Global ETD Search

61	Étude ouverte pour évaluer l'efficacité et l'innocuité de la lovastatine chez les individus atteints du syndrome du X fragile / Lovastatine as a behavior treatment in children and adults with Fragile X Syndrome : Phase I study Caku, Artuela January 2015 (has links) Résumé : Le syndrome du X fragile (SXF) est la première cause de déficience intellectuelle héréditaire et résulte de mutations dans le gène FMR1 menant à l’absence d’expression de la protéine FMRP. Chez la souris déficiente en FMRP (KO-fmr1), des travaux récents ont montré une suractivation de la voie ERK qui jouerait un rôle important dans la physiopathologie du SXF. La lovastatine est un inhibiteur de la HMG-CoA réductase, utilisée pour traiter l’hypercholestérolémie. Parmi ses effets pléiotropes, elle inhiberait également ERK. Nous avons émis l’hypothèse que la lovastatine pourrait compenser en partie l’absence de FMRP et avoir des effets cognitifs positifs chez les individus avec SXF. Objectifs: Évaluer l’efficacité de la lovastatine à réduire le score global de l’ABC-C (Aberrant Behavior Checklist-Community), ainsi que le score de chaque sous-domaine d’ABC-C. Vérifier l’innocuité de la lovastatine pendant le traitement. Méthodes : Une étude prospective, non-randomisée a été réalisée sur une période de 12 semaines. Seize participants avec SXF (âgés de 10 à 31 ans), ont reçu des doses croissantes de la lovastatine (20 mg et 40 mg). Résultats : Des améliorations ont été observées au niveau du comportement aberrant soit le score total de l’ABC-C (p=0.005), ainsi que les sousdomaines: Hyperactivité (p=0.002), Léthargie(p=0.011), Stéréotypie (p=0.025) et Retrait social (p=0.003). Comme attendu, la lovastatine a été bien toléré sans aucun effet indésirable grave observé. Conclusion : Nos résultats suggèrent que la lovastatine peut avoir des effets bénéfices chez les individus avec le SXF. Une étude randomisée, placébocontrôlée est nécessaire pour valider nos trouvailles. / Abstract : Background: Fragile X Syndrome (FXS) results from dynamic mutations leading ultimately to the absence of expression of the Fragile X Mental Retardation Protein (FMRP). It is characterized by synaptic upregulated protein synthesis and immature dendritic spines associated with altered brain plasticity and cognitive functions. Recent work in Fmr1 knockout mice has shown that lovastatin, an inhibitor of Ras-ERK1/2, normalized hippocampus protein synthesis. We hypothesize that lovastatin, as a diseasemodifying drug, would counterweigh the absence of FMRP and improve brain development and learning abilities. Here we report a phase I study to assess the safety and efficacy of lovastatin in individuals with FXS. Methods: A total of 15 subjects (13 males, 6-31 years old) were treated with escalating doses of lovastatin (up to 40 mg) for three months. Their behaviour were assessed before and after treatment using the Aberrant Behavioral Checklist – Community (ABC-C) total score (primary outcome), as well as domains of the FXS validated version of the ABC-C (secondary outcomes). Results: The treatment was well tolerated and minimal adverse effects were reported. Significant improvement in the primary outcome (P < 0.005), as well as in secondary outcomes, were observed in the majority of the subjects (12/15). Conclusions: We believe long-term sustained treatment with diseased-modifying drugs would be necessary in order to improve behaviour and learning. Lovastatin, well known for its long-term security profile, reveals itself as a strong candidate to that purposes. Nevertheless, a larger placebo-controlled trial of lovastatin in this population is warranted in order to confirm its efficacy. Syndrome de X Fragile Traitement Lovastatin Voie de signalisation ERK Comportement adaptif Fragile X Syndrome Treatment Lovastatin ERK Adaptive behaviour
62	La voie de signalisation ERK1/2 couplée au récepteur 5-HT4 et sa régulation par GRK5 / ERK1/2 signalling coupled to 5-HT4 receptor and its regulation by GRK5 Carrat, Gaëlle 19 November 2010 (has links) Les récepteurs couplés aux protéines G (RCPG) peuvent activer des voies de signalisation indépendantes des protéines G. Cependant, la régulation de ces voies, et en particulier leur désensibilisation, est peu connue. Le récepteur de la sérotonine de type 4 (R-5-HT4) est un RCPG exprimé dans le cerveau et les organes périphériques. Il est impliqué dans des fonctions physiologiques importantes comme la mémoire, l'apprentissage, la prise de nourriture, le contrôle respiratoire et la mobilité gastro-intestinale. Le R-5-HT4 est couplé à la protéine Gs. De plus, il active la voie Src/ERK1/2, indépendamment des protéines G et des β-arrestines.Nous avons montré que GRK5, physiquement associé à la région C-terminale (C-ter) du R-5-HT4 inhibait la voie Src/ERK1/2 couplée au récepteur, mais pas la voie Gs. Ce résultat a été observé dans la lignée de cellules HEK-293 mais aussi dans des neurones de collicules en culture. Cette inhibition nécessite deux séquences d'évènements : l'association de la β-arrestine1 à une région riche en sérines et thréonines, localisée dans le domaine C-ter du récepteur et la phosphorylation par GRK5, de la β-arrestine1 (en sérine 412) liée au récepteur. La β-arrestine1 phosphorylée empêche l'activation de Src, constitutivement liée au récepteur, nécessaire à l'activation d'ERK1/2. Ceci constitue la première démonstration que la phosphorylation d'une β-arrestine par une GRK régule la signalisation indépendante des protéines G. En plus de ces résultats, nous avons démontré que l'activation d'ERK1/2 par le R-5-HT4, indépendante des β-arrestines, implique la libération d'un ligand induite par une métalloprotéase, conduisant à la transactivation d'un autre récepteur. Par une approche protéomique, nous avons également identifiés plusieurs partenaires potentiels du R-5-HT4. L'étude de ces partenaires pourrait apporter un éclairage supplémentaire sur les voies de signalisation du récepteur et leur régulation. / G protein-coupled receptors (GPCRs) have been found to trigger G protein-independent signalling. However, the regulation of G protein-independent pathways, especially their desensitization, is poorly characterized.The 5-Hydroxytryptamine 4 receptor (5-HT4R) is a GPCR widely expressed in the brain and at the periphery. It is implicated in important physiological functions such as memory, cognition, feeding, respiratory control and gastrointestinal motility. 5-HT4R couples to the Gs/cAMP/PKA pathway. Moreover, this receptor can activate a Src/ERK pathway independently of both G proteins and β-arrestins.Here, we show that the G protein-independent 5-HT4R-operated Src/ERK pathway, but not the Gs pathway, is inhibited by GPCR kinase 5 (GRK5), physically associated with the proximal region of receptor C-terminus, in both HEK-293 cells and colliculi neurons. This inhibition requires two sequences of events: the association of β-arrestin1 to a phosphorylated serine/threonine cluster located within the receptor C-terminal domain and the phosphorylation by GRK5 of β-arrestin1 (at Ser 412) bound to the receptor. Phosphorylated β-arrestin1 prevents in turn activation of Src constitutively bound to 5-HT4R, a necessary step in receptor-stimulated ERK signalling. This is the first demonstration that β-arrestin phosphorylation by a GRK regulates G protein-independent signalling.In addition to these results, we also demonstrated that the β-arrestin-independent activation of ERK1/2 by the 5-HT4R involves a metalloprotease-dependant ectodomain shedding and transactivation of another receptor. By a proteomic approach, we also identified several potential partners of the 5-HT4R. Study of these proteins may provide a better understanding of 5-HT4R signalling and his regulation. Rcpg Récepteur 5-HT4 Grk Β-arrestine Désensibilisation Erk Gpcr 5-ht4r Grk Β-arrestin Desensitisation Erk
63	Sinalização da MAPK/ERK na diferenciaçãao da oligodendroglia: efeitos de inibidores da MEK sobre a morfologia e distribuição de proteínas de oligodendrócitos/mielina in vitro / MARK/ERK signalling in oligodendroglia differentiation: MEK inhibitors effection distribution of oligodendrocytes/myelin proteins in vitro Viviane Younes Rapozo 23 August 2009 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A via de sinalização da cinase regulada por fatores extracelulares, da família das proteínas cinases ativadas por mitógenos (MAPK/ERK) é importante tanto para a sobrevivência como para a progressão da diferenciação de oligodendrócitos. Neste trabalho, a via da MAPK/ERK foi avaliada na oligodendroglia in vitro com a utilização de inibidores da MEK. A morfologia celular, assim como a distribuição de proteínas foram analisadas em diferentes estágios de maturação da oligodendroglia. Culturas primárias de oligodendrócitos foram tratadas com os inibidores da MEK PD98059 ou U0126, aos 5 ou 11dias in vitro (div), por 30min, 24 ou 48h. A oligodendroglia foi distinguida com marcadores estágio-específicos: A2B5, 23nucleotídeo cíclico 3 fosfodiesterase (CNPase) e proteína básica de mielina (MBP), e classificada de acordo com sua morfologia em diferentes estágios de desenvolvimento. O tratamento aumentou significativamente o número de células com morfologia mais imatura e diminuiu o número de células maduras. Além disso, aumentou o número de células redondas e sem prolongamentos as quais não puderam ser classificadas em nenhum dos estágios de desenvolvimento da oligodendroglia. Os efeitos mais evidentes foram observados logo após o menor tempo de tratamento. Células redondas eram positivas para CNPase e MBP, porém não foram marcadas com A2B5 ou com NG2, indicando que seriam células maduras incapazes de estender ou manter seus prolongamentos. De fato, estas mudanças foram acompanhadas por alterações na distribuição de proteínas de oligodendrócitos como a MBP e a CNPase, assim como alterações em proteínas de citoesqueleto, como actina, tubulina e na cinase de adesão focal (FAK). A MBP foi observada nas células tratadas em um padrão de distribuição desorganizado e disperso, oposto ao padrão contínuo que é observado nas células das culturas controle. Além disso, o tratamento causou uma desorganização na distribuição da CNPase, actina e tubulina. Nas células das culturas controle, estas proteínas apresentam um padrão organizado compondo as estruturas de citoqueleto semelhantes a nervuras. Após um pequeno período de tratamento (30min), actina e tubulina apresentaram o mesmo padrão de marcação puntiforme que a CNPase apresentou. O tratamento também reduziu os pontos de adesão focal demonstrados pela FAK. Com o decorrer do tratamento, após 24 e 48h, actina e tubulina aparentavam estar se reorganizando em um padrão filamentar. Estes resultados indicam um efeito importante da via da MAPK/ERK na ramificação e alongamento dos prolongamentos dos oligodendrócitos, com possíveis consequências para a formação da bainha de mielina. / The mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) pathway is important for both long-term survival and timing of the progression of oligodendrocyte differentiation. In this work, the MAPK/ERK signaling in oligodendroglia was studied in vitro by using MEK inhibitors. Cell morphology and distribution of proteins were analyzed in different stages of maturation. Primary cultures of oligodendroglia were treated with the MEK inhibitors PD98059 or U0126, at 5 or 11div for 30min, 24 or 48h. Oligodendroglial cells were distinguished by using stage specific markers: NG2 proteoglycan, A2B5, 23nucleotide-cyclic 3phosphodiesterase (CNPase) and myelin basic protein (MBP), and classified according to their morphology into different developmental stages. Treatment significantly increased the number of cells with more immature morphologies and decreased the number of mature cells. Furthermore, it increased the number of rounded cells that could not be classified into any of the oligodendroglial developmental stages. The strongest effects were usually observed shortly after treatment. Rounded cells were CNPase/MBP positive and they were not stained by anti-NG2 or A2B5, indicating that they were mature cells unable either to extend and/or to maintain their processes. In fact, these changes were accompanied by alterations in the distribution of the oligodendroglial proteins MBP and CNPase, and alterations in cytoskeleton proteins, as actin, tubulin and the focal adhesion kinase (FAK). MBP was observed in a continuous distribution in cell body and processes in control cultures. Furthermore, in treated cultures a disorganized pattern of distribution of CNPase, actin and tubulin was observed. In control cultures, these proteins compose the cytoskeleton vein-like structures. By the other side, after a short time of MEK inhibition (30min), actin and tubulin showed the same punctual pattern observed in CNPase distribution. Treatment also caused a reduction of focal adhesion sites showed by FAK. As treatment progressed, after 24 and 48h, actin and tubulin seemed to be rearranged into a filament-like pattern. These data showed an effect of the MAPK/ERK pathway on oligodendroglial branching, with possible consequences for the formation of the myelin sheath. Oligodendrócito Diferenciação Via de sinalização MAPK/ERK Citoesqueleto Oligodendrocyte Differentiation MAPK/ERK signaling pathway Cytoskeleton CITOLOGIA E BIOLOGIA CELULAR
64	Investigação do papel da ubiquitina-ligase HUWE1 na modulação da via de sinalização RAS em modelos leucêmicos / Investigation of ubiquitin-ligase HUWE1 in the modulation of RAS pathway in leukemia models Mariana Tannús Ruckert 25 October 2017 (has links) A via RAS/RAF/MEK/ERK é frequentemente hiperativada em diversos tumores. Em leucemias sua ativação pode ocorrer, dentre outros mecanismos, a partir de mutações pontuais nos genes da família RAS, que são relevantes nas leucemias linfóide e mielóide agudas (LLA e LMA), ou a partir da atividade da tirosina-quinase BCR-ABL, que é responsável por promover a tumorigênese na leucemia mielóide crônica (LMC) e em alguns casos de LLA. A hiperativação dessa via estimula a proliferação celular e, consequentemente, a produção de espécies reativas de oxigênio (ROS), que é um dos principais mecanismos envolvidos com a indução de senescência celular em tumores. Assim sendo, as células tumorais que apresentam o gene RAS mutado são criticamente dependentes de mecanismos de feedback para regular a ativação da via. Jang et al. demonstraram que a ubiquitina-ligase HUWE1 atua em um mecanismo de feedback negativo que controla a ativação de ERK1/2 e apesar de amplamente estudada no contexto da tumorigênese, a atuação dessa molécula em eventos relacionados à leucemogênese ainda não foi descrita. No presente estudo, linhagens celulares leucêmicas e células tronco e progenitoras hematopoiéticas humanas (HSPCs) com mutação KRASG12V foram transduzidas com partículas lentivirais miR-E para o silenciamento gênico de HUWE1. Ensaios de proliferação celular, apoptose, análise do ciclo celular, produção de ROS e análise da expressão gênica e proteica foram realizados nas linhagens celulares; análise do crescimento cumulativo, área de formação de cobblestones, capacidade clonogênica e análise do perfil de diferenciação celular foram realizados nas HSPCs. Nas linhagens celulares observouse que o silenciamento de HUWE1 reduziu a capacidade proliferativa das linhagens Nalm-6, K562 e THP-1, porém não causou nenhum prejuízo à capacidade proliferativa da linhagem HL-60. Além disso, causou a redução da produção de ROS (p<0,05), associada à redução das taxas de apoptose (p<0,01), principalmente na linhagem K562, na qual também promoveu a ativação de ERK1/2 . Em HSPCs, observou-se a redução da capacidade proliferativa das culturas que expressavam o oncogene KRASG12V associado ao silenciamento de HUWE1. Nas mesmas condições foi observada uma drástica redução na capacidade clonogênica das HSPCs (p<0,001), em especial as do tipo BFU-E. O silenciamento de HUWE1 também alterou o perfil de diferenciação celular para a linhagem monocítica. Os resultados sugerem que HUWE1 pode participar do processo de leucemogênese e diferenciação de HSPCs humanas participando na modulação da via RAS/RAF/MEK/ERK. / The RAS/RAF/MEK/ERK pathway is frequently hyperactivated in several tumors. In leukemia, this activation can arise, among other mechanisms, from point mutations in the RAS genes, which are important in acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML), or from chromosomal translocations such as the BCR-ABL gene, which is a driver mutation in chronic myeloid leukemia (CML) and some cases of ALL. The hyperactivation of this pathway stimulates cell proliferation and, consequently, the production of reactive oxygen species (ROS), which is one of the main mechanisms involved with induction of cellular senescence in tumors. Thus, tumor cells that harbor the mutated RAS gene are critically dependent on feedback mechanisms to regulate pathway activation. Jang et al. demonstrated that the ubiquitinligase HUWE1 acts on a negative feedback mechanism that controls the activation of ERK1/2. Although widely studied in the context of tumorigenesis, the role of this molecule in events related to leukemogenesis has not yet been described. In this study, leukemia cell lines and human hematopoietic stem and progenitors cells (HSPCs) with KRASG12V mutation were transduced with miR-E lentiviral particles for HUWE1 knockdown. Cell proliferation, apoptosis, cell cycle analysis, ROS production and analysis of gene and protein expression were performed in cell lines; cumulative growth analysis, cobblestones area formations, clonogenic capacity and differentiation profile analysis were performed in HSPCs. In cell lines, it was observed that HUWE1 knockdown reduced the proliferative capacity of Nalm-6, K562 and THP-1, but not of HL-60. Besides that, it caused a reduction in ROS production (p<0,05), associated with reduction of apoptosis rates (p<0,01), especially in K562 in which it also promoted activation of ERK1/2. In HSPCs, a reduction of the proliferative capacity was observed in cultures expressing KRASG12V in combination with HUWE1 knockdown. In the same conditions, a drastic reduction of clonogenic capacity (p<0,001), especially of BFU-E colonies, was observed. HUWE1 knockdown also changed differentiation profile to the monocytic lineage. Results suggest that HUWE1 might play a role in leukemogenesis process and differentiation of human HSPCs, acting in the modulation of RAS/RAF/MEK/ERK. Feedback negativo HUWE1 Leucemia RAS/RAF/MEK/ERK Ubiquitinaligase HUWE1 Leukemia Negative feedback RAS/RAF/MEK/ERK Ubiquitin-ligase
65	Investigação do papel da ubiquitina-ligase HUWE1 na modulação da via de sinalização RAS em modelos leucêmicos / Investigation of ubiquitin-ligase HUWE1 in the modulation of RAS pathway in leukemia models Ruckert, Mariana Tannús 25 October 2017 (has links) A via RAS/RAF/MEK/ERK é frequentemente hiperativada em diversos tumores. Em leucemias sua ativação pode ocorrer, dentre outros mecanismos, a partir de mutações pontuais nos genes da família RAS, que são relevantes nas leucemias linfóide e mielóide agudas (LLA e LMA), ou a partir da atividade da tirosina-quinase BCR-ABL, que é responsável por promover a tumorigênese na leucemia mielóide crônica (LMC) e em alguns casos de LLA. A hiperativação dessa via estimula a proliferação celular e, consequentemente, a produção de espécies reativas de oxigênio (ROS), que é um dos principais mecanismos envolvidos com a indução de senescência celular em tumores. Assim sendo, as células tumorais que apresentam o gene RAS mutado são criticamente dependentes de mecanismos de feedback para regular a ativação da via. Jang et al. demonstraram que a ubiquitina-ligase HUWE1 atua em um mecanismo de feedback negativo que controla a ativação de ERK1/2 e apesar de amplamente estudada no contexto da tumorigênese, a atuação dessa molécula em eventos relacionados à leucemogênese ainda não foi descrita. No presente estudo, linhagens celulares leucêmicas e células tronco e progenitoras hematopoiéticas humanas (HSPCs) com mutação KRASG12V foram transduzidas com partículas lentivirais miR-E para o silenciamento gênico de HUWE1. Ensaios de proliferação celular, apoptose, análise do ciclo celular, produção de ROS e análise da expressão gênica e proteica foram realizados nas linhagens celulares; análise do crescimento cumulativo, área de formação de cobblestones, capacidade clonogênica e análise do perfil de diferenciação celular foram realizados nas HSPCs. Nas linhagens celulares observouse que o silenciamento de HUWE1 reduziu a capacidade proliferativa das linhagens Nalm-6, K562 e THP-1, porém não causou nenhum prejuízo à capacidade proliferativa da linhagem HL-60. Além disso, causou a redução da produção de ROS (p<0,05), associada à redução das taxas de apoptose (p<0,01), principalmente na linhagem K562, na qual também promoveu a ativação de ERK1/2 . Em HSPCs, observou-se a redução da capacidade proliferativa das culturas que expressavam o oncogene KRASG12V associado ao silenciamento de HUWE1. Nas mesmas condições foi observada uma drástica redução na capacidade clonogênica das HSPCs (p<0,001), em especial as do tipo BFU-E. O silenciamento de HUWE1 também alterou o perfil de diferenciação celular para a linhagem monocítica. Os resultados sugerem que HUWE1 pode participar do processo de leucemogênese e diferenciação de HSPCs humanas participando na modulação da via RAS/RAF/MEK/ERK. / The RAS/RAF/MEK/ERK pathway is frequently hyperactivated in several tumors. In leukemia, this activation can arise, among other mechanisms, from point mutations in the RAS genes, which are important in acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML), or from chromosomal translocations such as the BCR-ABL gene, which is a driver mutation in chronic myeloid leukemia (CML) and some cases of ALL. The hyperactivation of this pathway stimulates cell proliferation and, consequently, the production of reactive oxygen species (ROS), which is one of the main mechanisms involved with induction of cellular senescence in tumors. Thus, tumor cells that harbor the mutated RAS gene are critically dependent on feedback mechanisms to regulate pathway activation. Jang et al. demonstrated that the ubiquitinligase HUWE1 acts on a negative feedback mechanism that controls the activation of ERK1/2. Although widely studied in the context of tumorigenesis, the role of this molecule in events related to leukemogenesis has not yet been described. In this study, leukemia cell lines and human hematopoietic stem and progenitors cells (HSPCs) with KRASG12V mutation were transduced with miR-E lentiviral particles for HUWE1 knockdown. Cell proliferation, apoptosis, cell cycle analysis, ROS production and analysis of gene and protein expression were performed in cell lines; cumulative growth analysis, cobblestones area formations, clonogenic capacity and differentiation profile analysis were performed in HSPCs. In cell lines, it was observed that HUWE1 knockdown reduced the proliferative capacity of Nalm-6, K562 and THP-1, but not of HL-60. Besides that, it caused a reduction in ROS production (p<0,05), associated with reduction of apoptosis rates (p<0,01), especially in K562 in which it also promoted activation of ERK1/2. In HSPCs, a reduction of the proliferative capacity was observed in cultures expressing KRASG12V in combination with HUWE1 knockdown. In the same conditions, a drastic reduction of clonogenic capacity (p<0,001), especially of BFU-E colonies, was observed. HUWE1 knockdown also changed differentiation profile to the monocytic lineage. Results suggest that HUWE1 might play a role in leukemogenesis process and differentiation of human HSPCs, acting in the modulation of RAS/RAF/MEK/ERK. Feedback negativo HUWE1 HUWE1 Leucemia Leukemia Negative feedback RAS/RAF/MEK/ERK RAS/RAF/MEK/ERK Ubiquitin-ligase Ubiquitinaligase
66	Plasticity based strategies for the treatment of depression / Plasticité et dépression : nouvelles cibles thérapeutiques Apazoglou, Kalliopi 06 January 2012 (has links) La dépression majeure constitue aujourd’hui une maladie dévastatrice qui affecte jusqu’a 20% de la population mondiale et qui est classifiée comme une des causes principales des années de vie en handicap. Depuis les années ’50 et avec la serendipité des composés antidépresseurs, la physiopathologie et le traitement actuel de la dépression sont dominés par l’hypothèse monoaminergique. Malgré leur utilisation répandue encore aujourd’hui, les antidépresseurs qui ciblent le système monoaminergique sont inefficaces chez une proportion significative des patients et présentent un délai du début d’action prolongé. Dans l’optique d’approfondir l’action antidépressive, nombreuses études récentes ont démontré différents mécanismes à travers les quels ces composés restaurent la plasticité neuronale et la neurotransmission, qui sont trouvées perturbées dans les troubles de l’humeur et dans des modèles animaux de la dépression. La transmission glutamatergique, notamment le récepteur AMPA (AMPA R), et des cascades intracellulaires de signalisation ont été impliqués dans la physiopathologie de la dépression et l’action antidépressive. Au cours de cette étude, des potentiateurs AMPA R (modulateurs positives allostériques) ont montré des effets antidépresseurs dans un modèle chronique de dépression et des résultats préliminaires suggèrent un délai du début d’action précoce de ces composés. La voie de signalisation d’ERK/MAPK a été aussi étudiée, comme un intégrateur des modifications de la plasticité synaptique qui constitue le lien entre les signaux extracellulaires et la régulation de l’expression génique. On a utilisé une nouvelle classe d’inhibiteurs de la voie de signalisation d’ERK. La construction de ces molécules est basée sur la propriété particulière d’ERK à s’attacher à ses cibles à travers des domaines de liaison spécifiques. Une batterie de tests comportementaux, aigus et chroniques, ont apporté une somme de données convaincants sur l’action antidépressive de l’inhibition sélective du complexe de signalisation ERK/Elk1. L’ensemble des résultats de cette étude apportent de nouveaux éléments sur la physiopathologie de la dépression et révèlent des pistes thérapeutiques prometteuses. / Major depression is a devastating disease that affects up to 20% of world population and is classified today as a leading cause of disability-adjusted life years. Since late 50s with the serendipitous discovery of the first antidepressant agents, pathophysiology and therapeutics of depression are governed by the monoaminergic hypothesis. Monoaminergic-based treatment, although still in use today, was proven inefficient to treat a significant proportion of cases and presents a delayed onset of action. Recent research has unveiled an array of new mechanisms through which antidepressant medication helps restore neuronal plasticity and neurotransmission that is disrupted in mood disorders and in animal models of depression. Glutamatergic transmission, in particular AMPA receptor, and signal transduction cascades have been implicated both in antidepressant action and the pathophysiology of depression, as here and now regulators that mediate persistent changes. In this study, AMPA receptors positive modulators demonstrated antidepressant-like effects in a chronic model of depression and preliminary data suggest a faster onset of action than conventional antidepressants. The ERK/MAPK signaling pathway was also studied as a major integrator of synaptic plasticity modifications that links extracellular signals to gene expression regulation via its downstream molecular partners. We used a new class of inhibitors of the ERK pathway, whose design was based on the particular property of ERK to bind to its downstream targets via specific docking domains. A considerable amount of data provided evidence for an antidepressant action of selective inhibition of the ERK/Elk1 signaling complex in multiple animal models of depression. Overall, the findings of this work reveal novel, promising targets for the treatment of depression. Dépression Action antidépresseur Plasticité AMPA R Cascade ERK Elk1 Depression Antidepressant action Plasticity AMPA R ERK cascade Elk1
67	Sinalização da MAPK/ERK na diferenciaçãao da oligodendroglia: efeitos de inibidores da MEK sobre a morfologia e distribuição de proteínas de oligodendrócitos/mielina in vitro / MARK/ERK signalling in oligodendroglia differentiation: MEK inhibitors effection distribution of oligodendrocytes/myelin proteins in vitro Viviane Younes Rapozo 23 August 2009 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A via de sinalização da cinase regulada por fatores extracelulares, da família das proteínas cinases ativadas por mitógenos (MAPK/ERK) é importante tanto para a sobrevivência como para a progressão da diferenciação de oligodendrócitos. Neste trabalho, a via da MAPK/ERK foi avaliada na oligodendroglia in vitro com a utilização de inibidores da MEK. A morfologia celular, assim como a distribuição de proteínas foram analisadas em diferentes estágios de maturação da oligodendroglia. Culturas primárias de oligodendrócitos foram tratadas com os inibidores da MEK PD98059 ou U0126, aos 5 ou 11dias in vitro (div), por 30min, 24 ou 48h. A oligodendroglia foi distinguida com marcadores estágio-específicos: A2B5, 23nucleotídeo cíclico 3 fosfodiesterase (CNPase) e proteína básica de mielina (MBP), e classificada de acordo com sua morfologia em diferentes estágios de desenvolvimento. O tratamento aumentou significativamente o número de células com morfologia mais imatura e diminuiu o número de células maduras. Além disso, aumentou o número de células redondas e sem prolongamentos as quais não puderam ser classificadas em nenhum dos estágios de desenvolvimento da oligodendroglia. Os efeitos mais evidentes foram observados logo após o menor tempo de tratamento. Células redondas eram positivas para CNPase e MBP, porém não foram marcadas com A2B5 ou com NG2, indicando que seriam células maduras incapazes de estender ou manter seus prolongamentos. De fato, estas mudanças foram acompanhadas por alterações na distribuição de proteínas de oligodendrócitos como a MBP e a CNPase, assim como alterações em proteínas de citoesqueleto, como actina, tubulina e na cinase de adesão focal (FAK). A MBP foi observada nas células tratadas em um padrão de distribuição desorganizado e disperso, oposto ao padrão contínuo que é observado nas células das culturas controle. Além disso, o tratamento causou uma desorganização na distribuição da CNPase, actina e tubulina. Nas células das culturas controle, estas proteínas apresentam um padrão organizado compondo as estruturas de citoqueleto semelhantes a nervuras. Após um pequeno período de tratamento (30min), actina e tubulina apresentaram o mesmo padrão de marcação puntiforme que a CNPase apresentou. O tratamento também reduziu os pontos de adesão focal demonstrados pela FAK. Com o decorrer do tratamento, após 24 e 48h, actina e tubulina aparentavam estar se reorganizando em um padrão filamentar. Estes resultados indicam um efeito importante da via da MAPK/ERK na ramificação e alongamento dos prolongamentos dos oligodendrócitos, com possíveis consequências para a formação da bainha de mielina. / The mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) pathway is important for both long-term survival and timing of the progression of oligodendrocyte differentiation. In this work, the MAPK/ERK signaling in oligodendroglia was studied in vitro by using MEK inhibitors. Cell morphology and distribution of proteins were analyzed in different stages of maturation. Primary cultures of oligodendroglia were treated with the MEK inhibitors PD98059 or U0126, at 5 or 11div for 30min, 24 or 48h. Oligodendroglial cells were distinguished by using stage specific markers: NG2 proteoglycan, A2B5, 23nucleotide-cyclic 3phosphodiesterase (CNPase) and myelin basic protein (MBP), and classified according to their morphology into different developmental stages. Treatment significantly increased the number of cells with more immature morphologies and decreased the number of mature cells. Furthermore, it increased the number of rounded cells that could not be classified into any of the oligodendroglial developmental stages. The strongest effects were usually observed shortly after treatment. Rounded cells were CNPase/MBP positive and they were not stained by anti-NG2 or A2B5, indicating that they were mature cells unable either to extend and/or to maintain their processes. In fact, these changes were accompanied by alterations in the distribution of the oligodendroglial proteins MBP and CNPase, and alterations in cytoskeleton proteins, as actin, tubulin and the focal adhesion kinase (FAK). MBP was observed in a continuous distribution in cell body and processes in control cultures. Furthermore, in treated cultures a disorganized pattern of distribution of CNPase, actin and tubulin was observed. In control cultures, these proteins compose the cytoskeleton vein-like structures. By the other side, after a short time of MEK inhibition (30min), actin and tubulin showed the same punctual pattern observed in CNPase distribution. Treatment also caused a reduction of focal adhesion sites showed by FAK. As treatment progressed, after 24 and 48h, actin and tubulin seemed to be rearranged into a filament-like pattern. These data showed an effect of the MAPK/ERK pathway on oligodendroglial branching, with possible consequences for the formation of the myelin sheath. Oligodendrócito Diferenciação Via de sinalização MAPK/ERK Citoesqueleto Oligodendrocyte Differentiation MAPK/ERK signaling pathway Cytoskeleton CITOLOGIA E BIOLOGIA CELULAR
68	Rôle de ADAM12 dans la Transition Epithélio-Mésenchymateuse / Role of ADAM12 in Epithelial to Mesenchymal Transition Ruff, Michaël 27 October 2015 (has links) Les échanges entre les cellules tumorales et le microenvironnement jouent un rôle essentiel dans le développement des tumeurs. Dans ce contexte, la nouvelle famille de métalloprotéases, les protéines ADAM, constituent aujourd’hui des régulateurs majeurs de la progression tumorale en agissant sur la biodisponibilité des médiateurs de la communication cellulaire que sont les cytokines, chimiokines et facteurs de croissance. Au sein de cette famille, ADAM12 est la plus associée au cancer. Elle possède la particularité de jouer un rôle dans la signalisation cellulaire, de façon indépendante de son activité métalloprotéase, notamment dans les voies de signalisation du TGFβ. Notre étude montre pour la première fois un rôle pour la forme membranaire d'ADAM12 dans l'induction de la transition épithélio-mésenchymateuse (EMT), un processus essentiel à l'invasion tumorale dont le TGFβ est un inducteur majeur. Cet effet est médié par l'activation des voies de signalisation du TGFβ, impliquant les protéines SMAD3, AKT et ERK et requiert le domaine cytoplasmique d'ADAM12L mais pas son domaine catalytique. L'activation de ces voies de signalisation pourrait impliquer une relocalisation d'ADAM12L au sein de plates-formes de signalisation dans les radeaux lipidiques. Par ailleurs, nous avons montré qu'ADAM12L interagit avec les protéines ZO-1 et ZO-2, des protéines des jonctions serrées, et pourrait favoriser leur désassemblage au cours de l'EMT. Nos travaux ont permis de mettre en évidence une nouvelle fonction pour ADAM12L dans l'EMT, par un mécanisme impliquant une modulation des signaux régulant ce processus. Une meilleure compréhension de la dynamique de ces mécanismes moléculaires pourrait permettre de développer de nouvelles thérapies ciblées pour lutter contre la progression tumorale. / Communication between tumoral cells and the microenvironnement plays an essential role in the developpement of tumors. In that context, the new family of metalloproteases, the ADAM proteins, are major regulators of the tumoral progression by acting on the bioavaibility of importants mediators of cellular communication as cytokines and growth factors. Among this family, ADAM12 is the most associated with cancer. It has been shown to mediate signaling pathways by a process independant of its metalloproteasis activity, in particular for TGFβ signaling. This study show for the first time a role for the membrane form of ADAM12 in the induction of epithelial to mesenchymal transition (EMT), a essential process involved in tumor invasion, whom TGFβ is a main inducer. This effect is mediated by the activation of TGFβ signaling pathways, SMAD3, AKT and ERK and require the cytoplasmic tail of ADAM12L but not its catalytic activity. Activation of these pathways could involve a relocalisation of ADAM12L in special signaling platform in lipid rafts. Moreover, we have shown that ADAM12L interact with ZO-1 and ZO-2, two proteins of tight junctions, and could facilitate their desassembling during EMT. This work underscore for the first time a new function of ADAM12L in EMT, by a mecanism invovlving a modulation of signals regulating this process. A better understanding of the dynamic of these molecular mecanisms could allow the developpement of new targeted therapies to fight against tumoral progression. Adam12 Transition Epithélio-Mésenchymateuse TGFβ Erk Radeaux lipidiques Zo Adam12 Epithelial to Mesenchymal Transition TGFβ Erk Lipid rafts Zo
69	Effets insulino-sécrétoires et protecteurs de la quercétine au niveau de la cellule beta pancréatique : implication du calcium intracellulaire et de ERK1/2 / Effect of quercetin on insulin secretion and protection of pancreatic beta cell : implication of intracellular calcium and ERK1/2 Bardy, Guillaume 12 December 2012 (has links) Dans le diabète de type 2 établi, l'hyperglycémie chronique, un taux élevé d'acides gras libres et l'inflammation induisent un stress oxydatif (SO) au niveau de la cellule beta. Le SO, qui apparaît dès le stade de pré-diabète, peut induire un dysfonctionnement précoce de cette cellule. Ainsi, la protection de la cellule β par des molécules anti-oxydantes pourrait ralentir la progression du pré-diabète au diabète.La quercétine, un flavonoïde, a présenté des propriétés antidiabétiques dans plusieurs études in vivo. Cependant, très peu de données traitent de son mécanisme d'action directement au niveau de la cellule beta. Dans ce contexte, nous avons étudié les effets de la quercétine au niveau de la cellule beta dans des conditions physiologiques et des conditions de SO.Nos résultats montrent qu'en présence de concentrations stimulantes de sécrétagogue, la quercétine potentialise la sécrétion d'insuline par un mécanisme impliquant l'augmentation de calcium intracellulaire et la potentialisation de ERK1/2 via l'activation des voies de la PKA et de la CaMK II. De plus, la quercétine protège la cellule beta du SO en sur-activant ERK1/2. Le resvératrol et la NAC, deux antioxydants de référence, sont inactifs dans ces conditions expérimentales.En absence de concentrations stimulantes de sécrétagogue, la quercétine induit une sécrétion d'insuline modérée en augmentant le calcium intracellulaire suite à une activation directe des CaV de type L. Dans ces conditions, l'activation de ERK1/2 induite par la quercétine, qui est indépendante de l'activation des voies de la PKA et de la CaMK II, ne serait pas impliquée dans le mécanisme sécrétoire. Nos résultats indiquent que le mécanisme d'action de la quercétine au niveau de la cellule β ne repose pas uniquement sur ses capacités anti-oxydantes mais fait intervenir des cibles pharmacologiques et la régulation de voies de signalisation intracellulaires. / In type 2 diabetes, chronic hyperglycaemia, elevated free fatty acids and inflammation induce oxidative stress (OS) in pancreatic β cell. SO, which appears at the stage of pre-diabetes, may induce early dysfunction of this cell. Thus, the β cell protection by antioxidant molecules could slow the progression of pre-diabetes to diabetes.Quercetin, a flavonoid, has shown antidiabetic properties in several in vivo studies. However, very few data address its mechanism of action directly at the β cell. In this context, we studied the effects of quercetin at the β cell under physiological conditions and conditions of OS.Our results show that in the presence of stimulating concentrations of secretagogue, quercetin potentiates insulin secretion by a mechanism involving increased intracellular calcium and potentiation of ERK1 / 2 via activation of the PKA and the CaMK II pathways. In addition, quercetin protects beta cell from OS via a suractivation of ERK1/2. Resveratrol and NAC, two antioxidants of reference are inactive under these experimental conditions.In the absence of stimulating concentration of secretagogue, quercetin induced moderate insulin secretion by increasing the intracellular calcium via a direct activation of L-type CaV Under these conditions, the activation of ERK1/2 induced by quercetin, which is independent of the activation pathways of PKA and CaMK II to, would not be involved in the secretory mechanism.Our results indicate that the mechanism of action of quercetin at the β cell not only based on its antioxidant capacity but involves pharmacological targets and the regulation of intracellular signaling pathways. Quercétine Sécrétion d'insuline Canaux calciques voltage dépendant Erk 1/2 Cellule beta pancréatique Quercetin Insulin secretion Voltage dependent calcium channel Erk 1/2 Pancreatic beta cell 616
70	Cartographie des interactions virus-hôtes pour le virus de la fièvre catarrhale ovine et mise en évidence d'une nouvelle fonction portée par la protéine NS3 / Mapping virus-host interactions for bluetongue virus and highlighting a new function carried by NS3 protein Kundlacz, Cindy 18 December 2018 (has links) Le virus de la fièvre catarrhale ovine (Bluetongue virus, BTV) est l’agent étiologique de la maladie du même nom, une arbovirose non contagieuse transmise aux ruminants domestiques et sauvages par l’intermédiaire de morsures de moucherons hématophages du genre Culicoides. Il existe actuellement 27 sérotypes décrits de BTV à travers le monde qui se distinguent par les pathologies qu’ils induisent et leur capacité à infecter et se propager chez leur(s) hôte(s) mammifère(s). Le premier objectif de mon projet de thèse visait à identifier les interactions cellulaires spécifiques des sérotypes 8 et 27 pour identifier des facteurs de pathogénicité/virulence et/ou de franchissement de barrière d’espèces. Pour atteindre cet objectif, l’ensemble des protéines virales du BTV a été criblé par la méthode du double-hybride en levure contre deux banques d’ADN complémentaires, l’une d’origine bovine et l’autre d’origine culicoïde. A l’issue de 70 cribles, une centaine de nouvelles interactions virus-hôtes a été mise en évidence et révèle un enrichissement pour quatre processus cellulaires : l’épissage des ARNm, les ribosomes, la SUMOylation et l’apoptose. Cette étude nous a ainsi permis de réaliser le premier interactome pour le BTV qui se poursuit au travers de multiples validations biochimiques et fonctionnelles des interactions identifiées. En parallèle de ce travail de protéomique, le second objectif de mon projet de thèse a été de déterminer l’impact du BTV sur la voie MAPK/ERK, une voie cellulaire essentielle à la prolifération et différenciation cellulaire et classiquement modulée lors d’infections virales. En plus de son rôle antagoniste sur la voie des interférons de type I, nous avons démontré la capacité de la protéine NS3 de BTV à activer la voie MAPK/ERK. En effet, nous avons démontré que NS3 a la capacité d’augmenter le niveau de phosphorylation des protéines kinases ERK1/2 mais également du facteur de traduction eIF4E. Cette fonction, qui semble être spécifique au BTV par rapport aux autres orbivirus, implique l’interaction de NS3 avec la protéine cellulaire BRAF, une protéine MAP3 kinase jouant un rôle majeur dans l’activation de la voie MAPK/ERK. L’activation cette voie par NS3 pourrait être un mécanisme de détournement de la traduction cellulaire au profit de celle du virus mais aussi constituer un élément de réponse pour expliquer l’hyper-inflammation observée dans le cas d’une infection par ce virus / Bluetongue virus (BTV) is the etiological agent of the bluetongue (BT) disease, a non-contagious arbovirus that affects a wide range of wild and domestic ruminants. It is transmitted by blood-feeding midges of the genus Culicoides. There are currently 27 serotypes described of BTV in the world that are distinguished by their differences in term of pathology/virulence and their capacity to infect and disseminate in their mammalian host(s). The first objective of my thesis project was to identify specific cellular interactions of serotype 8 and 27 to reveal new factors of pathogenicity/virulence and/or cross species barrier. To reach this goal, all the proteins encoded by BTV were used as baits to screen, by a high-throughput yeast two-hybrid (Y2H) approach, two complementary DNA libraries originating from hosts naturally infected by BTV : Culicoides and cattle. Therefore, 70 screens were performed to identify a hundred of new virus-host interactions and reveal an enrichment for four cellular processes : mRNA splicing, ribosomes, SUMOylation and apoptosis. This study allowed us to build the first interactome of BTV which continues through multiple biochemical and functional validations of the identified interactions. In parallel to this proteomics work, my second objective was to determine the impact of BTV on the MAPK/ERK pathway, a cellular pathway essential for cell proliferation and differentiation usually modulated during viral infections. In addition to its antagonist role on the type I interferon pathway, we have demonstrated the ability of BTV-NS3 to activate the MAPK/ERK pathway. Indeed, we have demonstrated that NS3 has the ability to increase the level of phosphorylation of ERK1/2 protein and the eIF4E translation factor. This function, which seems to be specific to BTV compared to other orbiviruses, involves the interaction of NS3 with BRAF cellular protein, a MAP3 kinase protein that plays a major role in the regulation of the MAPK/ERK pathway. These results could provide a better understanding of the molecular basis underlying the hijacking of the translation machinery to support virus replication but also constitute a hypothesis to explain the hyperinflammation observed in the BTV infection context Virus de la fièvre catarrhale ovine Interactions virus-Hôtes Protéine NS3 Voie MAPK/ERK Bluetongue virus Virus-Host interactions NS3 protein MAPK/ERK signaling pathway

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