ziel dieser Arbeit war es, die funktionelle Bedeutung des Drosophila melanogaster tumor suppressor Gens lethal(2)tumorous imaginal discs (l(2)tid) durch die Identifikation von molekularen Partnern der vom Gen kodierten Proteine zu etablieren. Mit dem Screening einer Expressionsbibliothek mittels des Hefe-Di-Hybrid-Systems wurde das Protein Patched (Ptc) als ein neues Tid-bindendes Protein identifiziert. Ptc ist ein Zentralregulator der Hedhehog-Signalkette. Diese ist in der Entwicklung konserviert und in manchen humanen Krebsarten verwickelt. Die Tid/Ptc-Interaktion wurde mittels unabhängigen biochemischen Methoden wie dem GST-pulldown-Test oder der Immunopräzipitation überprüft. Außerdem ergaben funktionelle Studien in tumorosen Imaginalscheiben einen möglichen inhibitorischen Effekt von Tid über die Hh Signaltransduktion.Im letzten Teil dieser Arbeit wurde die Interaktion zwischen Tid und dem E-APC-Protein (Adenomatous polyposis coli) bewiesen. Polakis und seine Gruppe zeigten durch Studien mit dem Hefe-Di-Hybrid-System und in vitro, dass das hTid mit dem APC-Protein interagiert. Um dies auch auf Drosophila-Ebene zu überprüfen, wurden Immunopräzipitation-Studien mit den Drosophila-Gegenstücken durchgeführt. Diese Studien zeigen zum ersten Mal eine direkte Interaktion beider Proteine in vivo.

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The cannabinoid type 1 (CB1) receptor is involved in a plethora of physiological functions and heterogeneously expressed on different neuronal populations. Several conditional loss-of-function studies revealed distinct effects of CB1 receptor signaling on glutamatergic and GABAergic neurons, respectively. To gain a comprehensive picture of CB1 receptor-mediated effects, the present study aimed at developing a gain-of-function approach, which complements conditional loss-of-function studies. Therefore, adeno-associated virus (AAV)-mediated gene delivery and Cre-mediated recombination were combined to recreate an innovative method, which ensures region- and cell type-specific transgene expression in the brain. This method was used to overexpress the CB1 receptor in glutamatergic pyramidal neurons of the mouse hippocampus. Enhanced CB1 receptor activity at glutamatergic terminals caused impairment in hippocampus-dependent memory performance. On the other hand, elevated CB1 receptor levels provoked an increased protection against kainic acid-induced seizures and against excitotoxic neuronal cell death. This finding indicates the protective role of CB1 receptor on hippocampal glutamatergic terminals as a molecular stout guard in controlling excessive neuronal network activity. Hence, CB1 receptor on glutamatergic hippocampal neurons may represent a target for novel agents to restrain excitotoxic events and to treat neurodegenerative diseases. Endocannabinoid synthesizing and degrading enzymes tightly regulate endocannabinoid signaling, and thus, represent a promising therapeutic target. To further elucidate the precise function of the 2-AG degrading enzyme monoacylglycerol lipase (MAGL), MAGL was overexpressed specifically in hippocampal pyramidal neurons. This genetic modification resulted in highly increased MAGL activity accompanied by a 50 % decrease in 2-AG levels without affecting the content of arachidonic acid and anandamide. Elevated MAGL protein levels at glutamatergic terminals eliminated depolarization-induced suppression of excitation (DSE), while depolarization-induced suppression of inhibition (DSI) was unchanged. This result indicates that the on-demand availability of the endocannabinoid 2-AG is crucial for short-term plasticity at glutamatergic synapses in the hippocampus. Mice overexpressing MAGL exhibited elevated corticosterone levels under basal conditions and an increase in anxiety-like behavior, but surprisingly, showed no changes in aversive memory formation and in seizure susceptibility. This finding suggests that 2 AG-mediated hippocampal DSE is essential for adapting to aversive situations, but is not required to form aversive memory and to protect against kainic acid-induced seizures. Thus, specific inhibition of MAGL expressed in hippocampal pyramidal neurons may represent a potential treatment strategy for anxiety and stress disorders. Finally, the method of AAV-mediated cell type-specific transgene expression was advanced to allow drug-inducible and reversible transgene expression. Therefore, elements of the tetracycline-controlled gene expression system were incorporated in our “conditional” AAV vector. This approach showed that transgene expression is switched on after drug application and that background activity in the uninduced state was only detectable in scattered cells of the hippocampus. Thus, this AAV vector will proof useful for future research applications and gene therapy approaches.