Global ETD Search

31	Induction de l'apoptose des ostéoclastes humains par la Prostaglandine D[indice inférieur 2] : récepteurs et mécanismes de transduction impliqués / Prostaglandin D[subscript 2] induces human osteoclast apoptosis and its underlying mechanisms Yue, Li January 2013 (has links) Résumé: La prostaglandine D? (PGD?) est un médiateur lipidique qui active directement deux récepteurs spécifiques, DP et CRTH2, régulant ainsi des processus inflammatoires, immunitaires et apoptotiques. Les ostéoclastes (OC) sont de larges cellules multinucléées participant au métabolisme et remodelage de l’os, ainsi qu’à la réparation de fracture osseuse. Nos travaux ont mis en évidence l’expression des récepteurs DP et CRTH2 chez des OCs humains. Cependant, les effets de la PGD? sur l’apoptose des OCs sont inconnus. L’objectif de la présente étude a été de déterminer si la PGD? induit l’apoptose et les mécanismes qui en découlent dans les OC humains. Les OCs humains différenciés ont été traités avec la PGD?, les agonistes et antagonistes de ses récepteurs. Le traitement des OCs avec la PGD?, en présence de naproxène, qui permet d’inhiber la production endogène de prostaglandines, augmente de façon dépendante de la dose et en fonction du temps le pourcentage d'OCs apoptotiques. Ceci a également été observé lors du traitement des OCs avec l’agoniste spécifique DK-PGD? du récepteur CRTH2, mais pas avec le traitement du composé BW 245C, antagoniste du récepteur DP. En absence de naproxène, l’antagoniste CAY10471 du récepteur CRTH2 réduit le taux d’apoptose des OCs tandis que le composé BW A868C, antagoniste du récepteur DP, n'a aucun effet. L'apoptose des OCs par la PGD? via CRTH2 est associée à l’activation de la caspase-9, et non pas la caspase-8, ce qui entraîne le clivage de la caspase-3. Afin de déterminer plus précisément les mécanismes menant à ces résultats, les OCs ont été traités avec les inhibiteurs de MEK-1/2, PI3K et IKK2/NF-?B. Le traitement des OCs avec la PGD? et l’agoniste de CRTH2 diminue la phosphorylation des protéines ERK1/2 et Akt, tandis que la phosphorylation de ?-arrestine-1 est augmentée. Par ailleurs, les niveaux de phosphorylation d'ERK1/2 et Akt ont été augmentés alors que le taux de protéines ?-arrestine-1 phosphorylees a été diminué par l’antagoniste de CRTH2. En outre, le traitement des OCs avec l’inhibiteur de MEK-1/2 augmente l’apoptose des OCs induite par PGD? et l’agoniste de CRTH2. Cependant, l’antagoniste de CRTH2 diminue l'activité de la caspase-3 induite par l’inhibiteur de MEK1/2. Le traitement des OCs avec l’inhibiteur de la PI3K diminue la phosphorylation d’ERK l/2, tandis que la phosphorylation d'ERK1/2 augmentée par l’antagoniste de CRTH2 a été atténuée par l’inhibiteur de PI3K. Les agonistes et antagonistes du récepteurs DP n'ont pas d’effet sur la phosphorylation d'ERK1/2, Akt, ?-arrestine-1 ni sur l’activité de la caspase-3 chez les OCs. Le traitement des OCs avec PGD? et les ligands de ses récepteurs ne modifie pas la phosphorylation de Re1A/p65. De plus, l’activité de la caspase-3 n'est pas altérée dans les OCs traités avec l’inhibiteur d’IKK2. En conclusion, PGD?, en se liant à CRTH2, induit l’apoptose des OCs via la voie apoptotique intrinsèque qui est associée à la régulation des voies de signalisation des protéines ?-arrestine-1, ERK1/2, et Akt, mais pas celle du IKK2/NF-?B. // Abstract: Prostaglandin D2 (PGD2) is a lipid mediator that directly activates two specific receptors, DP and CRTH2, thereby regulating inflammation, immune response and apoptosis. Osteoclasts (OCs) are large multinucleated cells that participate in bone metabolism, remodeling, and fracture repair. Our previous data show the expression of DP and CRTH2 in human OCs. However, it is unknown whether PGD2 affects OC apoptosis. The objective of the thesis was to determine whether PGD2 induces human OC apoptosis and the underlying mechanisms implicated in this effect. The differentiated human OCs were treated with PGD2, and its receptors agonists/antagonists. Treatment with PGD2 in the presence of naproxen to inhibit endogenous prostaglandins production increased OC apoptosis in a dose- and time-dependent manner, as did the specific CRTH2 agonist compound DK-PGD2 but not the DP agonist compound 13W 245C. In the absence of naproxen, the CRTH2 antagonist compound CAY 10471 reduced OC apoptosis whereas the DP antagonist BW A868C had no such effect. PGD2/CRTH2-induced OC apoptosis was associated with the activation of caspase-9 (an intrinsic apoptosis pathway-initiator caspase), but not caspase-8 (an extrinsic apoptosis pathway-initiator caspase), leading to caspase-3 cleavage. To further determine the mechanisms underlying these findings, human OCs were treated with the inhibitors of MEK-1/2, P13K and IKK2/NF-KB. Treatments with PGD2 and a CRTH2 agonist decreased ERKI/2 and Akt phosphorylation, whereas both treatments increased 13-arrestin- I phosphorylation. Both ERK1/2 and Akt phosphorylation were augmented, whereas the phosphorylated 13-arrestin-1 was reduced by a CRTH2 antagonist. Furthermore, treatment of OCs with a MEK-1/2 inhibitor increased OC apoptosis induced by PGD2 and by a CRTH2 agonist. However, a CRTH2 antagonist diminished the MEK- I /2 inhibitor-induced increase in caspase-3 activity. In addition, treatment of OCs with a PI3K inhibitor decreased ERK I /2 phosphorylation, whereas increased ERK1/2 phosphorylation by CRTH2 antagonist was attenuated by a P13K inhibitor. Both DP receptor agonist and antagonist did not affect either Akt, ERK1/2, 13-arrestin-1 phosphorylation or a specific MEK-1/2 inhibitor-induced increase in caspase-3 activity in OCs. Treatment of OCs with PGD2 and its receptor ligands did not alter ReIA/p65 phosphorylation (ser536). Moreover, the caspase-3 activity was not altered in OCs treated with an IKK2/NF-KB inhibitor. In summary, PGD2 induces human OC apoptosis through a CRTH2-dependent intrinsic apoptosis pathway, which is associated with regulation of the 13-affestin-1, ERK1/2, and Akt, but not with 1KK2/NF-KB, signaling pathways. [symboles non conformes] [beta]-arrestine-1 Akt ERK1/2 Prostaglandine D[indice inférieur 2] Apoptose Ostéoclastes
32	Amiodarone Induces Cell Proliferation and Myofibroblast Differentiation via ERK1/2 and p38 MAPK Signaling in Fibroblasts Weng, Jie, Tu, Mengyun, Wang, Peng, Zhou, Xiaoming, Wang, Chuanyi, Wan, Xinlong, Zhou, Zhiliang, Wang, Liang, Zheng, Xiaoqun, Li, Junjian, Wang, Zhibin, Wang, Zhiyi, Chen, Chan 01 July 2019 (has links) Amiodarone is a potent antidysrhythmic agent that can cause potentially life-threatening pulmonary fibrosis. Accumulating evidence has demonstrated that myofibroblast differentiation is related to the pathogenesis of pulmonary fibrosis. In the present study, we treated human embryonic lung fibroblasts (HELFs) with amiodarone, and investigated the relative molecular mechanism of amiodarone-induced pulmonary fibrosis and pathway determinants PD98059 (extracellular signal-regulated kinase (ERK) inhibitor) and SB203580 (p38 mitogen-activated protein kinase (MAPK) inhibitor). Cell proliferation was assessed by Cell Counting Kit-8 (CCK-8). The secretion of collagen Ⅰ was detected by ELISA. The expressions of α-smooth muscle actin (α-SMA), vimentin, phosphorylated ERK1/2 (p-ERK1/2), ERK1/2, phosphorylated p38 MAPK (p-p38), and p38 MAPK were investigated using Western blot analysis. The levels of α-SMA and vimentin were also determined by immunofluorescence and qRT-PCR. We report that amiodarone promoted cell proliferation and collagen Ⅰ secretion, induced α-SMA and vimentin protein and mRNA expression accompanied by increased phosphorylation of ERK1/2 and p38 MAPK, and furthermore, PD98059 and SB203580 remarkably reduced the proliferative response of HELFs compared with amiodarone group and greatly attenuated α-SMA, vimentin and collagen Ⅰ protein production induced by amiodarone. Taken together, our study suggests that amiodarone regulates cell proliferation and myofibroblast differentiation in HELFs through modulating ERK1/2 and p38 MAPK pathways, and these signal pathways may therefore represent an attractive treatment modality in amiodarone-induced pulmonary fibrosis. amiodarone ERK1/2 HELFs myofibroblast differentiation p38 MAPK pulmonary fibrosis Biostatistics and Epidemiology
33	α-Lipoic Acid Increases Tolerance of Cardiomyoblasts to Glucose/Glucose Oxidase-Induced Injury via ROS-Dependent ERK1/2 Activation Yao, Yuzhen, Li, Rongrong, Ma, Yujie, Wang, Xiaohui, Li, Chuanfu, Zhang, Xiaojin, Ma, Rong, Ding, Zhengnian, Liu, Li 01 April 2012 (has links) α-Lipoic acid (LA) has been shown to improve the diabetic cardiac symptoms. However, the underlying mechanisms have not been elucidated precisely. We have reported recently that LA potentially protected neurons from substance-induced apoptosis. We hypothesized that LA could attenuate cardiac cells death induced by oxidative stress derived from high glucose. To test this possibility, we examined the effects of LA on . d-glucose/glucose oxidase (DG/GO, 30. mM/5. mU)-induced injury in rat cardiomyoblast H9c2 cells. We observed that LA pretreatment significantly increased cell viability in DG/GO-challenged cells. LA pretreatment also attenuated DG/GO-induced apoptosis as evidenced by decreases in both nuclear condensation and loss of mitochondrial potential. In addition, LA activated ERK1/2 and moderately increased ROS production. Blockade of ERK1/2 activation by PD98059 completely abolished LA-induced protection against DG/GO challenge. Inhibition of ROS by . N-acetylcysteine abrogated LA-induced ERK1/2 activation and cytoprotection. Furthermore, we observed that the ROS production induced by LA was significantly slower and milder than that by DG/GO. Our results suggest that pretreatment with LA moderately increased ROS production to induce a preconditioning-like effect by ERK1/2 activation thereby increased tolerance of H9c2 cells to DG/GO challenge. α-lipoic acid apoptosis ERK1/2 high glucose reactive oxygen specie Surgery
34	β-Arrestin Prevents Cell Apoptosis Through Pro-Apoptotic ERK1/2 and p38 MAPKs and Anti-Apoptotic Akt Pathways Yang, Xiaohua, Zhou, Gengyin, Ren, Tao, Li, Hui, Zhang, Yanjun, Yin, Deling, Qian, Haixin, Li, Qinchuan 01 September 2012 (has links) Our previous studies have shown that β-arrestin 2 plays an anti-apoptotic effect. However, the mechanisms by which β-arrestin contribute to anti-apoptotic role remain unclear. In this study, we show that a deficiency of either β-arrestin 1 or β-arrestin 2 significantly increases serum deprivation (SD)-induced percentage of apoptotic cells. β-arrestin 2 deficient-induced apoptosis was inhibited by transfection with β-arrestin 2 full-length plasmid, revealing that SD-induced apoptosis is dependent on β-arrestin 2. Furthermore, in the absence of either β-arrestin 1 or β-arrestin 2 significantly enhances SD-induced the level of pro-apoptotic proteins, including cleaved caspase-3, extracellular-signal regulated kinase 1/2 (ERK1/2) and p38, members of mitogen-activated protein kinases (MAPKs). In addition, a deficiency of either β-arrestin 1 or β-arrestin 2 inhibits phosphorylation of Akt. The SD-induced changes in cleaved caspase-3, ERK1/2 and p38 MAPKs, Akt, and apoptotic cell numbers could be blocked by double knockout of β-arrestin 1/2. Our study thus demonstrates that β-arrestin inhibits cell apoptosis through pro-apoptotic ERK1/2 and p38 MAPKs and anti-apoptotic Akt signaling pathways. β-arrestin Akt apoptosis caspase-3 ERK1/2 p38 Internal Medicine
35	VITAMIN D RECEPTOR REGULATION OF CHOLESTEROL 7α-HYDROXYLASE GENE TRANSCRIPTION AND BILE ACID SYNTHESIS IN HUMAN HEPATOCYTES Han, Shuxin 06 November 2009 (has links) No description available. Biomedical Research VDR BILE BILE ACID CYP7A1 1¿¿¿¿ 2-VD3 ERK1/2
36	Uncovering the complexity of muscular dystrophy pathology through disease signaling Wissing, Erin R. 17 October 2014 (has links) No description available. Molecular Biology p38 MAPK Muscular dystrophy cell death Debio 025 p38 inhibitor ERK1 2
37	INFLUENCE OF SOY ISOFLAVONES ON THE PROLIFERATION AND DIFFERENTIATION OF PROSTATE EPITHELIAL CELLS Clubbs, Elizabeth Ann 24 June 2008 (has links) No description available. Cellular Biology Nutrition soy isoflavones glycitein prostate cancer chemoprevention ERK1/2 differentiation
38	Mechanism of genistein in the regulation of pancreatic beta-cell proliferation Zhang, Wen 07 December 2007 (has links) This study was designed to examine the effect of genistein, a botanical derived primarily from legumes, on pancreatic Î²-cell proliferation and the related molecular mechanisms. Diabetes mellitus is a major and growing public health problem worldwide. Both in type 1 (T1D) and type 2 diabetes (T2D), the deterioration of glycemic control over time is primarily caused by an inadequate mass and progressive dysfunction of Î²-cells. Therefore, the search for novel, safe and cost-effective agents that can enhance islet Î²-cell proliferation, thereby preserving Î²-cell mass, could be one of the essential strategies to prevent diabetes, given that Î²-cells have the potential to regenerate by proliferation of pre-existing b-cells in both physiological condition and after onset of diabetes. Genistein has various biological actions. However, studies on whether genistein has an effect on pancreatic Î²-cell function are very limited. Our laboratory recently found that genistein activates cAMP/protein kinase A (PKA) signaling in both clonal Î²-cells and mouse islets. Here I present evidence that genistein induced cellular proliferation of clonal rat pancreatic Î²-cells (INS1) and human islets following 24 h of incubation. This effect was dose-dependent with 5 ÂµM genistein inducing a maximal 41% increase. The effect of genistein on cell proliferation was not dependent on estrogen receptors because this effect was not blocked by the estrogen receptor inhibitor ICI182,780. In addition, the genistein effect on Î²-cell proliferation was not shared by 17-Î²-estradiol or a host of structurally related flavonoid compounds, suggesting that this genistein action is structure-specific. Pharmacological or molecular intervention of PKA or MEK1/2, the upstream kinase of p42/44 mitogen activated protein kinases (ERK1/2), completely abolished the genistein-stimulated proliferation of INS1 cells and human islets, suggesting that both molecules are essential for genistein action. Consistent with its effect on cell proliferation, genistein increased intracellular cAMP and subsequently activated PKA in human islets. Genistein also caused a rapid and sustained phosphorylation of ERK1/2 with a maximal increase of 185% at 5 ÂµM genistein. The genistein-induced ERK1/2 activation was completely ablated by inhibition of PKA in INS1 cells and human islets. Furthermore, I found that genistein induced protein expression of cyclin D1, a nuclear target of PKA and ERK1/2 activation and a major cell-cycle regulator essential for ï ¢-cell growth. These findings demonstrated that genistein may be a plant-derived growth factor for pancreatic Î²-cells involving induction of cyclin D1 via activation of the cAMP/PKA-dependent ERK1/2 signaling pathway, thereby providing a novel role for genistein in the regulation of pancreatic Î²-cell function. / Master of Science ERK1/2 protein kinase A islets cAMP cell proliferation pancreatic β-cell Genistein
39	Hippocampal metabotropic glutamate receptor long-term depression in health and disease: focus on mitogen-activated protein kinase pathways Sanderson, T.M., Hogg, Ellen L., Collingridge, G.L., Corrêa, Sonia A.L. 05 April 2016 (has links) Yes / Group I metabotropic glutamate receptor (mGluR) dependent long-term depression (LTD) is a major form of synaptic plasticity underlying learning and memory. The molecular mechanisms involved in mGluR-LTD have been investigated intensively for the last two decades. In this 60th anniversary special issue article, we review the recent advances in determining the mechanisms that regulate the induction, transduction and expression of mGluR-LTD in the hippocampus, with a focus on the mitogen-activated protein kinase (MAPK) pathways. In particular we discuss the requirement of p38 MAPK and extracellular signal-regulated kinase 1/2 (ERK 1/2) activation. The recent advances in understanding the signaling cascades regulating mGluR-LTD are then related to the cognitive impairments observed in neurological disorders, such as fragile X syndrome and Alzheimer's disease. Alzheimer’s disease AMPAR trafficking ERK1/2 Fragile X syndrome mGluR-LTD p38 mitogen-activated protein kinase
40	La voie ERK1/2 : point d’intégration et de convergence des connexions entre voies de signalisation dans les cellules épithéliales de prostate normale / ERK1/2 pathway : an integrating node of converging signaling pathways in normal prostate epithelial cells. Poncet, Nadège 14 December 2010 (has links) Le développement et l’homéostasie cellulaire de la prostate impliquent le contrôle strict des voies de signalisation induites par les androgènes et les facteurs de croissance. Ces diverses voies sont profondément altérées dans le cancer de la prostate, notamment lors des stades les plus avancés. Dans ce travail, une lignée immortalisée à partir de l’épithélium de prostate humaine, la lignée RWPE-1, a été utilisée pour étudier certains signaux régulant la prolifération cellulaire, ainsi que les connexions entre les voies de signalisation correspondantes. La prolifération des cellules RWPE-1 est sous la dépendance de l’EGF (Epidermal Growth Factor) qui intervient physiologiquement dans le développement épithélial. Les récepteurs apparentés à l’EGF-R sont également impliqués dans la prolifération au cours de la progression tumorale. La prolifération des cellules RWPE-1 en réponse à l’EGF est strictement dépendante de la voie ERK1/2, qui est donc considérée comme un point d’intégration des signaux. L’utilisation d’inhibiteurs du récepteur aux androgènes a permis de montrer le rôle essentiel qu’il joue dans l’activation d’ERK1/2 en réponse à l’EGF. Le récepteur aux androgènes s’associe avec plusieurs molécules de signalisation dans les cellules RWPE-1. Je démontre ici pour la première fois une association entre le récepteur aux androgènes et la kinase Raf-1, activatrice de la voie ERK1/2. Ainsi, le récepteur aux androgènes contrôlerait directement un processus essentiel à la prolifération épithéliale selon un mode d’action non-génomique. Par ailleurs, j’ai montré que la réponse proliférative des cellules RWPE-1 à l’IL-6 requiert l’activation de la voie ERK1/2, et l’activité kinase de l’EGF-R, suggérant la transactivation de ce récepteur par l’IL-6. L’utilisation de divers inhibiteurs chimiques a permis de démontrer que les métalloprotéases de la famille ADAM (a disintegrin and metalloprotease), notamment ADAM17, sont impliquées dans ce processus. Ainsi, l’activation de protéines ADAM par l’IL-6 conduirait au clivage d’un ligand membranaire de l’EGF-R, aboutissant à l’activation de la voie ERK1/2. Ce nouveau mécanisme pourrait être impliqué dans les situations inflammatoires conduisant à une prolifération excessive de l’épithélium prostatique, prélude à la transformation tumorale. En conclusion, les voies de signalisation étudiées sont fortement connectées dans les cellules épithéliales normales. Les deux nouveaux mécanismes décrits ici aboutissent à l’activation des kinases ERK1/2, point d’intégration et de convergence des voies de signalisation dans les cellules épithéliales de prostate normale. / Prostate development and cell homeostasis involve strict control of androgen and growth factors induced signaling pathways. These signaling pathways are deeply altered in prostate cancer, especially during late stages. In this work, the RWPE-1 immortalized cell line derived from human prostate epithelium has been used to study the signaling pathways regulating cell proliferation and their crosstalk. Optimal RWPE-1 proliferation is dependent on EGF (Epidermal Growth Factor), that also controls normal epithelial development. EGF-R family is also involved in cancer cell proliferation. EGF-dependent RWPE- 1 cell proliferation relies strictly on the ERK1/2 pathway which is then seen as a signal integrating node. Specific inhibitors showed essential role of androgen receptor in EGF mediated ERK1/2 activation. Androgen receptor is associated with several signaling molecules in RWPE-1 cells. I show here for the first time the physical interaction between the androgen receptor and the ERK1/2 activating kinase Raf1. Then, the androgen receptor could directly regulate an essential pathway for epithelial cells proliferation through a non-genomic mechanism. In addition, I showed that IL-6 dependent RWPE-1 cells proliferation requires both ERK1/2 and EGF-R kinase activities, suggesting an IL-6 mediated transactivation of EGF-R. By using several inhibitors, I showed that ADAM (a disintegrin and metalloprotease) family metaloproteases, especialy ADAM17, are involved in this process. IL-6-mediated ADAM proteins activation could lead to the cleavage of a membrane bound EGF-R ligand, leading to ERK1/2 pathway activation. This new mechanism could be involved in the inflammatory situations inducing hyperproliferation of the prostate epithelium, the first step of the transformation process. To conclude, the signaling pathways I studied are strongly connected in normal epithelial cells. The two new mechanisms described in this study lead to ERK1/2 kinases activation, an integrating node of signaling pathways in normal prostate epithelial cells. Prostate Cellules épithéliales normales Prolifération Voie ERK1/2 Récepteur aux androgènes Signalisation non-génomique IL-6 Récepteur à l’EGF Transactivation Prostate Normal epithelial cells Proliferation ERK1/2 pathway Androgen receptor Non-genomic signaling IL-6 EGF receptor Transactivation 572.8

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