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)

Transformation by oncogenic Ras requires the function of the Rho family GTPases. We find that Ras-transformed cells have elevated levels of RhoA-GTP, which functions to inhibit the expression of the cell cycle inhibitor p21/Waf1. These high levels of Rho-GTP are not a direct consequence of Ras signalling but are selected for in response to sustained ERK-MAP kinase signalling. While the elevated levels of Rho-GTP control the level of p21/Waf, they no longer regulate the formation of actin stress fibres in transformed cells. We show that the sustained ERK-MAP kinase signalling resulting from transformation by oncogenic Ras down-regulates ROCK1 and Rho-kinase, two Rho effectors required for actin stress fibre formation. The repression of Rho- dependent stress fibre formation by ERK-MAP kinase signalling contributes to the increased motility of Ras-transformed fibroblasts. Overexpression of the ROCK target LIM kinase restores actin stress fibres and inhibits the motility of Ras-transformed fibroblasts. We propose a model in which Ras and Rho signalling pathways cross-talk to promote signalling pathways favouring transformation.
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PMID:Cross-talk between Ras and Rho signalling pathways in transformation favours proliferation and increased motility. 1117 20

This review discusses the rapidly progressing field of cardiomyocyte signal transduction and the regulation of the hypertrophic response. When stimulated by a wide array of neurohumoral factors or when faced with an increase in ventricular-wall tension, individual cardiomyocytes undergo hypertrophic growth as an adaptive response. However, sustained cardiac hypertrophy is a leading predictor of future heart failure. A growing number of intracellular signaling pathways have been characterized as important transducers of the hypertrophic response, including specific G protein isoforms, low-molecular-weight GTPases (Ras, RhoA, and Rac), mitogen-activated protein kinase cascades, protein kinase C, calcineurin, gp130-signal transducer and activator of transcription, insulin-like growth factor I receptor pathway, fibroblast growth factor and transforming growth factor beta receptor pathways, and many others. Each of these signaling pathways has been implicated as a hypertrophic transducer, which collectively suggests an emerging paradigm whereby multiple pathways operate in concert to orchestrate a hypertrophic response
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PMID:Cytoplasmic signaling pathways that regulate cardiac hypertrophy. 1118 61

Small GTP-binding proteins of the Rho-family, Rho, Rac, and Cdc42, have been traditionally linked to the regulation of the cellular actin-based cytoskeleton. Rac and Cdc42 can also control the activity of JNK, thus acting in a molecular pathway transmitting extracellular signals to the nucleus. Interestingly, Rho can also regulate gene expression, albeit by a not fully understood mechanism. Here, we found that activated RhoA can stimulate c-jun expression and the activity of the c-jun promoter. As the complexity of the signaling pathways controlling the expression of c-jun has begun to be unraveled, this finding provided a unique opportunity to elucidate the biochemical routes whereby RhoA regulates nuclear events. We found that RhoA can initiate a linear kinase cascade leading to the activation of ERK6 (p38 gamma), a recently identified member of the p38 family of MAPKs. Furthermore, we present evidence that RhoA, PKN, MKK3/MKK6, and ERK6 (p38 gamma) are components of a novel signal transduction pathway involved in the regulation of gene expression and cellular transformation.
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PMID:Regulation of gene expression by the small GTPase Rho through the ERK6 (p38 gamma) MAP kinase pathway. 1123 75

We assessed the roles of insulin receptor substrate-1 (IRS-1) and Shc in insulin action on farnesyltransferase (FTase) and geranylgeranyltransferase I (GGTase I) using Chinese hamster ovary (CHO) cells that overexpress wild-type human insulin receptors (CHO-hIR-WT) or mutant insulin receptors lacking the NPEY domain (CHO-DeltaNPEY) or 3T3-L1 fibroblasts transfected with adenoviruses that express the PTB or SAIN domain of IRS-1 and Shc, the pleckstrin homology (PH) domain of IRS-1, or the Src homology 2 (SH2) domain of Shc. Insulin promoted phosphorylation of the alpha-subunit of FTase and GGTase I in CHO-hIR-WT cells, but was without effect in CHO-DeltaNPEY cells. Insulin increased FTase and GGTase I activities and the amounts of prenylated Ras and RhoA proteins in CHO-hIR-WT (but not CHO-DeltaNPEY) cells. Overexpression of the PTB or SAIN domain of IRS-1 (which blocked both IRS-1 and Shc signaling) prevented insulin-stimulated phosphorylation of the FTase and GGTase I alpha-subunit activation of FTase and GGTase I and subsequent increases in prenylated Ras and RhoA proteins. In contrast, overexpression of the IRS-1 PH domain, which impairs IRS-1 (but not Shc) signaling, did not alter insulin action on the prenyltransferases, but completely inhibited the insulin effect on the phosphorylation of IRS-1 and on the activation of phosphatidylinositol 3-kinase and Akt. Finally, overexpression of the Shc SH2 domain completely blocked the insulin effect on FTase and GGTase I activities without interfering with insulin signaling to MAPK. These data suggest that insulin signaling from its receptor to the prenyltransferases FTase and GGTase I is mediated by the Shc pathway, but not the IRS-1/phosphatidylinositol 3-kinase pathway. Shc-mediated insulin signaling to MAPK may be necessary (but not sufficient) for activation of prenyltransferase activity. An additional pathway involving the Shc SH2 domain may be necessary to mediate the insulin effect on FTase and GGTase I.
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PMID:Insulin signals to prenyltransferases via the Shc branch of intracellular signaling. 1127 5

The Rho family of small GTPases has been shown to be involved in the regulation of neuronal morphology, and Rac and Rho exert antagonistic actions in neurite formation. In this study, we have examined the cross-talk between Rac and Rho in relation to the nerve growth factor (NGF)-induced neurite outgrowth in PC12 cells. NGF induced a rapid activation of Rac1 and suppression of RhoA activity. Constitutively active RhoA, RhoA(V14), or constitutively active Galpha(12)-induced endogenous RhoA activation inhibited the NGF-induced Rac1 activation without any effect on the NGF-induced extracellular signal-regulated kinase activation. Moreover, Y-27632, an inhibitor of Rho-associated kinase, completely abolished the RhoA-induced down-regulation of the NGF-induced Rac1 activation. We also revealed that NGF induced a rapid recruitment of Rac1 to the cell surface protrusion sites and formed filamentous actin-rich protrusions. Activation of RhoA and Rho-associated kinase formed a thick ringlike structure of cortical actin filaments at the cell periphery and then inhibited the NGF-induced recruitment of Rac1 to protrusions. These results indicate that RhoA down-regulates the NGF- induced Rac1 activation through Rho-associated kinase, inhibiting the neurite formation.
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PMID:RhoA inhibits the nerve growth factor-induced Rac1 activation through Rho-associated kinase-dependent pathway. 1127 39

The underlying mechanism of the antiproliferative effect of S (simvastatin), a HMG-CoA reductase inhibitor, in vascular smooth muscle cells (SMC) is still poorly understood. In the present study, we used synchronized human SMC, isolated from left interior mammary artery, as an in vitro model to test the effects of S on platelet-derived growth factor (PDGF)-induced DNA synthesis, extracellular-regulated kinase 1/2 (ERK1/2), p38/stress-activated protein kinase 2 (SAPK2), RhoA and Rac1 activation. ERK1/2 phosphorylation was triggered within 2 min of PDGF stimulation (early G1 phase) and was blocked by PD98059, a specific inhibitor of the ERK1/2 pathway, which also strongly inhibited PDGF-induced DNA synthesis (IC(50) = 10 micromol/L). PDGF quickly induced p38 phosphorylation (early G1 phase) and SB203580, a specific inhibitor of the p38/SAPK2 pathway, also blocked PDGF-induced DNA synthesis (IC(50) = 0.3 micromol/L). Translocation to the plasma membrane of small GTPases, such as RhoA and Rac1, could not be detected within 15 min of stimulation with PDGF or lysophosphatidic acid (LPA) (early G1 phase), but occurred after 24 hr of PDGF stimulation (late G1/S phase). S inhibited PDGF-induced DNA synthesis (IC(50) = 3.5 micromol/L), and this effect was dependent on intracellular mevalonate, farnesyl pyrophosphate, and geranylgeranyl pyrophosphate availability. The critical time period for the reversal of the S effect by mevalonate comprised both the early and late G1 phase of the SMC cycle. PDGF-induced ERK1/2 phosphorylation and PDGF-induced p38 phosphorylation were not markedly affected by S during the whole G1 phase. However, S treatment blocked the PDGF- and LPA-induced membrane translocation of RhoA that occurred during the late G1/S phase. In the case of Rac1, the same process was also inhibited by S treatment. We concluded from these results that, in SMC, the early events associated with ERK1/2 and p38 signal transduction pathways, recruited for PDGF-mediated DNA synthesis, were insensitive to S action, whereas the mevalonate-dependent, posttranslational modification of RhoA and Rac1 molecules, required for PDGF-induced membrane translocation, was blocked by this drug. These results suggest that the antiproliferative effect of S can be explained not only by the blockage of RhoA-mediated signaling events but also by Rac1-mediated signaling events.
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PMID:Differential effect of simvastatin on various signal transduction intermediates in cultured human smooth muscle cells. 1128 90

We previously demonstrated that Rac1 increased cyclin D1 promoter activity in an extracellular signal-regulated kinase (ERK)-independent, antioxidant-sensitive manner. Here, we examined the regulation of cyclin D1 expression by Cdc42 and RhoA. Overexpression of active Cdc42, but not of RhoA, induced transcription from the cyclin D1 promoter. Furthermore, dominant negative Cdc42, but not RhoA, attenuated platelet-derived growth factor-mediated activation of the cyclin D1 promoter. Overexpression of active Cdc42 increased cyclin D1 protein abundance in COS cells. Cdc42-induced cyclin D1 promoter activation was independent of ERK as evidenced by insensitivity to PD-98059, an inhibitor of mitogen-activated protein kinase/ERK kinase (MEK). Furthermore, Cdc42 was neither sufficient nor required for activation of ERK. Similar to Rac1-induced cyclin D1 expression, pretreatment with the antioxidants catalase and ebselen inhibited Cdc42-mediated transcription from the cyclin D1 promoter. Finally, like Rac1, active Cdc42 induced transactivation of the cyclin D1 promoter cAMP response element binding protein/activating transcription factor-2 binding site. Together, these data suggest that in airway smooth muscle cells, Cdc42 and Rac1 share a common signaling pathway to cyclin D1 promoter activation.
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PMID:Cdc42, but not RhoA, regulates cyclin D1 expression in bovine tracheal myocytes. 1129 May 22

Mammalian submandibular gland (SMG) development leads to the establishment of highly organized secretory acinar and nonsecretory ductal epithelial cells. The ability of maturing salivary epithelial cells to attain their differentiated state has been shown to depend, in part, on interactions between extracellular matrix (ECM) proteins and their integrin receptors. In a search for key regulators of salivary cell lineage, we have studied alpha3beta1 integrin, a receptor for the basement membrane protein laminin, by characterizing embryonic day 18 (E18) SMGs isolated from mice carrying a targeted mutation in the alpha3 integrin gene. Transmission electron microscopy studies showed that the mutant SMGs exhibited an aberrant differentiation phenotype with defects in the apical-basal polarity axis and in the basement membrane. Based on immunohistochemistry and Western blot analyses, the alpha3beta1-deficient SMGs had altered expression and/or localization of several ECM and adhesive molecules, including laminin beta1, fibronectin, alpha5 integrin, and E-cadherin. These changes correlated with alterations in the activation state of Ras-extracellular signal-regulated kinase (ERK), as well as the expression and/or localization of Cdc42 and RhoA, two Rho GTPases that regulate the organization of the actin cytoskeleton. We conclude that alpha3beta1 is required for normal salivary cell differentiation and that its absence affects multiple components of adhesive complexes and their associated signalling pathways.
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PMID:Loss of alpha3beta1 integrin function results in an altered differentiation program in the mouse submandibular gland. 1130 67

Lysophosphatidic acid (LPA) and sphingosine-1-phosphate (S1P) are extracellular lipid mediators that signal through distinct members of the Edg/LP subfamily of G protein-coupled receptors (GPCRs). LPA and S1P receptors are expressed in almost every cell type and can couple to multiple G proteins (G(i), G(q) and G(12/13)) to mediate a great variety of responses, ranging from rapid morphological changes to long-term stimulation of cell proliferation. LPA serves as the prototypic GPCR agonist that activates the small GTPases Ras (via G(i)) and RhoA (via G(12/13)), leading to activation of the mitogen-activated protein kinase (MAPK) cascade and reorganization of the actin cytoskeleton, respectively. This review focuses on our current insights into how Ras-MAPK signaling is regulated by GPCR agonists in general, and by LPA in particular.
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PMID:Ras-MAP kinase signaling by lysophosphatidic acid and other G protein-coupled receptor agonists. 1131

Apert (Ap) syndrome is a craniofacial malformation characterized by premature fusion of cranial sutures (craniosynostosis). We previously showed that the Ser252Trp fibroblast growth factor receptor 2 (FGFR-2) mutation in Ap syndrome increases osteoblast differentiation and subperiosteal bone matrix formation, leading to premature calvaria ossification. In this study, we used the emerging technology of complementary DNA (cDNA) microarray to identify genes that are involved in osteoblast abnormalities induced by the Ser252Trp FGFR-2 mutation. To identify the signaling pathways involved in this syndrome, we used radioactively labeled cDNAs derived from two sources of cellular messenger RNAs (mRNAs) for hybridization: control (Co) and mutant Ap immortalized osteoblastic cells. Among genes that were differentially expressed, protein kinase Ca (PKC-alpha), interleukin-1alpha (IL-1alpha), and the small guanosine-5'-triphosphatase (GTPase) RhoA were increased in FGFR-2 mutant Ap cells compared with Co cells. The validity of the hybridization array was confirmed by Northern blot analysis using mRNAs derived from different cultures. Furthermore, immunochemical and Western blot analyses showed that mutant Ap cells displayed increased PKC-alpha, IL-1alpha, and RhoA protein levels compared with Co cells. Treatment of Co and Ap cells with the PKC inhibitor calphostin C decreased IL-1alpha and RhoA mRNA and protein levels in Ap cells, indicating that PKC is upstream of IL-1alpha and RhoA. Moreover, SB203580, a specific inhibitor of p38 mitogen-activated protein kinase (MAPK), and PD-98059, a specific inhibitor of MAPK kinase (MEKK), also reduced IL-1alpha and RhoA expression in Ap cells. These data show that the Ser252Trp FGFR-2 mutation in Ap syndrome induces constitutive overexpression of PKC-alpha, IL-1alpha, and small GTPase RhoA, suggesting a role for these effectors in osteoblast alterations induced by the mutation. The cDNA microarray technology appears to be a useful tool to gain information on abnormal gene expression and molecular pathways induced by genetic mutations in bone cells.
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PMID:Increased expression of protein kinase Calpha, interleukin-1alpha, and RhoA guanosine 5'-triphosphatase in osteoblasts expressing the Ser252Trp fibroblast growth factor 2 receptor Apert mutation: identification by analysis of complementary DNA microarray. 1131 98

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