Global ETD Search

251	Chymotrypsin-like peptidases in insects Bröhan, Gunnar 18 August 2010 (has links) Digestion of proteins in the midgut of lepidopteran larvae relies on different types of peptidases, among the trypsins and chymotrypsins. In this work four chymotrypsinlike peptidases (MsCTLP1–4) were identified from the larval midgut of M. sexta, which are distantly related to another chymotrypsin (MsCT), a previously described peptidase present in the larval midgut of M. sexta. MsCTLP1–4 fit perfectly into a novel subgroup of insect CTLPs by sequence similarity and by the replacement of GP by SA in the highly conserved GDSGGP motif. Examination of MsCTLP expression in different tissues showed that most of the peptidases were predominantly expressed in the anterior and median midgut, while some were found in the Malpighian tubules. Expression analysis of MsCTLPs at different physiological states revealed that the mRNA amounts did not differ considerably in feeding and starving larvae except for MsCTLP2, whose mRNA dropped significantly upon starvation. During molting, however, the mRNA amounts of all MsCTLPs dropped significantly. Immunological determination of MsCTLP1 amounts showed that the mature peptidase was only detectable in the gut lumen of feeding and re-fed larvae, but not in that of starving or molting larvae, suggesting that MsCTLP1 secretion is suspended during starvation or molt. Differential regulation of transcript levels as well as their partial expression in Malpighian tubules might point to a role, which is distinct from digestion for at least some MsCTLPs. In line with this assumption, MsCTLP1 was shown to interact with the chitin synthase 2 (MsCHS2), necessary for chitin synthesis in the course of peritrophic matrix formation in the midgut of M. sexta. The occurrence of this interaction in vivo is supported by colocalization and co-immunoprecipitation. The data suggest that chitin synthesis is controlled by an intestinal proteolytic signaling cascade linking chitin synthase activity to the nutritional state of the larvae. As MsCTLP1 appears to be involved in such signaling cascades, other midgut peptidases could have other targets and may therefore regulate different activities. To gain more insight into the functions of CTLPs, the gene family encoding these peptidases in the genome of the red flour beetle, T. castaneum, was analyzed. Using an extended search pattern, 14 TcCTLP genes were identified that encode peptidases with S1 specificity pocket residues typically found in chymotrypsin-like enzymes. Analysis of the expression patterns of seven TcCTLP genes at various developmental stages revealed that some TcCTLP genes were exclusively expressed in feeding larval and adult stages (TcCTLP-5A/B, TcCTLP-6A). Others were also detected in non-feeding embryonic (TcCTLP-5C, TcCTLP-6D) and pupal stages (TcCTLP-5C, TcCTLP- 6C/D/E). TcCTLP genes were expressed predominantly in the midgut where they presumably function in digestion. However, TcCTLP-5C and TcCTLP-6C also showed considerable expression in the carcass. The latter two genes might therefore encode peptidases that act as molting fluid enzymes. To test this hypothesis, western blots were performed using protein extracts from larval exuviae. The extracts reacted with antibodies to TcCTLP-5C and TcCTLP-6C suggesting that the corresponding peptidases are secreted into the molting fluid. Finally, systemic RNAi experiments were performed. While injections of dsRNAs to TcCTLP-5A/B and TcCTLP-6A/D/E into penultimate larvae did not affect growth or development, injection of dsRNA for TcCTLP-5C and TcCTLP-6C resulted in severe molting defects. Recombinant expressed TcCTLP-5C2 was moreover activated by trypsin and was able to hydrolyze AAPF, hence making TcCTLP-5C the first described chymotrypsin-like peptidase ever to be involved in molting. Chymotrypsin Insects Chymotrypsin-like peptidase Midgut Chitin synthesis Peritrophic matrix Serine peptidase Cuticle Molting fluid RNA interference Manduca sexta Tribolium castaneum Coleoptera Lepidoptera ddc:570 ddc:590
252	Strukturelle und funktionale Veränderungen der atrialen Kalzium-Freisetzungseinheit im Herzinsuffizienzmodell durch Junctophilin-2-Knockdown / Structural und functional changes of the atrial calcium release unit in a heart failure model induced by junctophilin 2 knockdown Eikenbusch, Benjamin 25 March 2021 (has links) No description available. 610 TATS JPH2 JP2 Knockdown Junctophilin-2 CRU JMC Tamoxifen RNA interference Atria Atrial cardiomyocytes Heart failure Pathological remodeling Atrial dysfunction RyR2 STED Medizin (PPN619874732)
253	In Vivo RNAi Rescue in Drosophila melanogaster with Genomic Transgenes from Drosophila pseudoobscura Schnorrer, Frank, Tomancak , Pavel, Schönbauer, Cornelia, Ejsmont, Radoslaw K., Langer, Christoph C. H. 10 December 2015 (has links) (PDF) Background Systematic, large-scale RNA interference (RNAi) approaches are very valuable to systematically investigate biological processes in cell culture or in tissues of organisms such as Drosophila. A notorious pitfall of all RNAi technologies are potential false positives caused by unspecific knock-down of genes other than the intended target gene. The ultimate proof for RNAi specificity is a rescue by a construct immune to RNAi, typically originating from a related species. Methodology/Principal Findings We show that primary sequence divergence in areas targeted by Drosophila melanogaster RNAi hairpins in five non-melanogaster species is sufficient to identify orthologs for 81% of the genes that are predicted to be RNAi refractory. We use clones from a genomic fosmid library of Drosophila pseudoobscura to demonstrate the rescue of RNAi phenotypes in Drosophila melanogaster muscles. Four out of five fosmid clones we tested harbour cross-species functionality for the gene assayed, and three out of the four rescue a RNAi phenotype in Drosophila melanogaster. Conclusions/Significance The Drosophila pseudoobscura fosmid library is designed for seamless cross-species transgenesis and can be readily used to demonstrate specificity of RNAi phenotypes in a systematic manner. RNA-Interferenz Schwarzbäuchige Taufliege Drosophila melanogaster Genomforschung Sequenz-Abgleich Larven RNA interference Drosophila melanogaster invertebrate genomics genomic library screening sequence alignment genomic library construction Larvae RNA stem-loop structure ddc:610 rvk:XA 10000
254	Regulation of Drosophila melanogaster body fat storage by store-operated calcium entry Xu, Yanjun 28 April 2017 (has links) No description available. 570 Obesity energy imbalance calcium signaling Drosophila melanogaster fat storage adipose tissue liver stromal interaction molecue (Stim) food intake insulin resistance Transient Induced RNA interference (TI) Adipokinetic hormone (Akh) Biologie (PPN619462639)
255	Mechanisms of specificity in neuronal activity-regulated gene transcription. Lyons, MR, West, AE 08 1900 (has links) The brain is a highly adaptable organ that is capable of converting sensory information into changes in neuronal function. This plasticity allows behavior to be accommodated to the environment, providing an important evolutionary advantage. Neurons convert environmental stimuli into long-lasting changes in their physiology in part through the synaptic activity-regulated transcription of new gene products. Since the neurotransmitter-dependent regulation of Fos transcription was first discovered nearly 25 years ago, a wealth of studies have enriched our understanding of the molecular pathways that mediate activity-regulated changes in gene transcription. These findings show that a broad range of signaling pathways and transcriptional regulators can be engaged by neuronal activity to sculpt complex programs of stimulus-regulated gene transcription. However, the shear scope of the transcriptional pathways engaged by neuronal activity raises the question of how specificity in the nature of the transcriptional response is achieved in order to encode physiologically relevant responses to divergent stimuli. Here we summarize the general paradigms by which neuronal activity regulates transcription while focusing on the molecular mechanisms that confer differential stimulus-, cell-type-, and developmental-specificity upon activity-regulated programs of neuronal gene transcription. In addition, we preview some of the new technologies that will advance our future understanding of the mechanisms and consequences of activity-regulated gene transcription in the brain. / Dissertation Animals Brain-Derived Neurotrophic Factor Chromatin Gene Expression Profiling Gene Expression Regulation Histones Humans Neuronal Plasticity Neurons Promoter Regions, Genetic RNA Interference Receptors, N-Methyl-D-Aspartate Transcription Factors Transcription, Genetic
256	Characterization of proteins involved in the fibers of mimivirus / Caractérisation des protéines impliquées dans la formation des fibres de mimivirus Sobhy, Haitham 26 September 2014 (has links) Les virus géants sont un groupe de virus ADN double brin caractérisés par une taille géante du virion et du génome, et un répertoire de gènes qui comprend environ 450 à 2500 gènes prédits. Une proportion importante de ces gènes (jusqu'à 93%) sont des 'ORFans', ou codent pour des protéines de fonction inconnue. Acanthamoeba polyphaga mimivirus est le premier virus géant découvert, il y a une décennie, par co-culture sur Acanthamoeba spp. Il est le membre prototype de la famille Mimiviridae. Le génome de Mimivirus code pour environ 1000 protéines, parmi lesquelles ~50% n'ont pas d'homologue connu dans les banques de séquences publiques. La capside de Mimivirus a un diamètre d'environ 500 nm et est couverte par une couche dense de fibres, à l'exception de l'un de ses sommets. Ces fibres sont d'environ 130 nm de longueur et se composent d'une tige souple et d'une tête de forme globulaire.Dans ce travail de thèse, nous avons cherché à étudier les gènes impliqués dans la formation des fibres de Mimivirus. Dans ce but, nous avons notamment exprimé des gènes candidats dans E. coli, et nous avons mis au point une stratégie qui a utilisé l'interférence ARN afin d'étudier la fonction et la structure des protéines de Mimivirus. Nous avons annoté quatre protéines associées aux fibres. La stratégie utilisant les petits ARN interférant appliquée ici est originale et a été utilisée pour la première fois pour les virus géants qui infectent les amibes. Elle pourrait permettre de décrypter la fonction des gènes des mimivirus et d'annoter potentiellement des centaines de protéines présentes dans les bases de données publiques, et de différencier l'ADN poubelle des gènes réellement utilisés. / Giant viruses are a group of double stranded DNA viruses that are characterized by a giant virion and genome size, and gene repertoires encompassing approximately 450 to 2500 predicted genes. A substantial proportion of these genes (up to 93%) consists in ORFans, or encodes proteins with unknown functions. Acanthamoeba polyphaga mimivirus is the first giant virus that was discovered, a decade ago, after co-culturing on Acanthamoeba spp. It is the prototype member of the family Mimiviridae. Mimivirus encodes about 1000 proteins, among which ~50% have no known homolog in public sequence databases. The Mimivirus capsid is about 500 nm in diameter and is covered by a dense layer of fibers, except at one of its vertices. These fibers are about 130 nm in length and consist of a soft shaft and a globular shaped head.In this thesis work, we aimed to study the genes involved in the formation of the Mimivirus fibers. For this purpose, we have expressed candidate genes in E. coli, and implemented a strategy that used RNA interference to study the function and structure of Mimivirus proteins. We then succeeded in annotating four proteins as fiber associated proteins. The short interfering RNA strategy that we applied here is original and has been used for the first time in giant viruses that infect amoeba. It could allow deciphering the function of the mimivirus gene repertoires and help annotating hundreds of proteins without known function found in public databases and differentiate between junk DNA and truly used genes. Acanthamoeba Virus géant Mimivirus Nucleocytoplasmic large DNA virus Megavirales Protéines associées aux fibres Interférence par ARN Virophage Entré des virus Acanthamoeba Giant virus Mimivirus Nucleocytoplasmic large DNA virus Megavirales Fiber associated proteins RNA interference Virophage Virus entry
257	La voie de signalisation type insuline dans la différenciation sexuelle chez les Crustacés isopodes - intégration de l'hormone androgène et de facteurs féminisants dans un nouveau contexte / The insulin signalling pathway in the sexual differentiation of Isopod Crustaceans - integration of the androgenic gland hormone and feminizing factors in a new context Herran, Benjamin 10 December 2018 (has links) La différenciation sexuelle des Isopodes dépend d'une hormone sexuelle protéique, l'hormone androgène (HA), caractéristique des Malacostracés. Cet Insulin-Like Peptide suffit à induire par sa présence la différenciation mâle de ces Crustacés. Nous avons identifié in silico le transporteur circulant de l'HA, l'IGFBP-rP1, chez de nombreuses espèces d'Isopodes ainsi qu'à l'échelle des Crustacés. De la même façon, nous avons identifié deux récepteurs transmembranaires, l'IR1 et l'IR2, issus d'une duplication de gène spécifique des Malacostracés. Les patrons d'expression de ces gènes ont été étudiés sur notre espèce modèle, Armadillidium vulgare. Av-IGFBP-rP1 et Av-IR1 sont exprimés de manière ubiquiste et tout au long du développement. Av-IR2 est aussi exprimé à chaque stade de la différenciation mais ce transcrit est quasi-spécifique des glandes androgènes et ovaires. Une approche par ARNi a confirmé l'implication de ces trois protéines dans la voie de signalisation de l'HA. En effet, l'inhibition de l'HA, Av-IGFBP-rP1 et Av-IR1 provoquent l'hypertrophie des glandes androgènes, suggérant leur implication dans une boucle de rétro-contrôle de l'HA. L'inhibition de Av-IR2 semble seulement provoquer la différenciation d'ouvertures génitales femelles. Ces phénotypes sont comparables à ceux des intersexués mâles induits par la bactérie féminisante endogène Wolbachia. Nous montrons cependant que la bactérie altère seulement l'expression de l'HA et pas celle des récepteurs. Enfin, nous avons testé l'effet du bisphénol A mais nous n'observons pas d'altération de la différenciation sexuelle des larves lors d'expositions à ce perturbateur endocrinien exogène. / Sexual differentiation in Isopods relies on a proteinaceous sex hormone called androgenic hormone (AH), specific to Malacostracans. This Insulin-Like Peptide induces male differentiation by its mere presence in these Crustaceans. We identified in silico the circulating carrier of the AH, called IGFBP-rP1, in many Isopod species, but also on the crustacean scale. Similarly, we identified two transmembrane receptors, IR1 and IR2, coming from a gene duplication specific to Malacostracans. The expression patterns of these genes were investigated in our model species, Armadillidium vulgare. Av-IGFBP-rP1 and Av-IR1 are broadly expressed in the animal and throughout development. Av-IR2 is also expressed at each developmental stage but this transcript is almost specific to androgenic glands and ovaries. An RNAi approach has confirmed the implication of these three proteins in the AH signalling pathway. Indeed, the inhibition of AH, Av-IGFBP-rP1 and Av-IR1 induces androgenic gland hypertrophy, suggesting their implication in an AH feedback loop. Av-IR2 inhibition seems to provoke the differentiation of female genital apertures only. These phenotypes are similar to those of male intersexes induced by the endogenous feminizing bacterium Wolbachia. Yet, we show that the bacterium alters the expression of the AH only and not the one of its receptors. Finally, we have tested the effect of bisphenol A but we observe no alteration of the sexual differentiation in larvae upon exposition to this exogenous endocrine disruptor. ARN interférence Crustacé Cloporte Développement Différenciation sexuelle Évolution moléculaire Expression des gènes Hormone androgène Isopodes Perturbateurs endocriniens Wolbachia. RNA interference Crustacean Woodlouse Development Sexual differentiation Molecular evolution Gene expression Androgenic hormone Isopods Endocrine disruptors Wolbachia 573.4 571.882
258	Caracterização da expressão de CD63 e KAI1/CD82 em células de câncer de vulva metastático e não metastático / Characterization of CD63 and KAI1/CD82 expression profile in metastatic and no metastatic vulvar cancer cells Ferreira, Kelly Pedrozo 07 December 2018 (has links) O carcinoma de células escamosas de vulva (CECV) corresponde a cerca de 95% dos tumores vulvares. Apresenta bom prognóstico quando diagnosticado precocemente. O tratamento cirúrgico, embora eficaz, pode ser mutilante e acarreta em sérios danos psicossociais para as pacientes. Embora algumas pesquisas sobre os mecanismos que determinam os comportamentos clínico e biológico dos CECV tenham sido realizadas, ainda há muito a ser investigado. As tetraspaninas (TSPANs) são proteínas de membrana que interagem com diversas moléculas e estão envolvidas em diferentes processos fisiológicos como proliferação e migração celular. Vários estudos associam sua expressão desregulada ao desenvolvimento de cânceres. Resultados anteriores de nosso grupo mostraram maior expressão de CD63 em amostras de pacientes com CECV, e menor expressão de KAI1/CD82, em relação ao tecido normal adjacente. Porém, seu papel nesses tumores permanece incerto. Assim, o objetivo deste trabalho foi caracterizar os perfis de expressão gênica e proteica de CD63 e KAI1/CD82, bem como avaliar os efeitos de sua manipulação genética no comportamento de células de CECV metastático e não metastático. As linhagens utilizadas neste trabalho foram SW954 (ATCC® HTB-117(TM), não metastática) e SW962 (ATCC® HTB-118(TM), metastática). Os ensaios de qRT PCR mostraram maior expressão de CD63, e menor de KAI1/CD82, nas células metastáticas, em relação as não metastáticas. Assim, optou-se pela manipulação transiente somente de CD63 por RNA interferente (RNAi). Os resultados mostraram efeitos significativos de inibição de expressão gênica e proteica de CD63 em ambas linhagens, por qRT PCR e imunocitoquímica (ICQ), respectivamente, porém, a inibição da TSPAN foi mais proeminente nas células metastáticas. A deleção da tetraspanina acarretou em redução significativa da proliferação das células não metastáticas (p < 0.05) e metastáticas (p=0.0022), bem como na migração das células metastáticas (p < 0.05). Assim sendo, os resultados apontam CD63 com relevante papel nos CECV, uma vez que sua inibição compromete a proliferação e capacidade de migração das células tumorais. Além disso, a perda de expressão do supressor de metástases KAI1/CD82 corrobora os dados para outros tipos de canceres. Em conjunto, essas TSPAN, podem ser considerados não só importantes fatores prognósticos no CECV, mas potenciais alvos terapêuticos / Vulvar squamous cell carcinoma (VSCC) accounts about 95% of vulvar tumors. When diagnosed at an early stage, prognosis is usually good. Although effective, surgical treatment can be mutilating and entails serious psychosocial damage to patients. Whilst molecular aspects in VSCCs have been investigated, mechanisms underlying the VSCC clinical and biological behavior are poorly understood. Tetraspanins (TSPANs) are membrane proteins, which can interact with several molecules. In addition, they are involved in physiological processes such as proliferation and migration. Besides that, several studies show the deregulated expression of TSPANs associated with cancer development. Previous results of our group showed higher expression of CD63, and lower expression of KAI1/CD82, in VSCC patient samples, compared to adjacent normal tissue. However, the role of these proteins in vulvar tumors remains uncertain. Thus, the aim of this work was to characterize CD63 and KAI1/CD82 gene and protein expression profile in VSCC metastatic and non-metastatic cells lines, and to investigate the effects of genetic manipulation on these cells behavior. The cell lines used in this work were SW954 (Non-metastatic) and SW962 (metastatic). The qRT PCR assays showed CD63 overexpression and KAI1/CD82 downexpression in the metastatic cells. Thus, we chose to perform transient manipulation of CD63 by interfering RNA (RNAi). The RNAi assays showed significant inhibitory effects of gene and protein expression of CD63 in both cell lines, by qRT PCR and immunocytochemistry (ICC), respectively, however, inhibition of TSPAN was more prominent in metastatic cells. When inhibited, CD63 showed a significant decrease in proliferation of non-metastatic (p < 0.05) and metastatic cells (p=0.0022), as well as migration of metastatic cells (p < 0.05). Therefore, the results point to CD63 playing a relevant role in VSCC, since its inhibition compromises the proliferation and migration capacity of tumor cells. In addition, decrease in the expression of KAI1/CD82 metastasis suppressor corroborates with other data in different types of cancers. Taken together, these TSPANs may be considered not only important prognostic factors in VSCC, but potential therapeutic targets Carcinoma Carcinoma de células escamosas Cell culture techniques Interferência de RNA Kangai-1 protein Neoplasias vulvares Proteína kangai-1 RNA interference squamous cell Técnicas de cultura de células Tetraspanin 30 Tetraspanina 30 Vulvar neoplasms
259	Deregulation transkriptioneller Netzwerke in Abhängigkeit von onkogener KRAS-Signaltransduktion in einem Ovarialkarzinom-Modell Stelniec, Iwona 24 March 2010 (has links) Tumormodelle, in denen die maligne Transformation durch definierte Onkogene experimentell ausgelöst und unterhalten wird, bieten vielfältige Möglichkeiten, die komplexen Mechanismen der Tumorentstehung und Therapieresistenz zu untersuchen und neue Ansätze für Diagnostik und Therapie auszuarbeiten. KRAS-Onkogen-„getriebene“ Transformationsmodelle spiegeln neben anderen tumorspezifischen Veränderungen insbesondere die charakteristischen Änderungen des Transkriptoms wider. In der vorliegenden Arbeit wird ein Modell für Ovarialtumore auf Grundlage von Rose Zellen („Rat ovarian surface epithelium“) verwendet, um die Rolle von Transkriptionsfaktoren, welche durch die KRAS-vermittelte Signaltransduktion hoch reguliert werden, zu untersuchen. Die KRAS-transfomierten Derivate der normalen Rose Zellen zeigen die typischen Merkmale von ankerunabhängigen und invasiven Tumorzellen. Aufgrund der hohen Komplexität sind die Interaktionen zwischen der zytoplasmatischen Signaltransduktion und dem durch sie regulierten Transkriptionsfaktornetzwerk noch weitgehend unverstanden. Die Transkriptionsfaktoren Fosl1, Hmga2, Klf6, JunB, Otx1, Gfi1 und RelA wurden systematisch mittels RNA-Interferenz in KRAS-transformierten Rose Zellen transient ausgeschaltet. Danach wurden Proliferation, Morphologie (epithelial-mesenchymale Transition, EMT) und Ankerunabhängigkeit der Zellen bestimmt. Alle untersuchten Transkriptionsfaktoren beeinflussten die KRAS-induzierten morphologischen Veränderungen teilweise, belegt durch die Abnahme der EMT-Merkmale nach siRNA-vermittelter Ausschaltung. Der Knock-down der Transkriptionsfaktoren Otx1, Gfi1 und RelA hemmte die Proliferation, während Fosl1, Hmga2, Klf6 und JunB die generelle Proliferationsfähigkeit nicht beeinflussten, jedoch spezifisch die ankerunabhängige Proliferation blockierten. Diesen Faktoren kommt daher eine spezifische Funktion in der neoplastischen Transformation zu, da die Ankerunabhängigkeit sehr gut mit der Tumorigenität korreliert ist. Um die Beteiligung der Transkriptionsfaktoren an der Deregulation von Zielgenen zu erfassen, wurden Genexpressionsmuster aller Zellen, in denen jeweils ein Faktor durch siRNA ausgeschaltet war, mittels Microarray-Analyse identifiziert. Auf dieser Grundlage wurde ein Netzwerk-Modell der regulatorischen Interaktionen zwischen den Transkriptionsfaktoren berechnet. Die Existenz der beiden funktionellen Gruppen wurde im Modell bestätigt. Darüber hinaus zeigte sich eine gegenseitige Abhängigkeit des transkriptionellen Netzwerks und der zytoplasmatischen Signaltransduktion, gemessen mittels Proteinanalyse der mitogenabhängigen Signalkinasen (MAPK). Diese wird als kompensatorische Regulation interpretiert, welche trotz Pertubation, experimentell durch siRNA, das effiziente Überleben der transformierten Zellen sicherstellt. Die vorliegende Studie schafft somit die Voraussetzung und Motivation, das reduzierte Netzwerk aus sieben Komponenten auf alle differentiell exprimierten Transkriptionsfaktoren zu erweitern. Möglicherweise behindern solche Regulationskreise in der klinischen Situation die effektive Wirkung zielgerichteter Therapien. / Tumor models, in which malignant transformation was experimentally triggered and maintained through defined oncogenes, offer manifold opportunities to determine the complex mechanisms of tumor progression and resistance to therapies, and to develop new strategies for diagnosis and therapy. Particularly, KRAS oncogene driven models of transformation reflect the characteristic alterations of the transcriptome, among other tumor specific changes. In the present work a model for ovarian cancer based on Rose („Rat ovarian surface epithelium“) cells has been used to evaluate the role of transcription factors, which are up-regulated through KRAS dependent signaling. The KRAS transformed derivates of normal ROSE cells exhibit typical characteristics of anchorage-independent and invasive tumor cells. Due to the high complexity of cellular networks, the interactions between cytoplasmic signalling and their regulated transcription factors are not well understood. The transcription factors Fosl1, Hmga2, Klf6, JunB, Otx1, Gfi1 and RelA were systematically eliminated by transient RNA interference in KRAS transformed ROSE cells. The proliferation, morphology (epithelial-mesenchymal transition, EMT) and anchorage-independence of the cells were determined. All of the selected transcription factors had partial effect on the KRAS induced morphologic changes, documented by reduction of EMT-properties after siRNA treatment. The knock-down of the transcription factors Otx1, Gfi1 and RelA blocked proliferation in general, whereas Fosl1, Hmga2, Klf6 and JunB had no influence on proliferation but specifically blocked the anchorage-independence. Thus, these factors exhibited essential functions in the process of neoplastic transformation, because the anchorage-independence correlates very well with tumorigenicity. In order to elucidate the involvement of the transcription factors in the genetic deregulation of their target genes, microarray based gene expression profiles were determined from all cells in which one factor was eliminated by siRNA. Based on these data, a network model of regulatory interactions among these transcription factors was calculated. The existence of both functional groups was confirmed by the model. Furthermore, an interdependence of the transcriptional networks and cytoplasmatic signaling was observed by protein analysis of the mitogen dependent signal kinases (MAPK). This was interpreted as compensatory regulation, which in spite of experimental perturbation by siRNA, permitted efficient survival of the transformed cells. Thus, the present work provides the basis and motivation to extend the reduced network composed of seven components to all regulated transcription factors. Potentially, such regulatory networks diminish the efficacy of targeted therapies in clinical situations. RNA-Interferenz Signaltransduktion Ovarialtumore KRAS-Onkogen Transkriptionelle Netzwerke Modular response analysis (MRA) ovarian carcinoma signal transduction KRAS oncogene transcriptional networks modular response analysis (MRA) RNA interference 570 Biowissenschaften, Biologie 32 Biologie WE 5320 WW 4120 ddc:570
260	Isoform-spezifische Funktionen mitogen-aktivierter Proteinkinasen in Transkriptionskontrolle und Proliferation Wieland, Anja 06 July 2011 (has links) In vielen humanen Neoplasien findet sich eine erhöhte Aktivität des Raf-Mek-Erk-Signaltransduktionsweges. Zunächst wurde davon ausgegangen, dass diese erhöhte Aktivität hauptsächlich durch die Ras-Onkogene hervorgerufen wird. Doch mittlerweile konnten auch Mutationen der Raf Gene in humanen Neoplasien nachgewiesen werden. Gegen Raf und Mek konnten eine Anzahl von Enzyminhibitoren entwickelt werden. Der Nachteil vieler dieser Inhibitoren ist, dass sie nicht zwischen den einzelnen Kinaseisoformen unterscheiden können. In dieser Arbeit ist es nun das erste Mal gelungen, jede Komponente des Raf-Mek-Erk-Signaltransduktionsweges einzeln mittels RNA Interferenz effizient zu inhibieren. Dabei konnte die Rolle der verschiedenen Isoformen in der Proliferation, Morphologie und Genex-pression von transformierten Zellen definiert werden. In den NIH3T3-pEJ Zellen konnte A-Raf erstmals eine antiapoptotische Rolle zugewiesen werden. Diese Hemmung der Apoptose läuft möglicherweise über einen Mek2-abhängigen Weg und ist an die Mitochondrien gekoppelt. Für die beiden Mek Kinasen konnten unter-schiedliche Funktionen in der Signalweiterleitung gezeigt werden. Mek2 spielt die Hauptrolle in der Aktivierung der beiden Substratkinasen Erk1 und Erk2. Der Verlust der Mek1 Isoform wird dagegen möglicherweise durch eine erhöhte Expression von Mek2 kompensiert und wirkt sich nicht so stark auf die Phosphorylierung von Erk1/2 aus. Durch die Verwendung von Erk1 und Erk2 spezifischen siRNAs konnte eine Trennung zwischen der Proliferationsre-gulation und der Kontrolle der morphologischen Transformation herausgearbeitet werden. Durch die Verwendung von Mikroarrays ist es gelungen, beiden Phänotypen ein Genexpres-sionsprofil zuzuordnen. Neben Unterschieden zwischen den verschiedenen Kinaseisoformen konnten neue, potentielle Feedbacks beschrieben werden. / In many human neoplasia an increased activity of the RAF/MEK/ERK- signaling pathway is found. First it was assumed that this raised activity is caused primarily by the RAS onco-genes. However, meanwhile mutations in the RAF genes could be also proved in human neo-plasia. A number of enzyme inhibitors have been developed against the RAF and MEK pro-teins. The disadvantage of many of these inhibitors is that they cannot distinguish between the different kinase isoforms. In this work it has succeeded the first time to inhibit every compo-nent of the RAF/MEK/ERK- signaling pathway individually by means of interference RNA. Beside this, the role of the different isoforms in the proliferation, morphology and genetic profile of transformed cells could be defined. For the first time A-Raf could be assigned an anti-apoptotic role in NIH3T3-pEJ cells. This inhibition of the apoptosis possibly runs through a Mek2-dependent way and is coupled to the mitochondria. For both Mek kinases different functions could be shown in the downstream signaling. Mek2 plays the leading role in the activation of both downstream kinases Erk1 and Erk2. The loss of the Mek1 isoform expression is possibly compensated through an increased expression of Mek2 and does not affect the phosphorylation of Erk1 / 2 so strongly. A discri-mination between the regulation of proliferation and the control of the morphological trans-formation could be worked out by the use of Erk1 and Erk2 specific siRNAs. By the use of micorarray an expression profile of both phenotypes has assigned. Beside differences between the different kinases new, potential feedback pathways could be described. RNA-Interferenz Raf-Mek-Erk-Signaltransduktionsweg Ras-vermittelte Transformation Mikroarrays RNA interference Raf-Mek-Erk signaling pathway Ras-mediated transformation microarrays 570 Biowissenschaften, Biologie 32 Biologie WD 5060 XH 1800 ddc:570

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