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)

Aberrant regulation of smooth muscle cell proliferation and migration is associated with the pathophysiology of vascular disorders such as hypertension, atherosclerosis, restenosis, and graft rejection. To elucidate molecular mechanisms that regulate proliferation and migration of vascular smooth muscle cells, we determined whether signaling through the small G protein Rho is involved in thrombin- and phenylephrine-stimulated proliferation and migration of rat aortic smooth muscle cells (RASMCs). Thrombin and the thrombin peptide SFLLRNP stimulated DNA synthesis of RASMCs as measured by [3H]thymidine incorporation. Both ligands also increased cell migration as measured by the Boyden chamber method. L-Phenylephrine failed to induce either of these responses but increased inositol phosphate accumulation and mitogen-activated protein kinase activation in these cells, which indicated that the cells were responsive to alpha1-adrenergic stimulation. The C3 exoenzyme, which ADP-ribosylates and inactivates Rho, fully inhibited both thrombin-stimulated proliferation and migration but had no effect on inositol phosphate accumulation. In addition, Y-27632, an inhibitor of the Rho effector p160ROCK/Rho kinase, decreased thrombin-stimulated DNA synthesis and migration. To directly examine Rho activation, Rho-[35S]GTPgammaS binding was measured. The addition of the thrombin peptide SFLLRNP, but not phenylephrine, to RASMC lysates resulted in a significant increase in Rho-[35S]GTPgammaS binding. Thrombin and SFLLRNP, but not phenylephrine, also increased membrane-associated Rho in intact RASMCs, consistent with selective activation of Rho by thrombin. These results indicate that thrombin activates Rho in RASMCs and establish Rho as a critical mediator of thrombin receptor effects on DNA synthesis and cell migration in these cells.
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PMID:Rho and Rho kinase mediate thrombin-stimulated vascular smooth muscle cell DNA synthesis and migration. 1034 93

An enhanced tyrosine phosphorylation of focal adhesion kinase (FAK) is elicited during neuronal growth cone remodeling and requires the maintenance of agonist-sensitive pools of phosphatidylinositol 4,5-bisphosphate (PIP2). Rho family GTPases are putative regulators of both PIP2 synthesis and growth cone remodeling, including neurite outgrowth elicited by muscarinic cholinergic receptor (mAChR) stimulation. In this study, we investigated the interrelationships among Rho family GTPases, PIP2 synthesis, and mAChR signaling to FAK in SH-SY5Y neuroblastoma cells. Preincubation with Clostridium difficile toxin B (Tox B), an inhibitor of Rho, Rac, and Cdc42, attenuated mAChR-stimulated FAK and paxillin tyrosine phosphorylation and lysophosphatidic acid (LPA)-induced FAK phosphorylation to a similar extent (75% decreases at 200 pg/ml Tox B) but did not affect mitogen-activated protein kinase activation elicited by either phorbol ester or an mAChR agonist. In contrast, preincubation with selective inhibitors of either Rho (C3 exoenzyme) or Rho kinase (HA-1 077) resulted in 80-90% reductions in LPA-induced FAK phosphorylation but only 40-50% decreases in mAChR-stimulated phosphorylation. Moreover, mAChR-mediated FAK phosphorylation was significantly attenuated in cells scrape-loaded with dominant-negative N17Cdc42 but not N17Rac1. Tox B had little or no effect on agonist-sensitive pools of PIP2 but inhibited mAChR-driven actin cytoskeletal remodeling. The results suggest that the Rho family GTPases, Rho and Cdc42, link mAChR stimulation to increases in FAK phosphorylation independently of effects on PIP2 synthesis.
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PMID:A role for the small molecular weight GTPases, Rho and Cdc42, in muscarinic receptor signaling to focal adhesion kinase. 1080 Sep 44

Expression of connective tissue growth factor (CTGF) was induced in renal mesangial cells by activation of heptahelical receptors by serotonin (5-HT) and lysophosphatidic acid (LPA). Induction of CTGF mRNA was transient with maximal expression after 1 to 2 h, whereas induction of CTGF by transforming growth factor beta (TGF-beta) increased over time. In contrast to the induction of other early response genes (Egr-1 and cyclooxygenase-2), LPA-mediated induction of CTGF was pertussis toxin-insensitive and independent of p42/44 MAP kinase activation. 5-HT-mediated CTGF induction was due to activation of 5-HT(2A) receptors and likewise independent of p42/44 MAP kinase activation. Upon stimulation, enhanced levels of CTGF protein were detected in cellular homogenates, whereas no protein was detectable in cell culture supernatants. Inhibition of proteins of the Rho family by toxin B abrogated basal as well as CTGF expression stimulated by LPA, 5-HT, and TGF-beta. Inhibition of the downstream mediator of RhoA, the Rho kinase by Y-27632 partially reduced induction of CTGF by LPA and TGF-beta. Toxin B not only affected gene expression, but disrupted the actin cytoskeleton similarly as observed after treatment with cytochalasin D. Disassembly of actin stress fibers by cytochalasin D partially reduced basal and stimulated CTGF expression. These data indicate that an intact actin cytoskeleton is critical for the expression of CTGF. Elimination of the input of Rho proteins by toxin B, however, was significantly more effective and their effect on CTGF expression thus goes beyond disruption of the cytoskeleton. These findings thus establish activation of heptahelical receptors coupled to pertussis toxin-insensitive G proteins as a novel signaling pathway to induce CTGF. Proteins of the Rho family and an intact cytoskeleton were identified as critical determinants of CTGF expression induced by LPA and 5-HT, and also by TGF-beta.
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PMID:Induction of connective tissue growth factor by activation of heptahelical receptors. Modulation by Rho proteins and the actin cytoskeleton. 1097 1

Transmigration of monocytes to the subendothelial space is the initial step of atherosclerotic plaque formation and inflammation. Integrin activation and chemotaxis are two important functions involved in monocyte transmigration. To delineate the signaling cascades leading to integrin activation and chemotaxis by monocyte chemoattractant protein-1 (MCP-1), we have investigated the roles of MAPK and Rho GTPases in THP-1 cells, a monocytic cell line. MCP-1 stimulated beta1 integrin-dependent, but not beta2 integrin-dependent cell adhesion in a time-dependent manner. MCP-1-mediated cell adhesion was inhibited by a MEK inhibitor but not by a p38-MAPK inhibitor. In contrast, MCP-1-mediated chemotaxis was inhibited by the p38-MAPK inhibitor but not by the MEK inhibitor. The inhibitor of Rho GTPase, C3 exoenzyme, and a Rho kinase inhibitor abrogated MCP-1-dependent chemotaxis but not integrin-dependent cell adhesion. Further, C3 exoenzyme and the Rho kinase inhibitor blocked MCP-1-dependent p38-MAPK activation. These data indicate that ERK is responsible for integrin activation, that p38-MAPK and Rho are responsible for chemotaxis mediated by MCP-1, and that Rho and the Rho kinase are upstream of p38-MAPK in MCP-1-mediated signaling. This study demonstrates that two distinct MAPKs regulate two dependent signaling cascades leading to integrin activation and chemotaxis induced by MCP-1 in THP-1 cells.
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PMID:Distinct signaling pathways for MCP-1-dependent integrin activation and chemotaxis. 1127 64

Growing evidence suggests an involvement of the endothelin B receptor (ET(B)-R) in blood pressure-dependent arterial remodeling. To study the molecular mechanisms leading to deformation-induced ET(B)-R expression, we have cultured rat aortic smooth muscle cells on flexible elastomers and, when grown to 70% confluence, periodically stretched them for 6 h (15% elongation, 0.5 Hz). The cells responded with an increase both in ET(B)-R mRNA (12-fold compared with control) and protein (4-fold). According to nuclear run-on analysis this increase in ET(B)-R expression occurred at the level of transcription. Among various kinase pathways, Rho kinase (ROCK) and p38 mitogen-activated protein kinase (p38 MAPK) mediated part of the deformation-induced increase in ET(B)-R expression, as judged by the inhibitory effect of Y27632 (1 microm, 38% inhibition) and SB202190 (10 microm, 44% inhibition), respectively. Gel shift assaying of the three transcription factors principally activated by these kinases revealed a transient deformation-induced activation of activator protein-1 (AP-1) and CCAAT/enhancer-binding protein (C/EBP), but not activating transcription factor, that was sensitive to both Y27632 and SB212190. The potential role of AP-1 and C/EBP in deformation-induced ET(B)-R expression was verified both by using decoy oligodeoxynucleotides mimicking the DNA-binding sites of these transcription factors and a nuclear run-on-based assay employing specific antibodies directed against AP-1 and C/EBP. Both techniques unequivocally demonstrated that activation of these transcription factors, namely that of C/EBP beta, contribute to the increase of ET(B)-R gene expression in response to cyclic stretch.
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PMID:Mechanosensitive transcription factors involved in endothelin B receptor expression. 1145 49

A1 adenosine receptors (A1ARs) are expressed in the brain during critical periods of neurogenesis and neuronal differentiation. To examine influences of A1AR activation on neuronal development we studied the effects of A1AR activation on process growth in PC12 cells expressing A1ARs and in primary cultures of cortical and hippocampal neurons. In PC12 cells, we found that A1AR activation potently inhibited nerve growth factor (NGF)-induced neurite growth and induced stress fiber formation. A1ARs action was not mediated by inhibition of p44/42 MAP kinase activity, as inhibition of MEK/MAP kinase had no effects on A1AR action. When Rho kinase activity was blocked, A1AR agonists no longer inhibited neurite growth and stress fiber formation was blocked. In neurons, A1AR activation also inhibited process growth, and A1AR action was also mediated by Rho kinase. These data show that A1AR activation inhibits neurite growth and that the inhibitory effects of A1AR are dependent on Rho kinase.
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PMID:A1 adenosine receptor activation inhibits neurite process formation by Rho kinase-mediated pathways. 1156 36

Pasteurella multocida toxin (PMT) is an unusual toxin that acts as a mitogen by stimulating various intracellular signalling cascades. Pathways downstream of the G-protein Gq and also downstream of the Rho proteins are activated. Thus PMT action stimulates phospholipase C leading to activation of protein kinase C, an increase in inositol phosphates, and a rise in intracellular calcium. Rho activation of the Rho kinase leads to cytoskeletal reorganisation, tyrosine phosphorylation of the focal adhesion kinase, and activation of the Src proto-oncogene. In addition, signalling through the Ras-MAP kinase signalling pathway is also initiated. PMT is an intracellularly acting toxin, and functional domains that carry out different aspects of its function have been described. The intracellular target of the toxin is currently not known. PMT also acts to inhibit differentiation, in particular of bone cells, where it prevents the formation of mineralised bone nodules in vitro. The toxin is the causative agent of a porcine disease that is characterised by bone resorption. Injection of very low doses of toxin leads to proliferative effects, but at higher doses is lethal. The possible effect of PMT-induced perturbation of signal transduction pathways is discussed.
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PMID:Pasteurella multocida toxin: the mitogenic toxin that stimulates signalling cascades to regulate growth and differentiation. 1168 Jul 86

Essential hypertension is characterized by significant and persistent elevations in arterial pressure. Hypertension is a multifactorial disorder that may involve abnormalities in the functions of the heart pump, the blood vessels, and the kidneys. Short-term and long-term regulation of arterial pressure is influenced by changes in cardiac function, the peripheral vascular resistance, and the renal control mechanisms of plasma electrolytes and volume. Increases in the heart rate and stroke volume lead to increases in the cardiac output and could contribute to increases in arterial pressure particularly in relatively young individuals. Vascular endothelial cell dysfunction could lead to reduction in endothelium-derived relaxing factors such as nitric oxide, prostacyclin, and endothelium-derived hyperpolarizing factor, or increased production of contracting factors such as endothelin-1 and thromboxane A2. Also, increased activity of signaling pathways of vascular smooth muscle contraction such as [Ca(2+)]i, protein kinase C, mitogen-activated protein kinase, and Rho kinase could enhance vasoconstriction. The decreased vascular relaxation and excessive vasoconstriction lead to significant increases in the peripheral vascular resistance and arterial pressure over time, particularly with aging. Alterations in body fluid regulation by the kidneys could lead to salt and water retention, increased plasma volume, and cardiac output. Also, activation of the renin-angiotensin system increases the levels of angiotensin II in the plasma, leading to generalized vasoconstriction, or locally in the kidneys, leading to salt and water retention. Individual changes in cardiac, vascular, or renal function seldom occur separately, and, if so, they may lead to mild or moderate increases in arterial pressure. Combined alterations in cardiac, vascular, and renal functions are more common and are often associated with pathologic increases in arterial pressure and established hypertension.
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PMID:Pathophysiology of essential hypertension: role of the pump, the vessel, and the kidney. 1178 64

Effect of ANG II was investigated in in vitro smooth muscle strips and in isolated smooth muscle cells (SMC). Among different species, rat internal and sphincter (IAS) smooth muscle showed significant and reproducible contraction that remained unmodified by different neurohumoral inhibitors. The AT(1) antagonist losartan but not AT(2) antagonist PD-123319 antagonized ANG II-induced contraction of the IAS smooth muscle and SMC. ANG II-induced contraction of rat IAS smooth muscle and SMC was attenuated by tyrosine kinase inhibitors genistein and tyrphostin, protein kinase C (PKC) inhibitor H-7, Ca(2+) channel blocker nicardipine, Rho kinase inhibitor Y-27632 or p(44/42) mitogen-activating protein kinase (MAPK(44/42)) inhibitor PD-98059. Combinations of nicardipine and H-7, Y-27632, and PD-98059 caused further attenuation of the ANG II effects. Western blot analyses revealed the presence of both AT(1) and AT(2) receptors. We conclude that ANG II causes contraction of rat IAS smooth muscle by the activation of AT(1) receptors at the SMC and involves multiple intracellular pathways, influx of Ca(2+), and activation of PKC, Rho kinase, and MAPK(44/42).
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PMID:Animal model for angiotensin II effects in the internal anal sphincter smooth muscle: mechanism of action. 1184 96

Studies were performed to compare the actions of Ang II in the internal anal sphincter (IAS) vs. lower esophageal sphincter (LES) smooth muscles in vitro, in opossum and rabbit. Studies also were carried out in isolated smooth muscle cells. In opossum, Ang II produced no discernible effects in the IAS, but did produce a concentration-dependent contraction in the LES. Conversely, in the rabbit, while Ang II caused a modest response in the LES, it caused a significant contraction in the IAS. The contractile responses of Ang II in the opossum LES were mostly resistant to different neurohumoral antagonists but were antagonized by AT1 antagonist losartan. AT2 antagonist PD 123,319, rather than inhibiting, prolonged the contractile action of Ang II. The contractile actions of Ang II in the opossum LES were not modified by the tyrosine kinase inhibitors (genistein and tyrphostin 1 x 10(-6) M) but were partially attenuated by the PKC inhibitor H-7 (1 x 10(-6) M), Ca2+ channel blocker nicardipine (1 x 10(-5) M), Rho kinase inhibitor HA-1077 (1 x 10(-7) M) or p(44/42) MAP kinase inhibitor PD 98059 (5 x 10(-5) M). The combination of HA-1077 and H-7 did not cause an additive attenuation of Ang II responses. Western blot analyses revealed the presence of both AT1 and AT2 receptors. We conclude that Ang lI-induced contraction of sphincteric smooth muscle occurs primarily by the activation of AT1 receptors at the smooth muscle cells and involves multiple pathways, influx of Ca2+, and PKC, Rho kinase and p(44/42) MAP kinase.
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PMID:Comparison of angiotensin II (Ang II) effects in the internal anal sphincter (IAS) and lower esophageal sphincter smooth muscles. 1200 7

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