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Showing 431 to 437 of 437 (0.015 seconds)Spelling suggestions: "subject:"mapk"" "subject:"sapk""
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The role of the JNK/AP-1 pathway in the induction of iNOS and CATs in vascular cellsZamani, Marzieh January 2013 (has links)
Nitric oxide (NO) is an important biological molecule within the body, which over production of this molecule in response to different stimulations can cause various inflammatory diseases. Over production of this molecule is caused by the induction of the inducible nitric oxide synthase (iNOS) enzyme. This enzyme uses L-arginine as a substrate and therefore the presence and transport of this amino acid into the cells can be a key factor in regulating NO over production. Different signalling mechanisms have been implicated in the regulation of this pathway and one of which involves the Mitogen Activated Protein Kinases (MAPK). This family of proteins respond to inflammatory conditions and may mediate effects induced by inflammatory mediators. Of the MAPKs, the role of the c-Jun-N-terminal kinase (JNK) pathway in the induction of iNOS is still controversial. JNK and its downstream target, the transcription factor Activator Protein-1 (AP-1), have shown contradictory effects on iNOS induction leading to controversies over their role in regulating iNOS expression in different cell systems or with various stimuli. The studies described in this thesis have determined the role of JNK/AP-1 on iNOS expression, NO production, L-arginine uptake and also on the transporters responsible for L-arginine transport into the cells. The studies were carried out in two different cell types: rat aortic smooth muscle cells (RASMCs) and J774 macrophages which are both critically associated with the over production of NO in vascular inflammatory disease states. The first approach was to block the expression of the inducible L-arginine-NO pathway using SP600125 and JNK Inhibitor VIII which are both pharmacological inhibitors of JNK. The results from these studies showed that the pharmacological intervention was without effect in RASMCs, but inhibited iNOS, NO and L-arginine transport in J774 macrophages. In contrast, the molecular approach employed using two dominant negative constructs of AP-1 (TAM-67 and a-Fos) revealed a different profile of effects in RASMCs, where a-Fos caused an induction in iNOS and NO while TAM-67 had an inhibitory effect on iNOS, NO, L-arginine transport and CAT-2B mRNA expression. The latter was unaffected in RASMCs but suppressed in J774 macrophages by SP600125. Examination of JNK isoforms expression showed the presence of JNK1 and 2 in both cell systems. Moreover, stimulation with LPS/IFN- or LPS alone resulted in JNK phosphorylation which did not reveal any difference between smooth muscle cells and macrophages. In contrast, expression and activation of AP-1 subunits revealed differences between the two cell systems. Activation of cells with LPS and IFN- (RASMCs) or LPS alone (J774 macrophages) resulted in changes in the activated status of the different AP-1 subunit which was different for the two cell systems. In both cell types c-Jun, JunD and Fra-1 were increased and in macrophages, FosB activity was also enhanced. Inhibition of JNK with SP600125 caused down-regulation in c-Jun in both cell types. Interestingly this down-regulation was in parallel with increases in the subunits JunB, JunD, c-Fos and Fra-1 in RASMCs or JunB and Fra-1 in J774 macrophages. Since, SP600125 was able to exert inhibitory effects in the latter cell type but not in RASMCs, it is possible that the compensatory up-regulation of certain AP-1 subunits in the smooth muscle cells may compensate for c-Jun inhibition thereby preventing suppression of iNOS expression. This notion clearly needs to be confirmed but it is potentially likely that hetero-dimers formed between JunB, JunD, c-Fos and Fra-1 could sustain gene transcription in the absence of c-Jun. The precise dimer required has not been addressed but unlikely to exclusively involve JunB and Fra-1 as these are up-regulated in macrophages but did not sustain iNOS, NO or induced L-arginine transport in the presence of SP600125. To further support the argument above, the dominant negatives caused varied effects on the activation of the different subunits. a-Fos down-regulated c-Jun, c-Fos, FosB, Fra-1 whereas TAM-67 reduced c-Jun and c-Fos but marginally induced Fra-1 activity. Associated with these changes was an up-regulation of iNOS-NO by a-Fos and inhibition by TAM-67. Taken together, the data proposes a complex mechanism(s) that regulate the expression of the inducible L-arginine-NO pathway in different cell systems and the complexity may reflect diverse intracellular changes that may be different in each cell type and not always be apparent using one experimental approach especially where this is pharmacological. Moreover, these findings strongly suggest exercising caution when interpreting pure pharmacological findings in cell-based systems particularly where these are inconsistent or contradictory.
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Regulation of the 11beta-hydroxysteroid dehydrogenase type 2 promoter by steroid hormones in breast cancer cells. Convergence of progesterone receptor binding to DNA and JAK/START pathway activationSubtil Rodriguez, Alicia 27 June 2007 (has links)
El gen humano 11-HSD2 es un modelo para investigar la contribución de los efectos de los receptores de esteroides en células de cáncer de mama. El análisis del promotor mostró que la región distal está implicada en la mayor parte de la activación dependiente de hormona. En respuesta a hormona, STAT5A se recluta a la región distal y PR a las regiones distal y proximal del promotor. El reclutamiento de PR se debe a dos mecanismos diferentes, la unión directa de PR a la región proximal, y la implicación vía JAK/STAT en el reclutamiento a la región distal. La inducción del gen 11-HSD2 por hormonas disminuye parcialmente por inhibidores de MAPK y PI3K/Akt y totalmente por inhibidores de JAK/STAT. Así, los efectos citoplasmáticos del PR están implicados en la inducción del gen progesterona. La forma activa de la ARN-polimerasa II es reclutada por la inducción con hormonas a la región distal del promotor 11-HSD2 y la región distal tiene respuesta a hormonas por sí misma, indicando que la inducción del gen por hormonas empieza antes del sitio de inicio de transcripción descrito previamente. / The human 11-HSD2 gene is a model to investigate the contribution of steroid hormone receptors effects on a progesterone responsive promoter in breast cancer cells. Deletion analysis of the 11-HSD2 promoter showed that the distal region is involved in most of the hormone-dependent activation. ChIP showed hormone-dependent STAT5A-recruitment to the distal region and PR-recruitment to the distal and proximal promoter regions. Results suggest two different mechanisms of hormone-induced PR-recruitment, since cells stably expressing PR containing a mutated DNA-binding domain have affected hormone-dependent PR-recruitment to proximal promoter, and JAK/STAT pathway inhibition blocks PR-recruitment to distal promoter. Hormone-stimulated 11-HSD2 gene-expression was partially decreased by MAPK and PI3K/AKT pathway inhibitors and totally blocked by JAK/STAT pathways inhibitors, indicating that cytoplasmic PR effects involvement in progestin-induced 11-HSD2 expression. Importantly, upon hormone induction active RNA-polymerase II is recruited from the 11-HSD2 distal promoter region and the distal minimal promoter has hormone-responsiveness by itself, suggesting that progesterone-dependent 11-HSD2 expression starts upstream the previously characterized transcription start site.
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Implication de la signalisation calcique et des MAP kinases dans la perception gustative lipidique / Unvolvement of calcium signaling and MAP kinases in lipid taste perceptionAbdoul-Azize, Souleymane 23 September 2013 (has links)
Dans ce travail, nous démontrons que STIM1, un senseur calcique activé par la déplétion du Ca2+ intracellulaire du réticulum endoplasmique, est indispensable pour la signalisation calcique et la préférence oro-sensorielle du gras. Nous observons que l'acide linoléique (LA), en activant les phospholipases A2 via CD36, produit de l’acide arachidonique (AA) et de la lyso-phosphatidylcholine (lyso-PC). Cette activation déclenche un influx calcique dans les cellules CD36-positives, et induit la production du facteur CIF (Ca2+ Influx Factor). CIF, AA et lyso-PC exercent différentes actions sur l'ouverture des canaux SOC (Stored Operated Calcium Channel) constitués de protéines Orai et contrôlés par STIM1. Par ailleurs, les souris au phénotype Stim1-/- perdent la préférence spontanée pour les lipides et la libération de la sérotonine à partir des cellules gustatives dans le milieu extracellulaire chez les animaux sauvages. Nous demontrons aussi que la signalisation calcique médiée via CD36 est doublement modulée lors de l’obésité. L’augmentation de la [Ca2+]i dans les cellules gustatives observée chez le Psammomys obesus, un modèle d’obésité nutritionelle, est fortement diminuée chez les souris rendues obèses par un regime hyperlipidique. Nous avons constaté également que l’interaction de LA avec le CD36 induit l’activation des MAP Kinases de la voie MEK1/2/ERK1/2/Elk-1 qui est non seulement à l’origine de l’activation des aires cérébrales telles que le NTS, le noyau arqué, l’hippocampe mais aussi indispensable pour la préférence spontanée pour les lipides alimentaires. Nos résultats suggèrent pour la prémière fois, que la voie ERK1/2 des MAPK et la signalisation calcique lipidique controlée par STIM1 sont impliquées dans la perception oro-gustative des lipides / In this work, we demonstrate that stromal interaction molecule 1 (STIM1), a sensor of Ca2+ depletion in the endoplasmic reticulum, mediates fatty acid–induced Ca2+ signaling in the mouse tongue and fat preference. We showed that linoleic acid (LA) induced the production of arachidonic acid (AA) and lysophosphatidylcholine (Lyso-PC) by activating multiple phospholipase A2 isoforms via CD36. This activation triggered Ca2+ influx in lingual CD36-positive taste bud cells (TBCs) purified from mouse CVP. LA also induced the production of Ca2+ influx factor (CIF). STIM1 was found to regulate LA-induced CIF production and the opening of store-operated Ca2+ (SOC) channels. Furthermore, CD36-positive TBCs from Stim1–/– mice failed to release serotonin, and Stim1–/– mice lost the spontaneous preference for fat that was observed in wild-type animals. We also demonstrate that the calcium-mediated signaling via CD36 is doubly modulated in obesity. The increase in [Ca2+]i in taste bud cells observed in Psammomys obesus, a model of nutritional obesity is strongly reduced in diet-induced obese (DIO) mice. We also found that the interaction of LA with CD36 induces activation of MAP Kinases MEK1/2/ERK1/2/Elk-1 pathway that is not only responsible for the activation of NTS, arcuate nucleus, and the hippocampus in the brain but also essential for the spontaneous preference for fat food. Our results suggest for the first time, that ERK1/2 MAPK pathway and lipid-induced calcium signaling controlled by STIM1 are involved in oro-gustatory perception of dietary lipids
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The Rtg1 and Rtg3 proteins are novel transcription factors regulated by the yeast hog1 mapk upon osmotic stressNoriega Esteban, Núria 27 February 2009 (has links)
La adaptación de la levadura Saccharomyces cerevisiae a condiciones de alta osmolaridad está mediada por la vía de HOG ((high-osmolarity glycerol). La activación de esta vía induce una serie de respuestas que van a permitir la supervivencia celular en respuesta a estrés. La regulación génica constituye una respuesta clave para dicha supervivencia. Se han descrito cinco factores de transcripción regulados por Hog1 en respuesta a estrés osmótico. Sin embargo, éstos no pueden explicar la totalidad de los genes regulados por la MAPK Hog1. En el presente trabajo describimos cómo el complejo transcripcional formado por las proteínas Rtg1 y Rtg3 regula, a través de la quinasa Hog1, la expresión de un conjunto específico de genes. Hog1 fosforila Rtg1 y Rtg3, aunque ninguna de estas fosforilaciones son esenciales para regulación transcripcional en respuesta a estrés. Este trabajo también muestra cómo la deleción de proteínas RTG provoca osmosensibilidad celular, lo que indica que la integridad de la vía de RTG es esencial para la supervivencia celular frente a un estrés osmótico. / In Saccharomyces cerevisiae the adaptation to high osmolarity is mediated by the HOG (high-osmolarity glycerol) pathway, which elicits different cellular responses required for cell survival upon osmostress. Regulation of gene expression is a major adaptative response required for cell survival in response to osmotic stress. At least five transcription factors have been reported to be controlled by the Hog1 MAPK. However, they cannot account for the regulation of all of the genes under the control of the Hog1 MAPK. Here we show that the Rtg1/3 transcriptional complex regulates the expression of specific genes upon osmostress in a Hog1-dependent manner. Hog1 phosphorylates both Rtg1 and Rtg3 proteins. However, none of these phosphorylations are essential for the transcriptional regulation upon osmostress. Here we also show that the deletion of RTG proteins leads to osmosensitivity at high osmolarity, suggesting that the RTG-pathway integrity is essential for cell survival upon stress.
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Signal transduction mechanisms for stem cell differentation into cardiomyocytesHumphrey, Peter Saah January 2009 (has links)
Cardiovascular diseases are among the leading causes of death worldwide and particularly in the developed World. The search for new therapeutic approaches for improving the functions of the damaged heart is therefore a critical endeavour. Myocardial infarction, which can lead to heart failure, is associated with irreversible loss of functional cardiomyocytes. The loss of cardiomyocytes poses a major difficulty for treating the damaged heart since terminally differentiated cardiomyocytes have very limited regeneration potential. Currently, the only effective treatment for severe heart failure is heart transplantation but this option is limited by the acute shortage of donor hearts. The high incidence of heart diseases and the scarcity donor hearts underline the urgent need to find alternative therapeutic approaches for treating cardiovascular diseases. Pluripotent embryonic stem (ES) cells can differentiate into functional cardiomyocytes. Therefore the engraftment of ES cell-derived functional cardiomyocytes or cardiac progenitor cells into the damaged heart to regenerate healthy myocardial tissues may be used to treat damaged hearts. Stem cell-based therapy therefore holds a great potential as a very attractive alternative to heart transplant for treating heart failure and other cardiovascular diseases. A major obstacle to the realisation of stem cell-based therapy is the lack of donor cells and this in turn is due to the fact that, currently, the molecular mechanisms or the regulatory signal transduction mechanisms that are responsible for mediating ES cell differentiation into cardiomyocytes are not well understood. Overcoming this huge scientific challenge is absolutely necessary before the use of stem cell-derived cardiomyocytes to treat the damaged heart can become a reality. Therefore the aim of this thesis was to investigate the signal transduction pathways that are involved in the differentiation of stem cells into cardiomyocytes. The first objective was the establishment and use of cardiomyocyte differentiation models using H9c2 cells and P19 stem cells to accomplish the specific objectives of the thesis. The specific objectives of the thesis were, the investigation of the roles of (i) nitric oxide (ii) protein kinase C (PKC), (iii) p38 mitogen-activated protein kinase (p38 MAPK) (vi) phosphoinositide 3-kinase (PI3K) and (vi) nuclear factor-kappa B (NF-kB) signalling pathways in the differentiation of stem cells to cardiomyocytes and, more importantly, to identify where possible any points of convergence and potential cross-talk between pathways that may be critical for differentiation to occur. P19 cells were routinely cultured in alpha minimal essential medium (α-MEM) supplemented with 100 units/ml penicillin /100 μg/ml streptomycin and 10% foetal bovine serum (FBS). P19 cell differentiation was initiated by culturing the cells in microbiological plates in medium containing 0.8 % DMSO to form embryoid bodies (EB). This was followed by transfer of EBs to cell culture grade dishes after four days. H9c2 cells were cultured in Dulbecco’s Modified Eagle’s medium (DMEM) supplemented with 10% FBS. Differentiation was initiated by incubating the cells in medium containing 1% FBS. In both models, when drugs were employed, they were added to cells for one hour prior to initiating differentiation. Cell monolayers were monitored daily over a period of 12 or 14 days. H9c2 cells were monitored for morphological changes and P19 cells were monitored for beating cardiomyocytes. Lysates were generated in parallel for western blot analysis of changes in cardiac myosin heavy chain (MHC), ventricular myosin chain light chain 1(MLC-1v) or troponin I (cTnI) using specific monoclonal antibodies. H9c2 cells cultured in 1% serum underwent differentiation as shown by the timedependent formation of myotubes, accompanied by a parallel increase in expression of both MHC and MLC-1v. These changes were however not apparent until 4 to 6 days after growth arrest and increased with time, reaching a peak at day 12 to 14. P19 stem cells cultured in DMSO containing medium differentiated as shown by the timedependent appearance of beating cardiomyocytes and this was accompanied by the expression of cTnI. The differentiation of both P19 stem cells and H9c2 into cardiomyocytes was blocked by the PI3K inhibitor LY294002, PKC inhibitor BIM-I and the p38 MAPK inhibitor SB2035800. However when LY294002, BIM-I or SB2035800 were added after the initiation of DMSO-induced P19 stem cell differentiation, each inhibitor failed to block the cell differentiation into beating cardiomyocytes. The NF-kB activation inhibitor, CAPE, blocked H9c2 cell differentiation into cardiomyocytes. Fast nitric oxide releasing donors (SIN-1 and NOC-5) markedly delayed the onset of differentiation of H9c2 cells into cardiomyocytes while slow nitric oxide releasing donors (SNAP and NOC-18) were less effective in delaying the onset of differentiation or long term differentiation of H9c2 cells into cardiomyocytes. Akt (protein kinase B) is the key downstream target of PI3K. Our cross-talk data also showed that PKC inhibition and p38 MAPK inhibition respectively enhanced and reduced the activation of Akt, as determined by the phosphorylation of Akt at serine residue 473. In conclusion, PKC, PI3K, p38 MAPK and NF-kB are relevant for the differentiation of stem cells into cardiomyocytes. Our data also show that the PKC, PI3K and p38 MAPK signalling pathways are activated as very early events during the differentiation of stem cells into cardiomyocytes. Our data also suggest that PKC may negatively regulate Akt activation while p38 MAPK inhibition inhibits Akt activation. Our fast NO releasing donor data suggest that nitric oxide may negatively regulate H9c2 cell differentiation.
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SCF cdc4 regulates msn2 and msn4 dependent gene expression to counteract hog1 induced lethalityVendrell Arasa, Alexandre 16 January 2009 (has links)
L'activació sostinguda de Hog1 porta a una inhibició del creixement cel·lular. En aquest treball, hem observat que el fenotip de letalitat causat per l'activació sostinguda de Hog1 és parcialment inhibida per la mutació del complexe SCFCDC4. La inhibició de la mort causada per l'activació sostinguda de Hog1 depèn de la via d'extensió de la vida. Quan Hog1 s'activa de manera sostinguda, la mutació al complexe SCFCDC4 fa que augmenti l'expressió gènica depenent de Msn2 i Msn4 que condueix a una sobreexpressió del gen PNC1 i a una hiperactivació de la deacetilassa Sir2. La hiperactivació de Sir2 és capaç d'inhibir la mort causada per l'activació sostinguda de Hog1. També hem observat que la mort cel·lular causada per l'activació sostinguda de Hog1 és deguda a una inducció d'apoptosi. L'apoptosi induïda per Hog1 és inhibida per la mutació al complexe SCFCDC4. Per tant, la via d'extensió de la vida és capaç de prevenir l'apoptosi a través d'un mecanisme desconegut. / Sustained Hog1 activation leads to an inhibition of cell growth. In this work, we have observed that the lethal phenotype caused by sustained Hog1 activation is prevented by SCFCDC4 mutants. The prevention of Hog1-induced cell death by SCFCDC4 mutation depends on the lifespan extension pathway. Upon sustained Hog1 activation, SCFCDC4 mutation increases Msn2 and Msn4 dependent gene expression that leads to a PNC1 overexpression and a Sir2 deacetylase hyperactivation. Then, hyperactivation of Sir2 is able to prevent cell death caused by sustained Hog1 activation. We have also observed that cell death upon sustained Hog1 activation is due to an induction of apoptosis. The apoptosis induced by Hog1 is decreased by SCFCDC4 mutation. Therefore, lifespan extension pathway is able to prevent apoptosis by an unknown mechanism.
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Dopamine et dégénérescence des neurones striataux dans la maladie de Huntington : vers l'identification de nouvelles cibles thérapeutiquesCharvin, Delphine 05 December 2005 (has links) (PDF)
La maladie de Huntington résulte d'une expansion de glutamines dans la protéine huntingtine. Cette mutation lui confère de nouvelles propriétés, dont celle de s'agréger et de produire une neurodégénérescence, qui malgré l'expression ubiquitaire de la huntingtine mutée, est spécifique du striatum. L'objectif de ce travail consistait à explorer le rôle de la dopamine dans cette vulnérabilité striatale. Après avoir démontré que la huntingtine mutée est capable d'activer la voie pro-apoptotique JNK/cJun dans des cultures primaires de neurones striataux (Garcia, Charvin and Caboche, 2004), nous avons étudié l'influence de la dopamine dans ce modèle neuronal. Nous avons alors montré que la dopamine i) active la voie pro-apoptotique JNK/cJun en synergie avec la huntingtine mutée via la production de radicaux libres, ii) augmente la formation d'agrégats via l'activation des récepteurs D2, iii) augmente la toxicité de la huntingtine mutée à travers ces deux effets combinés. Ainsi, nos résultats suggèrent que la dopamine concourt à la vulnérabilité des neurones striataux exprimant la huntingtine mutée (Charvin et al., 2005). Nous avons ensuite évalué in vivo l'effet thérapeutique d'un traitement précoce avec un antagoniste des récepteurs D2 dans un modèle murin de maladie de Huntington. Chez des rats infectés dans le striatum par des lentivirus exprimant la huntingtine normale ou mutée, nous avons montré que l'halopéridol décanoate retarde la formation des agrégats et protègent les neurones striataux exprimant la huntingtine mutée (Charvin et al., soumis). Ces travaux mettent en évidence un rôle potentialisateur de la dopamine dans la vulnérabilité des neurones striataux à la huntingtine mutée et ouvrent des perspectives nouvelles de thérapies pour la maladie de Huntington.
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