Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In recent years we and others have shown the cancer chemopreventive effects of green tea in several animal tumor models. In this study we assessed the cancer chemopreventive effects of water extract of green tea (WEGT) and the polyphenolic fraction (GTP) isolated from WEGT against N-nitrosodiethylamine (DEN)- and benzo[a]pyrene (BP)-induced forestomach and lung tumorigenesis in A/J mice. The protective effects, both in forestomach and lungs, were evident by a decrease in number of tumors and the percentage of mice with tumors when WEGT and GTP were fed to animals during initiation, post-initiation and entire period of tumorigenesis protocols. Oral feeding of 0.2% GTP in drinking water to mice afforded 68-82 and 39-66% protection against DEN- and BP-induced forestomach tumorigenesis respectively. In case of pulmonary tumor multiplicity caused by DEN and BP, the protective effects of GTP were between 38-43 and 25-46% respectively. Similarly, oral feeding of 2.5% WEGT to mice also afforded 80-85 and 61-71% protection against DEN- and BP-induced forestomach tumorigenesis respectively. In case of lung tumorigenesis, the protective effects of WEGT were 43-62 and 25-51% respectively. Histological studies of forestomach tumors showed significantly lower squamous cell carcinoma counts in GTP- and WEGT-fed groups of mice compared to carcinogen alone treated control group of mice. When pulmonary tumors were examined histologically, no adenocarcinomas were observed in GTP- and WEGT-fed groups of mice compared to 20% mice with adenocarcinomas in carcinogen alone treated control group. Oral feeding of GTP and WEGT in drinking water also showed significant enhancement in the activities of glutathione S-transferase and NADP(H): quinone reductase in liver, small bowel, stomach and lung. The results of this study suggest that green tea possesses chemopreventive effects against carcinogen-induced tumorigenesis in internal body organs, and that the mechanism of such effects may involve the enhancement of phase II and anti-oxidant enzyme systems.
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PMID:Protection against N-nitrosodiethylamine and benzo[a]pyrene-induced forestomach and lung tumorigenesis in A/J mice by green tea. 850 76

A Caenorhabditis elegans cDNA encoding a homologue of the p21 ras-related CDC42, designated as CDC42Ce, was isolated from a nematode mixed stage cDNA library. The encoded protein of 188 amino acid residues has 85% identity to both human G25K and CDC42Hs and 79 and 76% identity to the yeast CDC42Sp and CDC42Sc proteins, respectively. The CDC42Ce cDNA maps to a position on C. elegans chromosome II in close proximity to lin-26, a cell lineage gene. The CDC42Ce cDNA hybridizes to 2- and 1.5-kilobase mRNAs. Their expression is developmentally regulated with highest levels at the embryonic stage, decreasing progressively during development except for an increase of the more abundant 1.5-kilobase mRNA at the L3 stage. The glutathione S-transferase/CDC42Ce fusion protein expressed in Escherichia coli displays both GTP binding and intrinsic GTPase activities. The GTPase activity of CDC42Ce is moderately stimulated by human n-chimaerin, a GTPase-activating protein for the related p21 rac1. The CDC42Ce protein complements the temperature-sensitive lethal mutation cdc42-1 in yeast Saccharomyces cerevisiae. These data suggest that CDC42Ce is the C. elegans homologue of the yeast CDC42. The developmental expression pattern of mRNA and is biochemical properties of its encoded protein which are closely related to CErac1 suggest that the two p21s might be involved in related biological processes.
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PMID:The CDC42 homologue from Caenorhabditis elegans. Complementation of yeast mutation. 851 66

R-Ras, belonging to the Ras small GTP-binding protein superfamily, has been implicated in regulation of various cell functions such as gene expression, cell proliferation, and apoptotic cell death. In the present study, we purified an R-Ras-interacting protein with molecular mass of about 98 kDa (p98) from bovine brain cytosol by glutathione S-transferase (GST)-R-Ras affinity column chromatography. This protein bound to GTP gamma S (guanosine 5'-(3-O-thio)triphosphate, a nonhydrolyzable GTP analog).R-Ras but not to GDP.R-Ras, GTP gamma S.R-Ras with a mutation in the effector domain (R-RasA64), GTP gamma S.Ha-Ras, or GTP gamma S.RalA. We obtained a cDNA encoding p98 on the basis of its partial amino acid sequences. The predicted protein consists of 834 amino acids whose calculated mass, 95,384 Da, is close to the apparent molecular mass of p98. The amino acid sequence shows a high degree of sequence similarity to the entire sequence of Gap1m, one of the GTPase-activating proteins (GAP) for Ha-Ras. A recombinant protein consisting of the GAP-related domain of p98 fused to maltose-binding protein stimulated GTPase activity of R-Ras, and showed a weak effect on that of Ha-Ras but not that of Rap1 or Rho. These results clearly indicate that p98 is a novel GAP for R-Ras. Thus, we designated this protein as R-Ras GAP.
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PMID:A novel GTPase-activating protein for R-Ras. 853 Apr 88

Ras (Ha-Ras, Ki-Ras, N-Ras) is implicated in the regulation of various cell functions such as gene expression and cell proliferation downstream from specific extracellular signals. Here, we partially purified a Ras-interacting protein with molecular mass of about 180 kDa (p180) from bovine brain membrane extract by glutathione S-transferase (GST)-Ha-Ras affinity column chromatography. This protein bound to the GTP gamma S (guanosine 5'-(3-O-thio)triphosphate, a nonhydrolyzable GTP analog).GST-Ha-Ras affinity column but not to those containing GDP.GST-Ha-Ras or GTP gamma S.GST-Ha-Ras with a mutation in the effector domain (Ha-RasA38). The amino acid sequences of the peptides derived from p180 were almost identical to those of human AF-6 that is identified as the fusion partner of the ALL-1 protein. The ALL-1/AF-6 chimeric protein is the critical product of the t (6:11) abnormality associated with some human leukemia. AF-6 has a GLGF/Dlg homology repeat (DHR) motif and shows a high degree of sequence similarity with Drosophila Canoe, which is assumed to function downstream from Notch in a common developmental pathway. The recombinant N-terminal domain of AF-6 and Canoe specifically interacted with GTP gamma S.GST-Ha-Ras. The known Ras target c-Raf-1 inhibited the interaction of AF-6 with GTP gamma S.GST-Ha-Ras. These results indicate that AF-6 and Canoe are putative targets for Ras.
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PMID:Identification of AF-6 and canoe as putative targets for Ras. 855 59

Dematin and protein 4.2 are peripheral membrane proteins associated with the cytoplasmic surface of the human erythrocyte plasma membrane. Isoforms of dematin and protein 4.2 exist in many nonerythroid cells. In solution, dematin is a trimeric protein containing two subunits of 48 kDa and one subunit of 52 kDa. Recent determination of the primary structure of the 52 kDa subunit of dematin showed that it contains an additional 22-amino acid sequence in the headpiece domain. An alignment of the 22-amino acid insertion sequence revealed that the 52 kDa subunit of dematin shares a novel 11-amino acid motif with protein 4.2. In this communication, we report that the conserved 11-amino acid motif in dematin52 and protein 4.2 contains a nucleotide binding P-loop. Direct binding of ATP is demonstrated to the glutathione S-transferase fusion proteins containing corresponding segments of dematin52 and protein 4.2 as well as to purified protein 4.2. The binding of ATP to the recombinant domains of dematin52 and protein 4.2 is specific, saturable, and of high affinity. The nucleotide specificity of the P-loop is restricted to ATP since no detectable binding was observed with GTP. These results show that the 11-amino acid motif provides an ATP binding site in dematin52 and protein 4.2. Although the functional significance of ATP binding is not yet clear, our findings open new perspectives for the function of dematin and protein 4.2 in vivo.
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PMID:Human erythrocyte dematin and protein 4.2 (pallidin) are ATP binding proteins. 860 38

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

Previous structural studies of RasGAP have failed to clearly localize sites of Ras interaction to individual amino acids. Hypothesizing that sites of interaction with Ras-GTP would be conserved, 11 of the most highly conserved amino acid residues of RasGAP were changed by mutation. Each mutant protein was purified as a glutathione S-transferase catalytic domain fusion and analyzed for protein stability, Ras GTPase stimulating activity, affinity for Ras-GTP, and when possible, secondary structure. The majority of conserved positions were found to be important structurally but with no direct role in Ras interactions. However, Arg786, Lys831, and Arg925 were observed to be essential for binding to Ras-GTP but not for protein structure. RasGAP residues 890-902 (block 3A) were observed to be homologous to residues 1540-1552 of the yeast adenylyl cyclase with amino acid substitutions in both regions resulting in increased affinity for Ras. This is the first example of a conserved Ras interaction motif in distinct Ras effector proteins. Our data are supportive of a model for GAP/Ras-GTP association in which the conserved, positively charged Arg786, Lys831, and Arg925 residues form salt bridges with the conserved, negatively charged residues in the Ras effector loop.
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PMID:p120 Ras GTPase-activating protein interacts with Ras-GTP through specific conserved residues. 866 24

Insulin activates rapidly a complex cascade of lipid and protein kinases leading to stimulation of mitogenic and metabolic events. Here we describe a renaturable kinase of 65 kDa (PK65) that becomes rapidly activated by insulin in differentiated L6 muscle cells (myotubes) and can phosphorylate histones immobilized in polyacrylamide gels. Insulin activation of PK65 was abolished by the tyrosine kinase inhibitor erbstatin and by the phosphatidylinositol 3-kinase (PI 3-kinase) inhibitor wortmannin, but was unaffected by inhibitors of protein kinase C or of the activation of p70(S6K). Recently, a number of protein kinases have been described which become activated through interaction with the small GTP-binding proteins Rac and Cdc42 (21-ctivated inases, or PAKs) and lead to activation of the stress-induced mitogen-activated protein kinase (MAPK) p38 MAPK. Two different polyclonal antibodies recognizing the carboxyl-terminal or the Rac-binding domain of a 65-kDa PAK (PAK65) immunoprecipitated the myotube PK65. The insulin-induced activation of PK65 in myotubes was detectable following immunoprecipitation of the kinase. Furthermore, PK65 associated with and became activated by glutathione S-transferase-Cdc42Hs in the presence of GTPgammaS (guanosine 5'-3-O-(thio)triphosphate). In myotubes insulin also induced tyrosine phosphorylation of p38 MAPK. However, this phosphorylation was insensitive to wortmannin, indicating that p38 MAPK is not activated by PK65 in insulin-stimulated cells. The results suggest that insulin activates in muscle cells a renaturable kinase (PK65) closely related to PAK65. Tyrosine kinases and PI 3-kinase act upstream of PK65 in the insulin signaling cascade. Insulin activates p38 MAPK in myotubes, but this occurs by a pathway independent of PI 3-kinase and PK65.
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PMID:Insulin activates a p21-activated kinase in muscle cells via phosphatidylinositol 3-kinase. 870 68

Interferon gamma is a pleiotropic cytokine that regulates many immune functions. We have identified a novel protein, inducibly expressed GTPase (IGTP), whose expression was regulated by interferon gamma in macrophages. In mouse RAW 264.7 macrophages, IGTP mRNA levels were almost undetectable but increased within 1 h of exposure to interferon gamma, peaked at very high levels within 3 h, and remained at high levels to at least 48 h; pretreatment of the cells with cycloheximide blocked the majority of mRNA accumulation. In the mouse, the mRNA was highly expressed in thymus, spleen, lung, and small intestine. Using interspecific backcross analysis, the Igtp gene was mapped to mouse chromosome 11. The IGTP cDNA encoded a putative polypeptide of Mr 48,507 and pI 7.79 that contained three consensus GTP binding motifs, GXXXXGK(S/T), DXXG, and NTKXD. Both IGTP that had been immunoprecipitated from RAW cells and a glutathione S-transferase IGTP fusion protein were able to convert GTP to GDP in vitro. Subcellular protein fractionation and Western blotting localized IGTP to the cytosol of RAW cells. In addition, the protein was homologous to proteins encoded by three previously cloned cDNAs, IRG-47, TGTP/Mg21, and LRG-47, and thus may be representative of a new family of interferon gamma-regulated GTPases.
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PMID:Identification of a novel GTPase, the inducibly expressed GTPase, that accumulates in response to interferon gamma. 870 76

A protein serine/threonine kinase, p160(ROCK), has been identified as a putative Rho target protein that is activated when bound to the GTP-bound form of the small GTPase Rho (Ishizaki, T., Maekawa, M., Fujisawa, K., Okawa, K., Iwamatu, A., Fujita, A., Watanabe, N. Saito, Y., Kakizuka, A., Morii, N., and Narumiya, S. (1996) EMBO J. 15, 1885-1893). p160(ROCK) has a serine/threonine kinase domain in its NH2-terminal region, followed by an approximately 600-amino acid-long alpha-helix, a cysteine-rich zinc finger-like motif, and a pleckstrin homology region in the COOH terminus. To identify the Rho binding domain of this protein, we divided p160 into five fragments, expressed each as a His-tagged recombinant protein, and performed a ligand overlay assay using [35S]guanosine-5'-3-O-(thio)triphosphate (GTPgammaS)-bound glutathione S-transferase-RhoA. Specific GTPgammaS-Rho binding was observed only in the fragment M2, which covered most of the carboxyl half of the alpha-helix between amino acids 727 and 1021. This fragment was further subdivided into several fragments, and the ligand overlay assay as well as the yeast two hybrid system was carried out to identify the Rho-binding region. These studies localized the minimum Rho binding region to amino acids 934-1015. To identify critical amino acids for Rho binding, we analyzed the Rho binding activity of the subfragment with various point mutations. This analysis revealed that K934M, L941A, and E1008A mutations significantly weakened Rho binding and an I1009A mutation abolished Rho binding. The amino acid sequence in this region had no significant homology with Rho effector motif class 1, which is shared by putative Rho targets, PKN, rhophilin, and rhotekin, (Reid, T., Furuyashiki, T., Ishizaki, T., Watanabe, G., Watanabe, N., Fujisawa, K., Morii, N., Madaule, P., and Narumiya, S. (1996) J. Biol. Chem. 271, 13556-13560) and may define a distinct class of Rho effector motif.
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PMID:Identification of the Rho-binding domain of p160ROCK, a Rho-associated coiled-coil containing protein kinase. 879 90


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