Global ETD Search

171	Intérêt de la modulation pharmacologique des voies PI3K / Akt / mTOR et MAPK / ERK pour la sensibilisation des cancers de l'ovaire aux molécules BH3-mimétiques / Interest of pharmacological modulation of PI3K/Akt/mTOR and MAPK/ERK pathways to sensitize ovarian cancers to BH3-mimetic molecules Pétigny-Lechartier, Cécile 27 April 2017 (has links) Bcl-xL et Mcl-1 sont deux protéines anti-apoptotiques de la famille Bcl-2 dont dépendent les cancers de l’ovaire pour leur survie, leur inhibition semble donc être une stratégie pertinente. La molécule BH3-mimétique ABT 737 (ou son analogue oral, l’ABT-263), est un puissant inhibiteur de Bcl-xL mais l’inhibition de Mcl-1 reste problématique. Les voies de signalisation PI3K/Akt/mTOR et MAPK/ERK régulent l’expression et l’activité de cette dernière protéine et de ses partenaires BH3-only (Bim, Puma, Noxa). Nous nous sommes donc intéressés à l’intérêt de leur inhibition pour sensibiliser les cellules cancéreuses ovariennes à l’ABT-737. La première étude menée avec le BEZ235, double inhibiteur PI3K/mTOR développé par le laboratoire Novartis, montre qu’il inhibe l’expression de Mcl-1 et induit celle de Puma, et qu’il sensibilise les cellules cancéreuses ovariennes à l’ABT-737 à condition que l’expression de Bim soit également induite. La deuxième étude a évalué les effets de l’AZD8055, inhibiteur du site actif de mTOR développé par le laboratoire AstraZeneca, et du trametinib, inhibiteur allostérique de MEK développé par le laboratoire GlaxoSmithKline et actuellement en clinique, sur trois lignées cancéreuses ovariennes. L’inhibition de l’expression de Mcl-1 et l’induction de celle de Puma par l’AZD8055 ne permettent pas de diminuer suffisamment le ratio [Mcl-1/protéines BH3-only] pour sensibiliser les cellules à l’ABT-737. En revanche, la forte induction de Bim sous forme active déphosphorylée par le trametinib permet de diminuer suffisamment ce ratio pour sensibiliser deux des trois lignées testées à l’ABT-737. C’est cependant la triple combinaison AZD8055/trametinib/ABT-737 qui est la plus efficace pour induire une apoptose massive dans les trois lignées. Par ailleurs, de façon intéressante, l’association de l’AZD8055 et du trametinib est cytotoxique sans ABT 737 dans une des lignées testées. Ces résultats mettent en évidence l’efficacité de différentes stratégies thérapeutiques multi-cibles et la nécessité de définir des marqueurs prédictifs de la réponse afin d’évoluer vers un traitement personnalisé pour améliorer la prise en charge des cancers de l’ovaire. / Ovarian cancers depend on Bcl-xL and Mcl-1, two anti-apoptotic protein of the Bcl-2 family, for their survival and their inhibition seems to by a relevant strategy. The BH3-mimetic molecule ABT-737 (or its oral form, ABT-263), is a strong Bcl-xL inhibitor, but Mcl-1 inhibition remains problematic. Signaling pathways PI3K/Akt/mTOR and MAPK/ERK regulate expression and activity of Mcl-1 and its BH3-only partners (Bim, Puma, Noxa). We focused on the interest of their inhibition to sensitize ovarian cancer cells to ABT-737. The first study with BEZ235, a PI3K/mTOR dual inhibitor developed by Novartis, inhibits Mcl-1 expression and induces the one of Puma, and sensitizes ovarian cancer cells to ABT-737 provided that Bim expression is induced. The second study evaluated the effects of AZD8055, mTOR active site inhibitor developed by AstraZeneca, and of trametinib, MEK allosteric inhibitor developed by GlaxoSmithKline and currently in clinic, on three ovarian cancer cell lines. Mcl-1 expression inhibition and Puma expression induction by AZD8055 does not sufficiently reduce [Mcl-1/BH3-only proteins] ratio to sensitize cells to ABT-737. On the other hand, strong Bim induction in its active dephosphorylated form by trametinib sufficiently reduce this ratio to sensitize two of the three cell lines tested to ABT-737. Nevertheless, the triple combination AZD8055/trametinib/ABT-737 is the most efficient to induce massive apoptosis in the three cell lines. Besides, interestingly, AZD8055 and trametinib association is cytotoxic without ABT-737 in one of the tested cell lines. These results highlight the efficacy of different multi-targets therapeutic strategies and the need of predictive marker definition of the response to develop personalized treatment and to improve ovarian cancer management. Voie PI3K/Akt/mTOR Voie MAPK/ERK ABT-737 Ratio Bcl-xL et Mcl-1 Bim et Puma Ovarian cancer Apoptosis PI3K/Akt/mTOR pathway MAPK/ERK pathway 570 610
172	Rétroactivité dans la transduction du signal : étude comparative des réponses en aval et en amont dans les cascades de signalisation / Retroactivity in signal transduction : a comparative study of forward and backward responses in signaling cascades Catozzi, Simona 15 December 2016 (has links) Les cellules communiquent avec leur environnement par l’intermédiaire d’un réseau de transduction du signal, leur permettant d’interpréter des signaux physico-chimiques et de produire des réponses appropriées. Ce mécanisme est orchestré par des cascades de signalisation, qui jouent le rôle d’émetteurs intracellulaires en transférant des stimuli biochimiques entre la membrane et le noyau. Il a été montré qu’une perturbation peut se propager en amont (et pas seulement en aval) d’une cascade par un phénomène appelé rétroactivité. Notre étude vise à comparer les conditions biochimiques qui favorisent un et/ou l’autre sens de signalisation dans des cascades linéaires. Au moyen d’approches analytiques et numériques, nous avons caractérisé les différents régimes de signalisation résultants, que nous avons résumés avec une représentation graphique compacte. Nous avons également développé le concept de profil d’activation d’une voie de signalisation qui est, pour un stimulus donné, la séquence des protéines activées à chaque niveau de la cascade à l’état stationnaire. Ces séquences correspondent à des morceaux d’orbites d’un système dynamique discret bidimensionnel. A partir de l’étude des portraits de phase, en fonction des paramètres biochimiques, nous avons étudié les propriétés de contraction/expansion autour des points fixes et de leurs bifurcations. Nous avons classifié les niveaux de cascade en trois types et examiné leur impact biologique au sein d’un réseau de signalisation. Cette méthode a également fourni une vision globale de l’interaction entre la signalisation en avant et rétroactive, et de l’amplification du signal le long du profil d’activation de la cascade / Living cells communicate with their external environment, by means of a signal transduction network, which allows them to interpret physico-chemical signals and produce appropriate responses. This complex machinery is orchestrated by signaling cascades, which play the role of intracellular transmitters, by transferring biochemical stimuli between cellular membrane and nucleus. It has been shown that a perturbation can propagate upstream (and not only downstream) a cascade, through a phenomenon called retroactivity. Our investigation aims to compare the biochemical conditions promoting one and/or the other direction of signaling in linear cascades. By means of analytical and numerical approaches, we have answered to this question, by characterizing the arising different signaling regimes, and we have designed a compact graphical representation to relay the gist of such conditions. We have also developed the concept of pathway activation profile which is, for a given stimulus, the sequence of activated proteins at each tier of the cascade, at steady state. Such sequences correspond to pieces of orbits of a two-dimensional discrete dynamical system. From the study of the possible phase portraits, as a function of the biochemical parameters, we focused on the contraction/expansion properties around the fixed points of this discrete map, and their bifurcations. We have deduced a classification of the cascade tiers into three main types, whose biological impact within a signaling network has been examined. This method also provided global insights about the interplay between forward and retroactive signaling, and how signal is amplified along the cascade activation profile Cascades de signalisation Rétroactivité Systèmes dynamiques Cascades MAPK Inhibiteurs de kinases Signaling cascades Retroactivity Dynamical systems Pathway activation profiles MAPK cascades Kinase inhibitors
173	Sensitivity towards HDAC inhibition is associated with RTK/MAPK pathway activation in gastric cancer Seidlitz, Therese, Schmäche, Tim, Garcίa, Fernando, Lee, Joon Ho, Qin, Nan, Kochall, Susan, Fohgrub, Juliane, Pauck, David, Rothe, Alexander, Koo, Bon‐Kyoung, Weitz, Jürgen, Remke, Marc, Muñoz, Javier, Stange, Daniel E. 06 June 2024 (has links) Gastric cancer ranks the fifth most common and third leading cause of cancer‐related deaths worldwide. Alterations in the RTK/MAPK, WNT, cell adhesion, TP53, TGFβ, NOTCH, and NFκB signaling pathways could be identified as main oncogenic drivers. A combination of altered pathways can be associated with molecular subtypes of gastric cancer. In order to generate model systems to study the impact of different pathway alterations in a defined genetic background, we generated three murine organoid models: a RAS‐activated (KrasG12D, Tp53R172H), a WNT‐activated (Apcfl/fl, Tp53R172H), and a diffuse (Cdh1fl/fl, Apcfl/fl) model. These organoid models were morphologically and phenotypically diverse, differed in proteome expression signatures and possessed individual drug sensitivities. A differential vulnerability to RTK/MAPK pathway interference based on the different mitogenic drivers and according to the level of dependence on the pathway could be uncovered. Furthermore, an association between RTK/MAPK pathway activity and susceptibility to HDAC inhibition was observed. This finding was further validated in patient‐derived organoids from gastric adenocarcinoma, thus identifying a novel treatment approach for RTK/MAPK pathway altered gastric cancer patients. info:eu-repo/classification/ddc/610 ddc:610
174	Single nucleotide polymorphisms and haplotypes associated with feed efficiency in beef cattle Serao, Nick, Gonzalez-Pena, Dianelys, Beever, Jonathan, Faulkner, Dan, Southey, Bruce, Rodriguez-Zas, Sandra January 2013 (has links) BACKGROUND:General, breed- and diet-dependent associations between feed efficiency in beef cattle and single nucleotide polymorphisms (SNPs) or haplotypes were identified on a population of 1321 steers using a 50K SNP panel. Genomic associations with traditional two-step indicators of feed efficiency - residual feed intake (RFI), residual average daily gain (RADG), and residual intake gain (RIG) - were compared to associations with two complementary one-step indicators of feed efficiency: efficiency of intake (EI) and efficiency of gain (EG). Associations uncovered in a training data set were evaluated on independent validation data set. A multi-SNP model was developed to predict feed efficiency. Functional analysis of genes harboring SNPs significantly associated with feed efficiency and network visualization aided in the interpretation of the results.RESULTS:For the five feed efficiency indicators, the numbers of general, breed-dependent, and diet-dependent associations with SNPs (P-value<0.0001) were 31, 40, and 25, and with haplotypes were six, ten, and nine, respectively. Of these, 20 SNP and six haplotype associations overlapped between RFI and EI, and five SNP and one haplotype associations overlapped between RADG and EG. This result confirms the complementary value of the one and two-step indicators. The multi-SNP models included 89 SNPs and offered a precise prediction of the five feed efficiency indicators. The associations of 17 SNPs and 7 haplotypes with feed efficiency were confirmed on the validation data set. Nine clusters of Gene Ontology and KEGG pathway categories (mean P-value<0.001) including, 9nucleotide binding / ion transport, phosphorous metabolic process, and the MAPK signaling pathway were overrepresented among the genes harboring the SNPs associated with feed efficiency.CONCLUSIONS:The general SNP associations suggest that a single panel of genomic variants can be used regardless of breed and diet. The breed- and diet-dependent associations between SNPs and feed efficiency suggest that further refinement of variant panels require the consideration of the breed and management practices. The unique genomic variants associated with the one- and two-step indicators suggest that both types of indicators offer complementary description of feed efficiency that can be exploited for genome-enabled selection purposes. Feed efficiency Beef cattle Single nucleotide polymorphism Haplotype Functional analysis MAPK pathway Serine/Threonine kinase activity
175	Modulation of breast cancer cell viability by a cannabinoid receptor 2 agonist, JWH-015, is calcium dependent Vanderah, Todd, Hanlon, Katherine, Lozano-Ondoua, Alysia, Umaretiya, Puja, Symons-Ligouri, Ashley, Chandramouli, Anupama, Moy, Jamie, Kwass, William, Mantyh, Patrick, Nelson, Mark 04 1900 (has links) Introduction: Cannabinoid compounds, both nonspecific as well as agonists selective for either cannabinoid receptor 1 (CB1) or cannabinoid receptor 2 (CB2), have been shown to modulate the tumor microenvironment by inducing apoptosis in tumor cells in several model systems. The mechanism of this modulation remains only partially delineated, and activity induced via the CB1 and CB2 receptors may be distinct despite significant sequence homology and structural similarity of ligands. Methods: The CB2-selective agonist JWH-015 was used to investigate mechanisms downstream of CB2 activation in mouse and human breast cancer cell lines in vitro and in a murine mammary tumor model. Results: JWH-015 treatment significantly reduced primary tumor burden and metastasis of luciferase-tagged murine mammary carcinoma 4T1 cells in immunocompetent mice in vivo. Furthermore, JWH-015 reduced the viability of murine 4T1 and human MCF7 mammary carcinoma cells in vitro by inducing apoptosis. JWH-015-mediated reduction of breast cancer cell viability was not dependent on G alpha(i) signaling in vitro or modified by classical pharmacological blockade of CB1, GPR55, TRPV1, or TRPA1 receptors. JWH-015 effects were calcium dependent and induced changes in MAPK/ERK signaling. Conclusion: The results of this work characterize the actions of a CB2-selective agonist on breast cancer cells in a syngeneic murine model representing how a clinical presentation of cancer progression and metastasis may be significantly modulated by a G-protein-coupled receptor. cannabinoid receptor-2 CB2 breast cancer JWH-015 MAPK/ERK apoptosis calcium
176	Systematic approaches to overcoming limitations of MAPK pathway inhibition in melanoma Konieczkowski, David Joseph 10 October 2015 (has links) Metastatic melanoma is an aggressive, incurable cancer with historically few therapeutic options. The discovery that 60% of melanomas harbor the oncogenic BRAF_V600E mutation, which constitutively activates the MAPK pathway, has provided a promising new therapeutic axis. Although MAPK pathway inhibitor therapy has shown striking clinical results in BRAF_V600-mutant melanoma, this approach faces three limitations. First, 10-20% of BRAF_V600-mutant melanomas never achieve meaningful response to MAPK pathway inhibitor therapy (intrinsic resistance). Second, among BRAF_V600-mutant melanomas initially responding to MAPK pathway inhibitor therapy, relapse is universal (acquired resistance). Third, approximately 40% of melanomas lack BRAF_V600 mutations and so are not currently candidates for MAPK pathway inhibitor therapy. We sought to address each of these problems: by characterizing the phenomenon of intrinsic MAPK pathway inhibitor resistance, by finding ways to perturb mechanisms of acquired MAPK pathway inhibitor resistance, and by identifying novel dependencies in melanoma outside of the MAPK pathway. Intriguingly, the NF-kappa B pathway emerged as a common theme across these investigations. In particular, we establish that MAPK pathway inhibitor sensitive and resistant melanomas display distinct transcriptional signatures. Unlike most BRAF_V600-mutant melanomas, which highly express the melanocytic lineage transcription factor MITF, MAPK pathway inhibitor resistant lines display low MITF expression but high levels of NF-kappa B signaling. These divergent transcriptional states, which arise in melanocytes from aberrant MAPK pathway activation by BRAF_V600E, remain plastic and mutually antagonistic in established melanomas. Together, these results characterize a dichotomy between MITF and NF-kappa B cellular states as a determinant of intrinsic sensitivity versus resistance to MAPK pathway inhibitors in BRAF_V600-mutant melanoma. In separate investigations, we have shown that, NFKB1 p105, a member of the NF-kappa B family, intimately regulates levels of COT, a known effector of resistance to MAPK pathway inhibitors. Moreover, we have used shRNA screening to nominate particular nodes within the NF-kappa B pathway, including MYD88 and IRF3, as candidate melanoma lineage-specific dependencies. Cumulatively, although these studies use diverse approaches to investigate the limitations of MAPK pathway inhibitor therapy in melanoma, they converge in nominating the NF-kappa B pathway as a previously underappreciated feature of melanoma biology and suggest the relevance of this pathway for future investigation. Genetics Pharmacology intrinsic resistance MAPK pathway melanoma MITF NF-kappa B
177	THE PHARMACOGENOMICS OF EGFR-DEPENDENT NSCLC: PREDICTING AND ENHANCING RESPONSE TO TARGETED EGFR THERAPY Balko, Justin M. 01 January 2009 (has links) The introduction of tyrosine kinase inhibitors (TKI) targeting the epidermal growth factor receptor (EGFR) inhibitors to the clinic has resulted in an improvement in the treatment of non small cell lung cancer (NSCLC). However, many patients treated with EGFR TKIs do not respond to therapy. The burden of failed treatment is largely placed on the healthcare field, limiting the effectiveness of EGFR TKIs. Furthermore, responses are hindered by the emergence of resistance. Thus, two questions must be addressed to achieve maximum benefit of EGFR inhibitors: How can patients who will benefit from EGFR TKIs be selected a priori? How can patients who respond achieve maximal benefit? To answer these questions, two hypotheses were formed. First, the EGFR-dependent phenotype, which is displayed by the tumors cells of those patients who respond clinically to EGFR TKIs, can be captured by genomic profiling of NSCLC cell lines stratified by sensitivity to EGFR TKIs. This gene signature may be used to predict the outcome of EGFR TKI therapy in unknown samples. Secondly, the predictive signature of response to EGFR TKI could provide insights into the underlying biology of the phenotype of EGFR-dependency. This information could be exploited to identify inhibitors which could be combined with EGFR inhibitors to elicit a greater effect, thereby minimizing resistance. The work herein describes the testing of these hypotheses. Pharmacogenomics was utilized to define a signature of EGFR-dependency which effectively predicted response to EGFR TKI in vitro and in vivo. Furthermore, the signature was analyzed by bioinformatic approaches to identify the RAS/MAPK pathway as a candidate target in EGFR-dependent NSCLC. The RAS/MAPK pathway regulates expression and activation of EGF-like ligands. Furthermore, the RAS/MAPK pathway modulates EGFR stability in the EGFR-dependent phenotype. Further biochemical analyses demonstrated that the RAS/MAPK pathway mediates proliferation and survival of EGFR-dependent NSCLC cells. Finally, combinatorial treatment of EGFR-dependent NSCLC cell lines with small molecules targeting EGFR and the RAS/MAPK pathway yielded cytotoxic synergy. Thus, we have used pharmacogenomics methods to potentially improve NSCLC treatment by developing a method of predicting response and identifying an additional target to combine with EGFR TKIs to maximize responses. Pharmacy and Pharmaceutical Sciences
178	Insulin Sensitivity is Enhanced by CGMP-mediated MAPK Inhibition in Rat Adipocytes Thomas, Garry 16 February 2010 (has links) Bradykinin (BK) acts through eNOS to reduce MAPK-mediated feedback inhibition of insulin signalling. Preliminary data suggest that the sGC-cGMP-PKG pathway, a prominent NO target, is involved. Our present study aimed to support the role of this pathway with atrial natriuretic peptide (ANP), which uses a receptor associated GC (NPR-A) to generate cGMP. We found that treating adipocytes with ANP mimicked BK effects on insulin-stimulated glucose uptake, Tyr-IRS-1 and Akt/PKB phosphorylation, as well as JNK and ERK1/2 inhibition. These outcomes depended on GC-cGMP-PKG signalling since A71915 (NPR-A antagonist), and KT-5823 (PKG inhibitor), completely abrogated them, while zaprinast (phosphodiesterase inhibitor), prolonged ANP actions. Furthermore, decreased MAPK phosphorylation was independent of upstream kinase activity, suggesting that MAPK phosphatases may be involved. These data indicate that BK and ANP act through the GC-cGMP-PKG pathway to potentiate insulin signalling via attenuated feedback inhibition. Stimulating the GC-cGMP-PKG pathway may, therefore, be a promising therapy for T2DM. ANP insulin resistance bradykinin diabetes MAPK AKT PKB cGMP PKG 0307
179	Role of fibroblast growth factor signalling on the regulation of embryonic stem cells Freile Vinuela, Paz January 2008 (has links) Fibroblast growth factor (FGF) signalling plays many fundamentally important roles during the development of the mammalian embryo. However, its effects on pluripotent stem cells derived from mouse and human embryos appear to be markedly different. FGF2 is routinely added to culture medium for propagating undifferentiated human (hES) cells, whereas in mouse (mES) cell cultures FGFs have been described as regulators of their differentiated progeny. To assess the effect of FGF signalling on undifferentiated mES cells, the effects of FGF2 and 4 were analysed in the presence of saturating and sub-saturating levels of the inhibitor of differentiation, leukaemia inhibitory factor (LIF). Mouse ES cell self-renewal was quantified by measuring the expression of the stem cell specific reporter Oct4-LacZ in biochemical and fluorometric assays. Treatment with FGF reduced the expression of the OCT4-LacZ reporter, even under saturating concentrations of LIF and this was mirrored by decreased levels of OCT4 protein. Furthermore, treatment with FGF leads to upregulation of the ectodermal differentiation marker Pax6. These results suggest that FGF signalling has a direct impact on undifferentiated mES cells, and actively promotes their differentiation. To asses the effect of FGF signalling on hES cells without the influence of undefined factors, a feeder and serum free system was developed. Cells growing in this conditions for >20 passages maintained expression of surface (SSEA3 and TRA1-60 and 81) and internal (OCT4) markers specific for undifferentiated hES cells. Expression of these markers was dependant on the continuous presence of FGF2. Indeed, withdrawal of FGF2 resulted in a rapid decrease of in hES cell growth and of the emergence of cell flattened morphology and of the surface marker SSEA1, changes typically associated with differentiation. Two important signals activated by FGF in hES cells are the ERK/MAPK and PI3K pathways. To assess their functional relevance, hES cell cultures were treated with the drugs UO126 and LY294002, inhibitors of the MAPK and PI3K pathways respectively. Drug mediated suppression of the phosphorylation of these pathways, correlated with a reduction in cell growth, flattening of the colonies and reduction in SSEA4 expression. Use of SB431542, specific inhibitor of TGFβ/activin type I receptor kinase (Alk5) also resulted in the flattening of the colonies and the appearance of dispersed cells. Therefore, inhibition of MAPK and PI3K appears to impair growth and self-renewal in hES cells and this may be happening in conjunction with TGFβ/Activin pathway. Taken together, these results suggest that FGF signalling has opposite effects in mouse and human ES cells: inducing differentiation in mES and sustaining self-renewal in hES. 571.6
180	Rôle et mécanismes d'action du récepteur AT[indice inférieur 2] de l'angiotensine II dans la différentiation neurale Gendron, Louis January 2003 (has links) L'activation du récepteur AT[indice inférieur 2] de l'angiotensine II (Ang II) est associée à différentes réponses cellulaires dont l'inhibition de prolifération, le contrôle de l'apoptose et l'induction de la différenciation. Au cours du développement, le récepteur AT[indice inférieur 2] est fortement présent dans les tissus foetaux mais son expression chute drastiquement, quelques heures après la naissance. Chez l'adulte, seulement quelques tissus expriment ce récepteur (cellules glomérulées de la surrénale, utérus, cellules granulosa de l'ovaire et certaines zones du cerveau) mais sa ré-expression peut être observée au cours de certaines conditions pathologiques (défaillance cardiaque ou rénale, dommages tissulaires, lésions du système nerveux central). Ces observations suggèrent que le récepteur AT[indice inférieur 2] joue un rôle important au cours du développement, dans les processus de réponses aux blessures et dans les mécanismes d'adaptation. Dans les cellules NG108-15, l'activation du récepteur AT[indice inférieur 2] par l'Ang II induit la différenciation neuronale (Laflamme et al . 1996). Puisque les cibles intracellulaires du récepteur AT[indice inférieur 2] sont peu connues, le but de nos études était de déterminer les mécanismes d'action associés à son activation dans l'induction de l'élongation des neurites. Le récepteur AT[indice inférieur 2] n'est couplé à aucun des seconds messagers classiques (AMPc, production d'InsPs, Ca[indice supérieur 2+] ). Les effets connus du récepteur AT[indice inférieur 2] sont une augmentation ou une diminution des niveaux de monoxyde d'azote (NO) et de GMPc et, selon les modèles cellulaires et les conditions de culture utilisés, il peut activer ou inhiber les phosphatases et les p42/p44[indice supérieur mapk] en plus de modifier l'excitabilité membranaire (inhibition des courants calciques et activation des canaux potassiques). Dans les cellules NG108-15, nous avons trouvé que l'activation du récepteur AT[indice inférieur 2] par l'Ang II induit l'activation des p42/p44[indice supérieur mapk] par un mécanisme indépendant de la petite protéine G p21[indice supérieur ras] , un processus essentiel à l'induction de l'élongation des neurites (Gendron et al . 1999). Les travaux présentés dans le cadre de cette thèse montrent que la production de NO, suite à l'activation du récepteur AT[indice inférieur 2] par l'Ang II, est impliquée dans l'induction de la différenciation neuronale. Nous avons en effet observé que l'Ang II, par un mécanisme dépendant des protéines G[alpha indice inférieur i] , mène à une augmentation rapide des niveaux intracellulaires de GMPc, un second messager impliqué dans l'élongation et dans le branchement neuritique des cellules NG108-15. Bien que cette voie est essentielle à la différenciation neuronale, nous avons trouvé qu'elle n'est pas impliquée dans l'activation des p42/p44[indice supérieur mapk] .L'activation des p42/p44[indice supérieur mapk] par l'Ang II, qui est Ras- et NO-indépendante, est plutôt induite par une voie alternative impliquant les protéines Rap1 et B-Raf.L'application d'Ang II dans les cellules NG108-15 mène en effet à l'activation rapide de Rap1 (1-5 min) et de B-Raf (5-15 min), événement essentiel à la fois pour l'activation des p42/p44[indice supérieur mapk] et pour l'induction de la différenciation des cellules NG108-15. Finalement, nous avons montré que l'activation de cette voie se fait par un mécanisme indépendant de l'AMPc et de la PKA. Ensemble, nos résultats montrent que le récepteur AT[indice inférieur 2] active les voies nNOS/NO/GCs/GMPc et Rap1/B-Raf/MEK/MAPK, et que ces cascades participent de façon parallèle, à l'induction de la différenciation neuronale des cellules NG108-15, par un mécanisme indépendant de l'AMPc et de la PKA. P42/p44[indice supérieur mapk] Signalisation Différenciation neuronale Récepteur AT[indice inférieur 2] Angiotensine

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