EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of alpha1 adrenergic receptors stimulates mitogenesis in human vascular smooth muscle cells (HVSMCs). To examine signaling pathways by which activation of alpha1 receptors may induce mitogenesis in HVSMCs, we have found that alpha1 receptor stimulated-DNA synthesis and activation of mitogen-activated protein (MAP) kinase are blocked by wortmannin, an inhibitor of phosphatidylinositol 3-kinase (PI 3-kinase). To determine directly if activation of alpha1 receptors stimulated PI 3-kinase, in vitro assays of kinase activity were performed in immunocomplexes precipitated by an antibody against the p85 alpha subunit of PI 3-kinase. Noradrenaline stimulated a time- and concentration-dependent activation of PI 3-kinase in the presence of a beta adrenergic receptor antagonist. Noradrenaline-stimulated PI 3-kinase activation was blocked by antagonists of alpha1 receptors and by pertussis toxin, suggesting that alpha1 receptors activate PI 3-kinase via a pertussis toxin-sensitive G protein. Direct activation of protein kinase C by a phorbol ester did not stimulate PI 3-kinase; also, a Ca2+ L-channel blocker did not inhibit noradrenaline-stimulated PI 3-kinase activity. Increased PI 3-kinase activity was detected in both anti-Ras and anti-phosphotyrosine immunoprecipitates from noradrenaline-stimulated HVSMCs. Moreover, noradrenaline stimulated formation of active Ras-GTP complexes. Because blockade of PI 3-kinase by wortmannin inhibited formation of this complex, this result suggests that Ras might be a target of PI 3-kinase. Noradrenaline stimulated tyrosine phosphorylation of the p85 subunit of PI 3-kinase, and a phosphorylated tyrosine protein could be co-immunoprecipitated with anti-p85 of PI 3-kinase. These results demonstrate that stimulation of alpha1 receptors activates PI 3-kinase in HVSMCs and that alpha1 receptor-activated PI 3-kinase is associated with an increase in active Ras-GTP and activation of tyrosine protein phosphorylation. These pathways may contribute to alpha1 receptor-stimulated mitogenic responses including activation of MAP kinase and DNA synthesis in HVSMCs.
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PMID:Alpha1 adrenergic receptors activate phosphatidylinositol 3-kinase in human vascular smooth muscle cells. Role in mitogenesis. 862 43

The family of serotonin 5-HT2 receptors stimulates the phospholipase C second messenger pathway via the alpha subunit of the Gq GTP-binding protein. Here, we show that agonist stimulation of the 5-HT2B receptor subtype stably expressed in the mouse fibroblast LMTK- cell line causes a rapid and transient activation of the proto-oncogene product p21ras as measured by an increase in GTP-bound Ras in response to serotonin. Furthermore, 5-HT2B receptor stimulation activates p42mapk/p44mapk (ERK2/ERK1) mitogen-activated protein kinases as assayed by phosphorylation of myelin basic protein. Antibodies against p21ras, Galphaq, -beta, or -gamma2 subunits of the GTP-binding protein inhibit MAP kinase-dependent phosphorylation. The MAP kinase activation is correlated with a stimulation of cell division by serotonin. In addition to this mitogenic action, transforming activity of serotonin is mediated by the 5-HT2B receptor since its expression in LMTK- cells is absolutely required for foci formation and for these foci to form tumors in nude mice. Finally, we detected expression of the 5-HT2B receptor in spontaneous human and Mastomys natalensis carcinoid tumors and, similar to the 5-HT2B receptor transfected cells, the Mastomys tumor cells are also responsive to serotonin with similar coupling to p21ras activation.
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PMID:Ras involvement in signal transduction by the serotonin 5-HT2B receptor. 862 13

The serine/threonine protein kinase PAK I (p2l-activated protein kinase), a ubiquitous multipotential protein kinase of 58-60 kDa, has been shown to have cytostatic properties. Data from our laboratory show that PAK I is highly active in oocytes and quiescent and serum-starved cells, and injection of active PAK I into one blastomere of two-cell frog embryos inhibits cleavage of the injected blastomere. To clone the cDNA encoding PAK I, purified peptides from rabbit PAK I were sequenced, degenerate oligonucleotides were used to isolate PAK I clones from a rabbit spleen library, and the 5'-terminus was obtained by polymerase chain reaction. The entire cDNA sequence extends over 4471 nucleotides, with an open reading frame for a protein of 524 residues and a 3'-noncoding region of 2826 nucleotides. Clones with the same open reading frame but with 3'-noncoding regions of 1055 and 2478 nucleotides were isolated, suggesting the generation of different transcripts by alternative termination of transcription. The amino acid sequence of PAK I shows high homology to the p2l-activated protein kinases from human placenta and rat brain and to yeast STE20. PAK I is activated by Cdc42(GTP). The PAK enzymes have been proposed to regulate the stress-activated protein kinase (also known as the Jun kinase) signaling pathway (Coso, O. A., Chiariello, M., Yu, J.-C., Teramoto, H., Crespo, P., Xu, N., Miki, T., and Gutkind, J. S. (1995) Cell 81, 1137-1146; Minden, A., Lin, A., Claret, F.-X., Abo, A., and Karin, M. (1995) Cell 81, 1147-1157).
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PMID:Molecular cloning and sequencing of the cytostatic G protein-activated protein kinase PAK I. 862 11

Previously, our laboratory has shown that lactosylceramide (LacCer) can serve as a mitogenic agent in the proliferation of aortic smooth muscle cells "a hallmark in the pathogenesis of atherosclerosis" (Chatterjee, S. (1991) Biochem. Biophys. Res. Commun. 181, 554-561). Here we report a novel aspect of LacCer-mediated signal transduction. We demonstrate that LacCer (10 microM) can stimulate the phosphorylation of mitogen-activated protein (MAP) kinase p44MAPK to phosphorylated p44MAPK in aortic smooth muscle cells from rabbit or human origin. Western immunoblot assays and direct measurement of activity in immunoprecipitated MAP kinase revealed that within 5 min of incubation of cells with LacCer there was a 3.5-fold increase in the activity of p44MAPK. This continued up to 10 min of incubation; thereafter, the MAP kinase activity decreased in these cells. Phosphoamino acid analysis revealed that the tyrosine and threonine moieties of p44MAPK was phosphorylated by LacCer. Incubation of cells with ceramide and glucosylceramide did not significantly stimulate p44MAPK activity. Preincubation with tyrphostin (20 microM; a potent and specific inhibitor of tyrosine kinase) markedly inhibited the LacCer mediated stimulation in p44MAPK activity. Next we investigated the upstream and downstream parameters in MAP kinase signaling pathways. We found that lactosylceramide stimulated (7-fold) the loading of GTP on Ras. Concomitantly, LacCer stimulated the phosphorylation of MAP kinase kinases (MEK) and Raf within 2.5 min. Lactosylceramide specifically induced c-fos mRNA expression (3-fold) in these cells as compared to control. In summary, one of the biochemical mechanisms in LacCer mediated induction in the proliferation of aortic smooth muscle cells may involve Ras-GTP loading, activation of the kinase cascade (MEK, Raf, p44MAPK), and c-fos expression.
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PMID:Lactosylceramide stimulates Ras-GTP loading, kinases (MEK, Raf), p44 mitogen-activated protein kinase, and c-fos expression in human aortic smooth muscle cells. 863 72

Hormones that interact with seven-transmembrane spanning receptors, generally considered to be involved in acute signaling functions, also induce longer term effects on gene expression and cell growth. These genetic and proliferative effects can be induced by activation of receptors that signal through heterotrimeric GTP-binding proteins (G-proteins) of the Gq family, pertussis toxin-sensitive Gi/Go proteins, Gs, or G12/G13. Numerous growth-promoting G protein-coupled receptors activate the low molecular weight G-protein Ras and stimulate mitogen-activated protein kinase. Recent data suggest that c-Jun NH2-terminal kinase is also activated, possibly through interaction with low molecular weight G-proteins of the Rho family. Because G protein-coupled receptors lack intrinsic tyrosine kinase activity, the mechanisms by which heterotrimeric G-proteins couple to these kinase cascades remain to be elucidated. By analogy to growth factor receptors, G protein-coupled receptors may access these kinase cascades through binding of adapter proteins or recruitment of cytosolic tyrosine kinases. It is likely that interactions between multiple signaling pathways are required for G protein-coupled receptors to propagate signals to the nucleus.
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PMID:G protein-coupled receptors and signaling pathways regulating growth responses. 863 91

Raf is a serine/threonine kinase that binds through its amino-terminal regulatory domain to the GTP form of Ras and thereby activates the mitogen-activated protein kinase pathway. In this study, we have characterized the interaction of the Ras-binding domain of Raf with Ras using equilibrium binding methods (scintillation proximity assay and fluorescence anisotropy), rather than with more widely used nonequilibrium procedures (such as enzyme-linked immunosorbent assay and affinity precipitation). Initial studies using glutathione S-transferase fusion proteins with either residues 1-257 or 1-190 of Raf showed that although it was possible to detect Ras binding using an enzyme-linked immunosorbent assay or affinity precipitation, it was substoichiometric; under equilibrium conditions with only a small excess of Raf almost no binding was detected. This difference was probably due to the presence of a high percentage of inactive Raf protein. Further studies used protein containing residues 51-131 of Raf, which expressed in Escherichia coli as a stable glutathione S-transferase fusion. With this protein, binding with Ras could readily be measured under equilibrium conditions. The catalytic domain of neurofibromin inhibited binding of Ras to Raf, and Raf inhibited the binding of Ras to neurofibromin showing that Raf and neurofibromin cannot be bound simultaneously to Ras. The affinities of interaction of neurofibromin and Raf with Harvey-RasLeu-61 were similar. The rate constant for dissociation of Raf from Ras was estimated to be >1 min-1, suggesting that Ras, Raf, and neurofibromin may be in rapid equilibrium in the cell. In contrast to previous reports, under equilibrium conditions there was no evidence for a difference in affinity between the minimal Ras binding domain of Raf (residues 51-131) and a region containing an additional 16 carboxyl-terminal amino acids, suggesting that residues 132-147 do not form a critical binding determinant.
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PMID:Equilibrium and kinetic measurements reveal rapidly reversible binding of Ras to Raf. 863 91

Insulin, guanosine 5'-[gamma-thio]triphosphate (GTP[S] and phorbol 12-myristate 13-acetate (PMA) trigger the translocation of Gl UT4 (type 4 glucose transporter; insulin-sensitive glucose transporter) from an intracellular pool to the cell surface. We have developed a highly sensitive and quantitative method to detect GLUT4 immunologically on the surface of intact 3T3-L1 adipocytes and Chinese hamster ovary (CHO) cells, using c-myc epitope-tagged GLUT4 (GLUT4myc). We examined the roles of insulin, GTP[S] and PMA in the signalling pathways of GLUT4 translocation in the CHO cell system. Among small molecular GTP-binding proteins, ras, rab3D, rad and rho seem to be candidates as signal transmitters of insulin-stimulated GLUT4 translocation. Overexpression of wild-type H-ras and the dominant negative mutant H-rass17N in our cell system respectively enhanced and blocked insulin-stimulated activation of mitogen-activated protein kinase, but did not affect insulin-stimulated GLUT4 translocation. Overexpression of rab3D or rad in the cells did not affect GLUT4 translocation triggered by insulin, GTP[S] or PMA. Treatment with Botulinum C3 exoenzyme, a specific inhibitor of rho, had no effect on GLUT4 translocation induced by insulin, GTP[S] or PMA. Therefore these small molecular GTP-binding proteins are not likely to be involved in GLUT4 translocation. In addition, insulin, GTP[S] and PMA apparently stimulate GLUT4 translocation through independent pathways.
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PMID:Roles of insulin, guanosine 5'-[gamma-thio]triphosphate and phorbol 12-myristate 13-acetate in signalling pathways of GLUT4 translocation. 864 71

We report that sphingosine and short-chain ceramides activate adenylate cyclase and stimulate intracellular cyclic AMP formation in airway-smooth-muscle (ASM) cells. In each case, there is a conditional requirement for GTP-Gs alpha. Sphingosine utilizes a protein kinase C-dependent pathway to elicit activation of adenylate cyclase, whereas for short-chain ceramides the mechanism remains unidentified. In contrast, sphingosine phosphate inhibits Gs-stimulated cyclic AMP formation via a Gi-dependent mechanism. Therefore, the potential interconversion of sphingosine and sphingosine phosphate is a switch that can elicit reciprocal changes in cyclic AMP levels. This may have a significant impact upon the regulation of extracellular signal-regulated kinase (ERK) and c-Jun N-terminal specific kinase (JNK) by sphingolipids and may help to explain how growth factors that utilize these second messengers evoke pleiotropic responses such as proliferation and cell survival. In this context, short-chain ceramides are poor stimulators of ERKs in ASM cells, and sphingosine is inactive, whereas both sphingolipids are powerful activators of the JNK module. Activated JNK catalyses N-terminal phosphorylation of c-Jun, a kinase cascade that programmes growth arrest. Therefore, in blocking ceramide-stimulated ERK-2 activity, cyclic AMP may allow the ceramide-dependent activation of JNK to programme cells to opt out of the cell cycle. In contrast, sphingosine phosphate activates ERK-2, potentiates growth-factor-stimulated DNA synthesis and fails to activate JNK, indicating that its sequential formation from ceramide and sphingosine may commit cells to DNA synthesis. ERK-2 can be activated by both cyclic AMP-sensitive c-Raf-1 kinase-dependent and cyclic AMP-insensitive c-Raf-1 kinase-independent pathways in ASM cells. In this context, sphingosine phosphate activates ERK-2 exclusively via c-Raf-1 kinase. Sphingosine phosphate-stimulated ERK-2 activity is also abolished by pertussis toxin, indicating that c-Raf-1 kinase is activated via a Gi-dependent mechanism.
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PMID:The differential regulation of cyclic AMP by sphingomyelin-derived lipids and the modulation of sphingolipid-stimulated extracellular signal regulated kinase-2 in airway smooth muscle. 864 77

Ras proteins are proto-oncogene products that are critical components of signalling pathways leading from cell surface receptors to control of cellular proliferation, morphology and differentiation. the ability of Ras to activate the MAP kinase pathway through interaction with the serine/threonine kinase Raf is now well established. However, recent work has shown that Ras can also interact directly with the catalytic subunit of phosphatidylinositol 3' kinase and is involved in control of the lipid kinase in intact cells. A model is presented in which both tyrosine phosphoprotein interaction with the regulatory p85 subunit and Ras. GTP interaction with the catalytic p110 subunit is required to achieve optimal activation of phosphatidylinositol 3'kinase in response to extracellular stimuli. The ability of Ras to regulate phosphatidylinositol 3' kinase may be important both in Ras control of cellular morphology through the actin cytoskeleton and also in Ras control of DNA synthesis.
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PMID:Phosphatidylinositol 3' kinase: one of the effectors of Ras. 865 Feb 70

The role of phosphatidylinositol (PI) 3-kinase in specific aspects of insulin signaling was explored in 3T3-L1 adipocytes. Inhibition of PI 3-kinase activity by LY294002 or wortmannin significantly enhanced basal and insulin-stimulated GTPase-activating protein (GAP) activity in 3T3-L1 adipocytes. Furthermore, removal of the inhibitory influence of PI 3-kinase on GAP resulted in dose-dependent decreases in the ability of insulin to stimulate p21ras. This effect was specific to adipocytes, as inhibition of PI 3-kinase did not influence GAP in either 3T3-L1 fibroblasts, Rat-1 fibroblasts, or CHO cells. Immunodepletion of either of the two subunits of the PI 3-kinase (p85 or p110) yielded similar activation of GAP, suggesting that catalytic activity of p110 plays an important role in controlling GAP activity in 3T3-L1 adipocytes. Inhibition of PI 3-kinase activity in 3T3-L1 adipocytes resulted in abrogation of insulin-stimulated glucose uptake and thymidine incorporation. In contrast, effects of insulin on glycogen synthase and mitogen-activated protein kinase activity were inhibited only at higher concentrations of LY294002. It appears that in adipocytes, P1 3-kinase prevents activation of GAP. Inhibition of PI 3-kinase activity or immunodepletion of either one of its subunits results in activation of GAP and decreases in GTP loading of p21ras.
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PMID:Functional interactions of phosphatidylinositol 3-kinase with GTPase-activating protein in 3T3-L1 adipocytes. 865 18

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