Global ETD Search

271	Untersuchungen zur strukturellen und funktionellen Plastizität des 20S-Proteasoms der Maus und seiner Modulierung durch den Proteasomaktivator PA28 Stohwasser, Ralf 17 November 2000 (has links) Die Studie beinhaltet eine biochemisch-molekularbiologische Analyse des 20S-Proteasoms und seiner Aktivierung durch Proteine der PA28-Familie. Das 20S-Proteasom ist die zentrale Epitop-prozessierende cytosolisch-nukleäre Protease des MHC-Klasse-I-Antigenpräsentationsweges. In Mikroglia, wie auch in anderen Zellen, unterliegt das Proteasom einer Interferon-g-(IFN-g)-vermittelten strukturellen Plastizität, d.h. einer Substitution der Untereinheiten der Aktiven Zentren. Durch diesen Austauschmechanismus werden proteolytische Schnittpräferenzen modifiziert, was für die Hierarchie von cytotoxischen T-Zellantworten von Bedeutung ist. Lipopolysaccharide (LPS) bewirken in Mikroglia ebenfalls Veränderungen der proteasomalen Zusammensetzung des 20S-Komplexes und seines PA700-Aktivators. Dies ist ein Hinweis auf die Rolle des Proteasoms auch bei der Prozessierung von Antigenen des endolysosomalen Antigenpräsentationsweges. Die Modulation der Zusammensetzung des 20S-Proteasoms in Mikroglia durch IFN-g und LPS ist ein weiterer Beleg für die Rolle der Mikroglia bei der zellulären Immunantwort im Zentralnervensystem. Funktionen des Proteasoms in der MHC-Klasse-I-Antigenpräsentation werden durch den Proteasomaktivator PA28 optimiert. Die PA28-Proteinfamilie besteht aus den Proteinen PA28a, PA28b und PA28g. Diese Studie trägt - basierend auf kinetischen Modellierungen, Mutagenese- und Protein-Protein-Interaktionsstudien und Untersuchungen zur MHC-Klasse-I-Antigen-präsentation in PA28-Transfektanten - zur funktionellen Neubewertung dieser drei Proteine bei. Die drei PA28-Proteine sind autonome Aktivatoren des Proteasoms. Heteromere PA28ab-Komplexe verursachen eine stärkere Aktivierung des Proteasoms als die homomeren PA28a-oder PA28b-Komplexe. Das PA28g-Protein ist in vitro ein schwacher Aktivator verschiedener proteasomaler Peptidaseaktivitäten, der dennoch in unserem in vivo-Modell eine verbesserte MHC-Klasse-I-Antigenpräsentation bewirkt. Kinetische Argumente sprechen für Funktionen der PA28a und PA28b-Proteine als Translokasen für Peptidsubstate und -produkte des Proteasoms. Anhand des HBx-Proteins des Hepatitis B-Virus wird die Möglichkeit illustriert, das vorgestellte Modell zur Analyse viraler Faktoren anzuwenden, die mit der Aktivierung des Proteasoms durch PA28 interferieren. / The 20S proteasome is the proteolytic core complex of the main cytoplasmic and nuclear protein degradation system. One of the numerous functions assigned to the 20S proteasome is the generation of antigenic peptides from intracellular proteins. MHC class I surface presentation of antigenic peptides is one key event of the cellular immune response. The presented study was aimed on the biochemical and molecular-biological analysis of the 20S proteasome and its activation by regulatory proteins of the PA28 family. In the brain, microglial cells are the major antigen presenting cells and they respond sensitive to pathologic events. Cultured mouse microglia was used as a model to study the correlation between microglial activation parameters and structural plasticity of the 20S/26S proteasome. In response to interferon-g , constitutive active site subunits were replaced by inducible subunits as described for other cellular systems. These replacements result in altered proteolytic cleavage preferences, indicating that activated microglia adapts its proteasomal subunit composition to the requirements of an optimized MHC class I epitope processing. Since lipopolysaccharide (LPS), a glycolipid of bacterial pathogens, also alters proteasome subunit composition of the 20S proteasome and its activator PA700, a function of microglial proteasome in processing of antigens of the endolysosomal pathway has been postulated. The modulation of the 20S proteasome subunit composition indicates that microglia is part of the cellular immune response in the central nervous system. The proteasome activator PA28 has been reported to optimize MHC class I antigen presentation. The PA28 protein family is composed of three proteins: PA28a, PA28b and PA28b. Based on kinetic modelling approaches, mutagenesis of activator proteins, protein-protein interaction studies and investigation of MHC class I antigen presentation in PA28-transfected cell lines a evaluation of functions of these three proteins has been performed. In vitro investigations revealed that the recombinant PA28 proteins are activators of peptidase activities of the proteasome. Heteromeric PA28ab complexes are stronger activators than homomeric PA28a o PA28b complexes. Recombinant PA28g is a weak activator of several peptidase activities. Nevertheless, in PA28g transfected B8-fibroblasts preliminary results indicate an improved MHC class I presentation. Based on kinetic evidence, a model has been presented indicating that PA28a and PA28b proteins act as peptide translocases, performing the import of substrates or the export of products into the catalytic chamber of the 20S proteasome. Finally, as examplified with the HBx protein of Hepatitis B virus, the opportunity is presented to use an in vitro reconstitution system of proteasomal activation to examine viral proteins interfering with proteasomal activation. Immunoproteasom Proteasom Aktivator PA28 Mikroglia Antigenprozessierung immunoproteasome proteasome activator PA28 microglia antigen processing 540 Chemie 30 Chemie YG 1700 YG 5500 ddc:540
272	Balance protéique et phénotype musculaire / Protein balance and muscular phenotype Begue, Gwénaëlle 12 April 2013 (has links) Le maintien de la masse musculaire est étroitement lié à la balance entre la synthèse et la dégradation des protéines. L'exercice physique est un puissant régulateur de la balance protéique et plus particulièrement l'exercice en résistance. S'intéresser à la balance protéique après un exercice s'inscrit dans une compréhension des mécanismes cellulaires et moléculaires conduisant aux phénomènes d'hypertrophie et/ou d'atrophie musculaire. Nos travaux mettent en évidence que l'hypertrophie obtenue dans le muscle FDP après 10 semaines d'un entraînement en résistance chez le rat, est en lien avec l'activation chronique de la voie IL-6/STAT3 après chaque exercice aigu, en partie au sein du pool de cellules satellites activées. En phase proliférative, les cellules dont la voie de signalisation STAT1/STAT3 est activée, répriment l'expression des facteurs myogéniques comme MyoD et retournent ainsi à l'état quiescent, concourant à augmenter le pool de réserve. Ces mécanismes participent à la synthèse protéique par l'apport de nouveau matériel génétique au sein des fibres musculaires conduisant à une augmentation de leur surface de section ainsi qu'à leur conversion phénotypique avec l'entraînement. L'exercice en résistance favorisant la protéolyse, nos travaux ont cherché à caractériser les systèmes protéolytiques (autophagique-lysosomal, ubiquitine-protéasome) impliqués dans la balance protéique post-exercice. Les marqueurs moléculaires étudiés (activités enzymatiques du protéasome et de la cathepsine L, expression protéique et génique de LC3B, des E3 ligases…) ne permettent pas d'expliquer clairement les +30% de protéolyse obtenus une heure après des contractions excentriques sur muscle EDL isolé de rat en condition à jeun. Des perspectives d'étude des systèmes des calpaines, des caspases et/ou des métalloprotéases matricielles sont alors à envisager. / The maintain of muscle mass is closely controlled by protein synthesis and degradation balance. Physical activity and mainly resistance exercise is a powerful stimulus to positive muscle protein balance. To understand how protein balance is regulated after exercise, cellular and molecular mechanisms leading to muscular hypertrophy and/or atrophy have to be elucidated. Our works point out that FDP muscular hypertrophy after 10 weeks of resistance training in rat is partly due to the chronically activation of IL-6/STAT3 signaling pathway, occurring in the activated satellite cell pool, after each single exercise bout. Once activated and engaged in the myogenic program, cells in which STAT1/STAT3 signaling pathway is activated, could downregulate MyoD and return to a quiescent state, leading to increase satellite cell reserve's pool. These events participate to enhance protein synthesis by the incorporation of new genetic material into muscle fiber leading to increase their cross sectional area and phenotypic shift after training. As resistance exercise increases proteolysis, our works attempt to characterize the proteolysis systems (lysosomal-autophagic, ubiquitin-proteasome) involved in protein balance after exercise. The molecular markers measured ( chymotrypsin-like and cathepsin L activities, protein and gene expressions of LC3B, E3 ligases…) could not explain the +30% of proteolysis obtained one hour after resistance eccentric contractions on EDL muscle of starved rats. Further studies based on calpains, caspases and metalloproteinase activities and/or expressions should bring us valuable information. Exercice en résistance Hypertrophie musculaire Interleukine-6 Protéolyse Système autophagique-lysosomal Système ubiquitine-protéasome Resistance exercise Muscular hypertrophy Interleukin-6 Proteolysis Autophagic-lysosomal system Ubiquitin-proteasome system
273	Etude de la plasticité du protéasome : identification et caractérisation de cibles et de régulateurs / Study of proteasome plasticity : identification and characterization of targets and regulators Pellentz-Lemattre, Céline 03 July 2014 (has links) Le protéasome est une protéase multimérique essentielle et hautement conservée au cours de l’évolution. Le protéasome 26S eucaryote est l’unité catalytique du système Ubiquitine-Protéasome et contrôle de ce fait de nombreux processus cellulaires. Son dysfonctionnement participe à la pathogenèse de nombreuses maladies. Le protéasome émerge notamment comme une cible thérapeutique de choix dans le traitement de cancers. Il semble donc important d’identifier l’ensemble des processus cellulaires dans lesquels le protéasome est impliqué ainsi que l’ensemble de ses régulateurs.Mon travail de thèse a consisté à identifier et caractériser de nouveaux partenaires physiques et fonctionnels du protéasome par une approche multi-technique. Nous étudions ces facteurs dans l’organisme modèle S. cerevisiae et déterminons s’ils sont fonctionnellement conservés dans les cellules de Mammifères.Après avoir identifié des partenaires physiques et fonctionnels au moyen de cribles à grande échelle, j’ai analysé les données et établi une bibliothèque pondérée de ces partenaires. J’ai ainsi mis en évidence de nouveaux acteurs potentiellement impliqués dans le fonctionnement du protéasome. De plus, j’ai caractérisé les protéines Spg5p et Poc5p. Mes données suggèrent que Spg5p participe à la régulation du protéasome en quiescence. Poc5p, présente à la fois chez l’Homme et la levure, participe à la régulation du protéasome à au moins deux niveaux différents : elle joue un rôle de point de contrôle dans l’assemblage du complexe et un rôle inhibiteur sur son activité. / The proteasome is a highly conserved essential proteolytic machine. The eukaryotic 26S proteasome is the hydrolytic heart of the ubiquitin-mediated degradation pathway and therefore controls many cellular pathways. Its dysfunction is involved in the pathogenesis of numerous diseases. Notably, the proteasome has emerged as an interesting drug target for anti-cancer therapy. It seems therefore important to identify all cellular processes in which the proteasome is involved and all of its regulators.My work was to identify and characterize new physical and functional partners of the proteasome by a multi-technical approach. We characterize these factors in the model organism S. cerevisiae and determine if they are functionally conserved in mammalian cells.After identifying physical and functional partners through large-scale screens, I analyzed the data and developed a weighted library of these partners. I have thus highlighted new actors potentially involved in the proteasome functioning. In addition, I characterized the Spg5p and Poc5p proteins. My data suggest that Spg5p participates in the regulation of proteasome during quiescence. Poc5p, presents both in human and yeast, is involved in the regulation of proteasome at at least two different levels: it acts as a checkpoint in the complex assembly and have an inhibitory effect on its activity. Protéasome Saccharomyces cerevisiae Logiciel R Assemblage Quiescence Activité Point de contrôle Proteasome Saccharomyces cerevisiae R software Assembly Quiescence Activity Checkpoint
274	Caracterização de putativo receptor serpentino e estudos sobre a implicação do sistema de ubiquitina/proteossomo na modulação do ciclo celular de Plasmodium falciparum. / Caracterization of serpentine receptor putative and studies about the implication of ubiquitin/proteasome system in Plasmodium falciparum cell cycle. Koyama, Fernanda Christtanini 28 May 2012 (has links) É proposto que vias de sinalização controlem a sobrevivência e adaptação do Plasmodium, nos diferentes hospedeiros. No presente trabalho buscamos por diferentes abordagens estudar a via de sinalização de melatonina em P. falciparum. Para isso, avaliamos os níveis de RNA mensageiro de genes do sistema-ubiquitina proteossomo (UPS) bem como o perfil de ubiquitinação resultante do tratamento de parasitas com melatonina. Mostramos que a proteína quinase 7 de P. falciparum (PfPK7) atua na modulação dos genes do UPS em resposta a melatonina. Avaliamos também se o parasita é responsivo ao ácido indol-3-acético (AIA). Sabendo-se da importância de receptores de membrana na regulação de diversas funções celulares incluindo a percepção do meio externo, buscamos caracterizar um receptor serpentino putativo identificado previamente pelo grupo. Pudemos concluir que a via de sinalização por melatonina em P. falciparum envolve a participação da PfPK7, uma vez que em parasitas nocautes para pfpk7 são irresponsivos à melatonina quando comparados ao parental. / It is proposed that signaling pathways can control the parasite survival and adaptation into the hosts. In the present work we inquire about to study the melatonin signaling pathway trhough different metodologies. For this purpose we have analized post-translational modification of melatonin signaling, through ubiquitin-proteasome system (UPS) mRNA levels as well as the profile of ubiquitination resulted of melatonin treatment when compared with control. Moreover, we have found here that the P. falciparum protein kinase 7 (PfPK7) plays a major role in ubiquitin-proteasome system mRNA modulation in response to melatonin since parasites knockout to pfpk7 gene do not upregulate the UPS genes in response to melatonin. As for melatonin we have evaluated if P. falciparum parasites were responsive to indoleacetic acid. Last but not least, we made an effort to characterize a putative serpentine receptor previously identified by our group. We conclude that melatonin signaling pathway involves PK7 participation since pfpk- parasites are irresponsives to melatonin. Plasmodium falciparum Plasmodium falciparum Malaria Malária Melatonin Melatonina Modulação do ciclo celular Modulation of cell cycle Parasitologia Parasitology Receptor serpentino Serpentine Receptor Sistema de ubiquitina/proteossomo System ubiquitin / proteasome
275	Étude des mécanismes de survie des cellules lymphoïdes B malignes : 1- Rôle de l’enzyme de déubiquitination USP14 : 2- Effet du fingolimod dans la mort indépendante des caspases / Study of survival mechanisms in malignant B lymphocytes : 1- Role of the deubiquitinating enzyme USP14 : 2- Effect of fingolimod in caspases-independent cell death Dubois, Nicholas 16 December 2014 (has links) Les lymphomes non hodgkiniens (LNH) regroupent un panel hétérogène de pathologies originaires de cellules lymphatiques. Parmi les LNH à cellules B matures, la leucémie lymphoïde chronique (LLC) constitue la forme de leucémie de l’adulte la plus fréquente en Occident. La physiopathologie des LNH à cellules B matures est marquée par l’inhibition des mécanismes de la mort cellulaire, notamment via la surexpression de la protéine MCL-1. Une première partie de ce travail de thèse a été de déterminer quelles pouvaient être les enzymes de déubiquitination (DUBs) impliquées dans la survie des LNH à cellules B matures et la stabilisation de MCL-1. Notre étude a permis d’identifier la DUB USP14, qui est liée au système ubiquitine-protéasome, comme capable de réguler MCL-1 et la survie cellulaire. Nos travaux montrent également pour la première fois que l’activité DUB des cellules, ainsi que l’activité d’USP14, sont directement régulées par la signalisation du BCR via l'activité de la tyrosine kinase SYK. Le FTY720, un analogue de la sphingosine utilisé comme immunosuppresseur dans la sclérose en plaques, a montré un effet cytotoxique dans des hémopathies malignes sans toutefois que son mécanisme d’action soit clairement expliqué. Une deuxième partie de ce travail de thèse a été de caractériser la mort induite par le FTY720. Notre étude montre que la caractérisation de la morphologie cellulaire et des marqueurs induits par la mort due au FTY720 dans les LLC correspond en fait à une nécrose cellulaire programmée indépendante de RIPK1, mais dépendante d'une enzyme régulatrice de la fission mitochondriale, DRP1. / Non-Hodgkin lymphoma (NHL) include a diverse range of pathologies originate from the lymphatic cells. Among the mature B-cell NHL, chronic lymphocytic leukemia (CLL) is the most common adult leukemia in the western countries. The pathophysiology of mature B-cell NHL is marked by the inhibition of cell death mechanisms, particularly through the overexpression of MCL-1 protein. The first part of this thesis was to determine which deubiquitinating enzymes (DUBs) are involved in the survival of mature B-cell NHL and in the stabilization of MCL-1. Our study identified the DUB USP14, which is linked to the ubiquitin-proteasome system, as able to regulate MCL-1 and cell survival. Our work also shows for the first time that the DUB activity of the cells and the activity of USP14 are directly regulated by BCR signaling through the activity of the SYK tyrosine kinase. FTY720, a sphingosine analog used as an immunosuppressive drug in multiple sclerosis, showed a cytotoxic effect in hematological malignancies but its mechanism of action is not well understood. A second part of this thesis was to characterize the death induced by FTY720. Our study shows that the characterization of the cellular morphology and markers induced by death due to FTY720 in the LLC corresponds in fact to a programmed RIPK1-independent necrosis cell death, but dependent on DRP1, a regulatory enzyme of the mitochondrial fission. Lymphome non hodgkinien USP14 BCR MCL-1 DUB Protéasome Apoptose FTY720 DRP1 Nécrose Non-hodgkin lymphoma USP14 BCR MCL-1 DUB Proteasome Apoptosis FTY720 DRP1 Necrosis
276	The 26S Proteasome and Histone Modifying Enzymes Regulate Truax, Agnieszka D 07 May 2011 (has links) Major Histocompatibility Complex Class-II (MHC-II) molecules are critical regulators of adaptive immunity that present extracellular antigens required to activate CD4+ T cells. MHC-II are regulated at the level of transcription by master regulator, the Class II Transactivator (CIITA), whose association with the MHC-II promoter is necessary to initiate transcription. Recently, much research focused on novel mechanisms of transcriptional regulation of critical genes like MHC-II and CIITA; findings that the macromolecular complex of the 26S-proteasome is involved in transcription have been perhaps the most exciting as they impart novel functions to a well studied system. Proteasome is a multi-subunit complex composed of a 20S-core particle capped by a 19S-regulatory particle. The 19S contains six ATPases which are required for transcription initiation and elongation. We demonstrate that 19S ATPase-S6a inducibly associates with CIITA promoters. Decreased expression of S6a negatively impacts recruitment of the transcription factors STAT-1 and IRF-1 to the CIITA due to significant loss in histone H3 and H4 acetylation. S6a is robustly recruited to CIITA coding regions, where S6a binding coordinates with that of RNA polymerase II. RNAi mediated S6a knockdown significantly diminishes recruitment of Pol II and P-TEF-b components to CIITA coding regions, indicating S6a plays important roles in transcriptional elongation. Our research is focused on the ways in which accessibility to and transcription of DNA is regulated. While cancers are frequently linked to dysregulated gene expression, contribution of epigenetics to cancers remains unknown. To achieve metastatic ability, tumors alter gene expression to escape host immunosurveilance. MHC-II and CIITA expression are significantly downregulated in highly metastatic MDA-MB-435 breast cancer cells. This suppression correlates with elevated levels of the silencing modification H3K27me3 at CIITA and a significant reduction in Pol II recruitment. We observe elevated binding of the histone methyltransferase to CIITApIV and demonstrate this enzyme is a master regulator of CIITA gene expression. EZH2 knockdown results in significant increases in CIITA and MHC-II transcript levels in metastatic cells. In sum, transcriptional regulation by the 19S-proteasome and histone modifying enzymes represents novel mechanisms of control of mammalian gene expression and present novel therapeutic targets for manipulating MHC expression in disease. Major histocompatibility class II Class II transactivator Transcription regulation 26S proteasome 19S ATPase S6a epigenetic histone modifications histone methyltransferase EZH2 Biology, general
277	Oxygen-dependent regulation of the activating transcription factor-4 (ATF-4) / Sauerstoff-abhängige Regulation des Aktivierenden Transkriptionsfaktors-4 (ATF-4) Wottawa, Marieke Claudia 23 October 2009 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science ATF-4 Hypoxie PHD3 Proteasom β-TRCP ATF-4 hypoxia PHD3 proteasome β-TRCP 42 W
278	Molekulare und funktionelle Analyse des Gens rings lost (CG4420) in der Entwicklung von Drosophila melanogaster / Molecular and functional analysis of the gene rings lost (CG4420) in the development of Drosophila melanogaster Morawe, Tobias 21 April 2010 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Drosophila melanogaster Oogenese Aktinzytoskelett Ubiquitin Proteasom Drosophila melanogaster oogenesis actin-cytoskeleton ubiquitin proteasome 42.23
279	Die Auswirkung von verschiedenen Proteasom-Inhibitoren auf die Wallersche Degeneration peripherer Nerven in vitro und in vivo / The effect of different proteasome inhibitors on Wallerian degeneration of peripheral nerves in vivo and in vitro Denninger, Stefan Christoph 04 September 2013 (has links) No description available. 610 Wallersche Degeneration MG132 Lactacystin Ubiquitin-Proteasom-System UPS Ischiasnerv wallerian degeneration ubiquitin-proteasome-system MG132 Lactacystin sciatic nerve Medizin (PPN619874732)
280	La protéine majeure de la capside de l’HSV-1 est ubiquitinée Raymond, Pascal 12 1900 (has links) Le virus de l’Herpès simplex de type 1 (HSV-1) est le pathogène humain responsable des lésions herpétiques labiales, plus communément appelé « feux sauvages ». Annuellement, il est responsable de plusieurs cas d’encéphalites et d’infections de l’appareil visuel qui sont la principale cause de cécité en Amérique du Nord. Bien qu’il existe quelques traitements antiviraux, aucun vaccin ou médicament ne permet de prévenir ou de guérir les infections causées par ce virus. Aujourd’hui, les infections produites par l’HSV-1 sont présentes partout sur la planète. Récemment, une étude en protéomique effectuée sur les virus matures extracellulaires a permis d’identifier la présence d’ubiquitines libres et d’enzymes reliées à la machinerie d’ubiquitination dans le virus. De plus, le virus exploite cette machinerie au cours de l’infection. Il est connu que certaines protéines virales sont ubiquitinées durant une infection et que le virus imite même certaines enzymes d’ubiquitination. Nous avons donc entrepris des recherches afin d’identifier des protéines virales ubiquitinées qui pourraient être présentes dans les virus matures ainsi que leurs rôles potentiels. La protéine majeure de la capside, VP5, un constituant très important du virus, a été identifiée. Nos recherches nous ont permis de caractériser le type d’ubiquitination, une monoubiquitination sur les lysines K810 et/ou K1275 de VP5. Le rôle que pourrait jouer l’ubiquitination de VP5 dans le cycle de réplication virale et dans les virus matures n’est toutefois pas encore connu. / Herpes simplex virus type 1 (HSV-1) is the human pathogen responsible for herpetic lesion such as cold sores. On a yearly basis, it is responsible for many cases of encephalitis and infections of the eye that are the most common cause of blindness in North America. Antiviral treatments exist, but no vaccines or drugs are able to prevent or cure the diseases caused by this virus. Today, infections caused by HSV-1 are present all around the world. Recently a proteomics approach was used to study mature extracellular viruses. This study highlighted the presence in the virus of free ubiquitin and ubiquitin related enzymes. Furthermore, the virus exploits this machinery during the course of infection. Also, it is known that certain virally encoded proteins are ubiquitinated and that the virus mimics some ubiquitin related enzymes. Our researches focused on identifying ubiquitinated viral proteins that could be present in mature extracellular viruses and their potential roles. The major capsid protein, VP5, an important virus component, was identified. We characterised the type of ubiquitination, a monoubiquitination of lysine K810 and/or K1275 of VP5. The role that could play the ubiquitination of VP5 in the viral cell cycle and in mature virions has yet to be identified. Herpès simplex de type 1 Protéine majeure VP5 Ubiquitine Protéasome Herpes simplex virus 1 Major protein VP5 Ubiquitin Proteasome

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