EC:3.4.11.18 - FACTA Search

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Query: EC:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rho-like GTPases, including Cdc42, Rac1 and RhoA, regulate distinct actin cytoskeleton changes required for cell adhesion, migration and invasion. In the present study, we examined the role of Rac signaling in inherent migration, as well as radiation-induced migration, of rat glioma cells. Stable overexpression of dominant-negative Rac1N17 in a C6 rat glioma cell line (C6-RacN17) promoted cell migration, and ionizing radiation further increased this migration. Migration was accompanied by decreased expression of the focal adhesion molecules FAK and paxillin. Focal contacts and actin stress fibers were also reduced in C6-RacN17 cells. Downstream effectors of Rac include JNK and p38 MAP kinases. Irradiation transiently activated p38, JNK and ERK1/2 MAP kinases in C6-RacN17 cells, while p38 and JNK were constitutively activated in C6 control cells. Blocking JNK activity with JNK inhibitor SP600125 inhibited migration, suggesting that the JNK pathway may regulate radiation-induced, as well as inherent, migration of C6-RacN17 cells. Additionally, the radiation-induced migration increase was also inhibited by SB203580, a specific inhibitor of p38 MAP kinase. However, PD98059, a MEK kinase 1 inhibitor, failed to influence migration. This is the first evidence that suppression of Rac signaling may be involved in invasion or metastasis of glioma cells before and/or after radiotherapy. These data further suggest that radiotherapy for malignant glioma needs to be used with caution because of the potential for therapy-induced cell migration or invasion and that pharmacological inhibition of cell migration and invasion through targeting the Rac signaling pathway may represent a new approach for improving the therapeutic efficacy of radiotherapy for malignant glioma.
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PMID:Dominant-negative Rac increases both inherent and ionizing radiation-induced cell migration in C6 rat glioma cells. 1628 69

The highly conserved small Rho G-protein, Cdc42p plays a critical role in cell polarity and cytoskeleton organization in all eukaryotes. In the yeast Saccharomyces cerevisiae, Cdc42p is important for cell polarity establishment, septin ring assembly, and pheromone-dependent MAP-kinase signaling during the yeast mating process. In this study, we further investigated the role of Cdc42p in the mating process by screening for specific mating defective cdc42 alleles. We have identified and characterized novel mating defective cdc42 alleles that are unaffected in vegetative cell polarity. Replacement of the Cdc42p Val36 residue with Met resulted in a specific cell fusion defect. This cdc42[V36M] mutant responded to mating pheromone but was defective in cell fusion and in localization of the cell fusion protein Fus1p, similar to a previously isolated cdc24 (cdc24-m6) mutant. Overexpression of a fast cycling Cdc42p mutant suppressed the cdc24-m6 fusion defect and conversely, overexpression of Cdc24p suppressed the cdc42[V36M] fusion defect. Taken together, our results indicate that Cdc42p GDP-GTP cycling is critical for efficient cell fusion.
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PMID:Cdc42p GDP/GTP cycling is necessary for efficient cell fusion during yeast mating. 1657 78

We have identified human ArhGAP9 as a novel MAP kinase docking protein that interacts with Erk2 and p38alpha through complementarily charged residues in the WW domain of ArhGAP9 and the CD domains of Erk2 and p38alpha. This interaction sequesters the MAP kinases in their inactive states through displacement of MAP kinase kinases targeting the same sites. While over-expression of wild type ArhGAP9 caused MAP kinase activation by the epidermal growth factor receptor (EGFR) to be suppressed and preserved the actin stress fibres in quiescent Swiss 3T3 fibroblasts, over-expression of an ArhGAP9 mutant defective in MAP kinase binding restored EGFR-induced MAP kinase activation and resulted in significant disruption of the stress fibres, consistent with the role of Erk activation in disassembly of actin stress fibres. The interaction between ArhGAP9 and the MAP kinases represents a novel mechanism of cross-talk between Rho GTPase and MAP kinase signaling.
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PMID:ArhGAP9, a novel MAP kinase docking protein, inhibits Erk and p38 activation through WW domain binding. 1728 14

Small GTPases of the Rho family have been implicated in the regulation of many intracellular processes. However, their tissue-specific roles in mammalian growth and development in vivo remain largely unknown. Here we describe the effects of cartilage-specific inactivation of the Rac1 gene in mice. Mice carrying this mutation show increased lethality, skeletal deformities, severe kyphosis and dwarfism. Rac1-deficient growth plates are disorganized and hypocellular, with chondrocytes of abnormal shape and size. Rac1-deficient chondrocytes also display reduced adhesion and spreading on collagen II and fibronectin as well as altered organization of the actin cytoskeleton, suggesting that Rac1 is required for normal cell-extracellular matrix interactions in cartilage. This phenotype is accompanied by reduced proliferation, increased apoptosis and deregulated expression of the cell cycle genes cyclin D1 and p57 in vivo. Moreover, phosphorylation of p38 MAP kinases is greatly reduced and expression of a key regulator of cartilage development, Indian hedgehog, is increased in mutant mice. In summary, these data identify a novel, essential and tissue-specific role of Rac1 in skeletal development and demonstrate that Rac1 deficiency affects numerous regulatory pathways in cartilage.
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PMID:Genetic ablation of Rac1 in cartilage results in chondrodysplasia. 1746 82

The HMG-CoA reductase inhibitors, statins, have pleiotropic effects which may include interference with the isoprenylation of Ras and Rho small GTPases. Statins have beneficial effects in animal models of pulmonary hypertension, although their mechanisms of action remain to be determined. Serotonin [5-hydroxytryptamine (5-HT)] is implicated in the process of pulmonary artery smooth muscle (PASM) remodeling as part of the pathophysiology of pulmonary hypertension. We examined the effect of atorvastatin on 5-HT-induced PASM cell responses. Atorvastatin dose dependently inhibits 5-HT-induced mitogenesis and migration of cultured bovine PASM cells. Inhibition by atorvastatin was reversed by mevalonate and geranylgeranylpyrophosphate (GGPP) supplement, suggesting that the statin targets a geranylgeranylated protein such as Rho. Concordantly, atorvastatin inhibits 5-HT-induced cellular RhoA activation, membrane localization, and Rho kinase-mediated phosphorylation of myosin phosphatase-1 subunit. Atorvastatin reduced activated RhoA-induced serum response factor-mediated reporter activity in HEK293 cells, indicating that atorvastatin inhibits Rho signaling, and this was reversed by GGPP. While 5-HT-induced ERK MAP and Akt kinase activation were unaffected by atorvastatin, 5-HT-induced ERK nuclear translocation was attenuated in a GGPP-dependent fashion. These studies suggest that atorvastatin inhibits 5-HT-induced PASM cell mitogenesis and migration through targeting isoprenylation which may, in part, attenuate the Rho pathway, a mechanism that may apply to statin effects on in vivo models of pulmonary hypertension.
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PMID:Inhibition of serotonin-induced mitogenesis, migration, and ERK MAPK nuclear translocation in vascular smooth muscle cells by atorvastatin. 1754 89

Transforming growth factor-beta (TGF-beta) belongs to a family of multifunctional growth factors that participates in the regulation of a variety of cellular activities. Beside induction of growth inhibition and differentiation of epithelial cells, TGF-beta has been shown to promote epithelial-mesenchymal transition in most epithelial tumors. While inhibition of epithelial cell proliferation in response to TGF-beta is mainly mediated by the well-characterized Smad pathway and subsequent inhibition of gene transcription, the molecular mechanism leading to TGF-beta-induced invasiveness and metastasis of epithelial tumors is less clear. Recent results from several groups suggest that the induction of tumorigenic activity by TGF-beta includes not only signaling by Smads, but also by Rho-GTPases and mitogen-activated protein kinases (MAP kinases). Activation of the MAP kinases extracellular signal-regulated kinases (ERK) 1 and 2 as well as c-jun N-terminal kinase (JNK) has been identified as important steps in TGF-beta-induced, Smad4-independent signal transduction in epithelial cells. Recent results identify a role of activated ERK and JNK and their association with focal complexes in TGF-beta-induced, Smad4-independent cell migration of breast carcinoma cells, and are reviewed here.
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PMID:Smad4-independent TGF-beta signaling in tumor cell migration. 1758 18

We investigated whether the effect of Y-27632 to improve the erectile function in SD rats was associated with the degree of the imbalance between nNOS and the Rho-kinase pathways. Western blot analysis was used to evaluate nNOS and Rho-kinase protein expression in 10 young and 10 old SD rats. Imbalance value between nNOS and Rho-kinase protein levels was obtained by subtracting nNOS from Rho-kinase. A 5-V stimulus was given in SD rats before and after the administration of 200 nmol kg(-1) of Y-27632 intracavernosally and ICP/MAP was recorded. The improvement of erectile function induced by Y-27632 was expressed as the margin of ICP/MAP after and before the administration of Y-27632. In young rat group, the contents of nNOS and Rho-kinase protein were 1.7 +/- 0.15 and 1.8 +/- 0.14 respectively. In old rat group, the nNOS protein decreased to 1 +/- 0.15, and in contrast, the Rho-kinase protein increased to 2.6 +/- 0.2. The imbalance value between nNOS and Rho-kinase was 0.2986 +/- 0.1109 and 1.5961 +/- 0.1206 in young and old rat groups. The improvement of erectile function induced by Y-27632 was 0.0500 +/- 0.0294 and 0.3420 +/- 0.660 in young and old rat groups. In all rats, the correlation coefficient between the imbalance value of nNOS and Rho-kinase and the improvement of erectile function was 0.649, P < 0.01. In conclusion, this study suggested that impaired erectile function with ageing in SD rats be associated with the imbalance between nNO and Rho-kinase activity and Y-27632 could improve the erectile function in old SD rats through adjusting this imbalance.
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PMID:Y-27632 improves the erectile dysfunction with ageing in SD rats through adjusting the imbalance between nNo and the Rho-kinase pathways. 1768 64

Spontaneously hypertensive rats (SHR) are characterized by impaired erectile function and overactivity of the procontractile RhoA/Rho-associated, coiled-coil-containing protein kinase (RhoA/ROCK) pathway, as compared with their normotensive counterpart, Wistar-Kyoto rats. By measuring the intracavernous pressure:mean arterial pressure (ICP:MAP) ratio after electrostimulation of the cavernous nerve, we confirmed these findings and showed that responsiveness to sildenafil (25 mg/kg by oral gavage) also is hampered in SHR. A 2-week treatment with atorvastatin (5 and 30 mg/kg) improved the sildenafil-induced ICP:MAP increase and normalized RhoA and ROCK2 overexpression in SHR corpora cavernosa (CC). Conversely, other genes, neuronal nitric oxide synthase (NOS), endothelial NOS, and phosphodiesterase 5, were unaffected. In human fetal smooth muscle cells derived from CC (hfPSMC), atorvastatin inhibited RhoA membrane translocation and ROCK activity, as well as RhoA-dependent biologic functions like cell migration and cell proliferation. Atorvastatin's effect on migration was rescued in a dose-dependent manner by geranylgeranyl pyrophosphate, suggesting the involvement of RhoA geranylgeranylation. In hfPSMC, atorvastatin decreased the expression of RhoA-dependent genes such as ROCK2, desmin, alpha-smooth muscle actin, SM22alpha, and myocardin. In contrast to atorvastatin, elocalcitol, a vitamin D analog that also interferes with RhoA activation in SHR bladder, was unable to restore penile responsiveness to sildenafil. In conclusion, atorvastatin, but not elocalcitol, ameliorates sildenafil-induced penile erections in SHR, likely by interfering with RhoA/ROCK signaling within the penis.
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PMID:Atorvastatin but not elocalcitol increases sildenafil responsiveness in spontaneously hypertensive rats by regulating the RhoA/ROCK pathway. 1769 3

We examined early and late alterations in gene expression patterns and phosphorylation levels of key regulators of selected signaling pathways in U937 cells exposed to various (*)NO fluxes. cDNA microarray analysis and real-time quantitative PCR identified 45 NO-sensitive genes (>or=2-fold change), among which KLF2, KLF6, TSC22D3, DDIT4, MKP-5 (up-regulated), KIF23, histone H4, ARL6IP2, CLNS1A, SLC7A6, CDKN3, SRP19, and BCL11A (down-regulated) have not been reported before. For two selected genes, KLF2 and DDIT4, the sensitivity to (.)NO was also proven at the protein level. Among the examined genes, only KLF2 had a higher sensitivity to slow release of NO (DETA-NO) than to high-dose, short-duration exposure (DPTA-NO), reaching an about 50-fold increase in mRNA level. Our study revealed that fast and slow NO donors activate similar signaling pathways and induce phosphorylation of MAP kinases and downstream transcription factors ATF2 and c-Jun. Inhibitory analysis of major signaling pathways showed that activity of p38 MAPK and tyrosine kinases is indispensable for gene induction in cells exposed to DPTA-NO, whereas G-protein Rho suppression caused superinduction of KLF2 in (*)NO-stimulated cells. Finally, we showed that both (*)NO donors caused a marked decrease in phosphorylation of p70S6K, an mTOR substrate and regulator of mRNA translation, and protein kinase Akt, an upstream positive regulator of mTOR.
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PMID:Variation in gene expression profiles of human monocytic U937 cells exposed to various fluxes of nitric oxide. 1989 11

We have previously reported protective effects of atrial natriuretic peptide (ANP) against endothelial cell (EC) permeability induced by thrombin via suppression of Rho GTPase pathway of barrier dysfunction by protein kinase A and Epac-Rap1-Tiam1-Rac signaling cascades. This study tested effects of ANP on EC barrier dysfunction induced by inflammatory mediators lipopolysaccharide (LPS) and TNFalpha and linked them with activation of mitogen-activated protein kinase (MAPK) and NFkappaB signaling cascades known to promote EC hyperpermeability in the models of lung inflammation and sepsis. LPS and TNFalpha increased permeability in human pulmonary EC monitored by measurements of transendothelial electrical resistance, and caused disruption of EC monolayer integrity monitored by immunofluorescence staining for adherens junction marker protein VE-cadherin. Both disruptive effects were markedly attenuated by ANP. Both LPS and TNFalpha caused sustained activation of p38 and ERK1/2 MAP kinases, increased phosphorylation and degradation of negative regulator of NFkappaB signaling IkBalpha, and increased Rho-kinase mediated phosphorylation of myosin phosphatase MYPT1 leading to accumulation of phosphorylated myosin light chains. Consistent with protective effects on EC permeability and monolayer integrity, ANP dramatically attenuated activation of inflammatory signaling by LPS and TNFalpha in pulmonary EC. These results strongly suggest inhibitory effects of ANP on the LPS and TNFalpha induced inflammatory signaling as additional mechanism of EC barrier preservation in the models of acute lung injury and sepsis.
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PMID:ANP attenuates inflammatory signaling and Rho pathway of lung endothelial permeability induced by LPS and TNFalpha. 1993 45

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