EC:2.5.1.18 - FACTA Search

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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)

The genome of CT10 avian sarcoma virus encodes a 47-kDa fusion protein that consists of viral gag sequences fused to a cell-derived sequence containing SH2 and SH3 domains (v-crk). Genetic and biochemical evidence suggests that v-Crk can induce transformation of chicken embryo fibroblasts by influencing the activity of cellular proteins involved in growth regulation. In this report, we have developed an in vitro microtiter assay to study the binding of bacterially expressed glutathione S-transferase-fusion proteins of v-Crk and its cellular homolog, c-Crk, to the phosphorylated epidermal growth factor receptor (EGFR). Competitive binding data are presented that compare the abilities of heterologous glutathione S-transferase-fusion proteins containing GAPSH2[N], AblSH2, SrcSH2, and PLC-gamma SH2[N] sequences to inhibit Crk binding. Results indicate that both full-length Crk and GAPSH2[N] bind the phosphorylated EGFR with high affinity and can quantitatively compete the binding of each other by competitive enzyme-linked immunosorbent assay. Binding of full-length Crk or the isolated SH2 domains of GAP or Abl resulted in a significant protection of phosphorylated EGFR against dephosphorylation by cellular phosphatase activity, but did not appear to stimulate the intrinsic tyrosine kinase activity of the EGFR. To extend these findings to p130, the major phosphotyrosine-containing protein in CT10-transformed cells, we utilized a nitrocellulose filter binding assay. Results demonstrate high affinity binding of Crk toward denatured p130 and, as is the case for phosphorylated EGFR, Crk binding can partially protect p130 from phosphatase activity. However, no apparent competition of Crk binding was noted with heterologous SH2-containing proteins including GAPSH2[N], suggesting a possible specificity of Crk-p130 binding. These data are consistent with a direct role of SH2 in the modulation of cellular phosphotyrosine status in vivo.
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PMID:Tyrosine-phosphorylated epidermal growth factor receptor and cellular p130 provide high affinity binding substrates to analyze Crk-phosphotyrosine-dependent interactions in vitro. 137 24

Sequencing of the neurofibromatosis gene (NF1) revealed a striking similarity among NF1, yeast IRA proteins, and mammalian GAP (GTPase-activating protein). Using both genetic and biochemical assays, we demonstrate that this homology domain of the NF1 protein interacts with ras proteins. First, expression of this NF1 domain suppressed the heat shock-sensitive phenotype of yeast ira1 and ira2 mutants. Second, this NF1 domain, after purification as a glutathione S-transferase (GST) fusion protein, strongly stimulated the GTPase activity of yeast RAS2 and human H-ras proteins. The GST-NF1 protein, however, did not stimulate the GTPase activity of oncogenic mutant ras proteins, H-rasVal-12 and yeast RAS2Val-19 mutants, or a yeast RAS2 effector mutant. These results establish that this NF1 domain has ras GAP activity similar to that found with IRA2 protein and mammalian GAP, and therefore may also regulate ras function in vivo.
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PMID:The catalytic domain of the neurofibromatosis type 1 gene product stimulates ras GTPase and complements ira mutants of S. cerevisiae. 212 69

The insulin receptor is known to interact with the SH2 domain proteins p85 (the regulatory subunit of phosphatidylinositol 3-kinase), Syp (a tyrosine phosphatase), and GAP (GTPase-activating protein). In this study, we mapped the insulin receptor binding sites for each of these proteins by examining the ability of phosphopeptides, corresponding to insulin receptor phosphorylation sites, and mutant insulin receptors to inhibit an insulin receptor-SH2 domain interaction. Precipitation of partially purified insulin receptors by glutathione S-transferase fusion proteins containing the N-terminal SH2 domains of p85 and GAP and both SH2 domains of Syp was demonstrated. The effect of the addition of each phosphopeptide on insulin receptor precipitation was tested. pY1322, the C-terminal insulin receptor peptide, inhibited insulin receptor precipitation by both p85- and Syp-GST. The NPXY internalization domain peptide inhibited insulin receptor precipitation by GAP-GST. These data were confirmed by mutant insulin receptor experiments. The insulin receptor C-terminal mutants, delta CT and Y/F2, were not precipitated by p85- or Syp-GST and the NPXY mutant insulin receptors, delta Ex16 and HI delta NPEY, were not precipitated by GAP-GST. Therefore, we conclude that p85 and Syp bind to the insulin receptor C terminus at tyrosine 1322 and GAP binds to the insulin receptor NPXY domain at tyrosine 960.
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PMID:Localization of the insulin receptor binding sites for the SH2 domain proteins p85, Syp, and GAP. 752 47

We have cloned a protein tyrosine kinase, MATK, which is expressed abundantly in megakaryocytes and the brain. We investigated whether MATK participates in the c-Kit ligand/stem cell factor (KL/SCF) signaling pathway in the megakaryocytic cell line CMK. After KL/SCF stimulation, five major proteins of molecular masses of 145, 113, 92, 76, and 63 kDa were rapidly and transiently tyrosine-phosphorylated in a time-dependent manner, peaking within 5 min, and returning to basal levels within 60 min. To study the role of MATK in the KL/SCF signaling pathway, glutathione S-transferase (GST) fusion proteins containing SH2 and SH3 domains of MATK were cloned, expressed in Escherichia coli, and purified. MATK-SH2, but not MATK-SH3, precipitated the tyrosine-phosphorylated c-Kit (molecular mass of 145 kDa) in KL/SCF-stimulated CMK cells. Other GST fusion proteins containing the SH2 domain of p85 of phosphatidylinositol 3-kinase, phospholipase C gamma-1, and ras-GAP also precipitated c-Kit. The tyrosine-phosphorylated c-Kit was co-immunoprecipitated with anti-MATK and anti-p85 antibodies in KL/SCF-stimulated CMK cells, but not in granulocyte-macrophage colony stimulating factor or interleukin-6-stimulated cells, suggesting receptor specificity. These results indicate that MATK associates with the c-Kit receptor following specific stimulation by KL/SCF via its SH2 domain and likely participates in transduction of growth signals induced by this cytokine in megakaryocytes.
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PMID:The MATK tyrosine kinase interacts in a specific and SH2-dependent manner with c-Kit. 753 44

Pleckstrin homology (PH) domains are 90-110 amino acid regions of protein sequence homology that are found in a variety of proteins involved in signal transduction and growth control. We have previously reported that the PH domains of several proteins, including beta ARK1, PLC gamma, IRS-1, Ras-GRF, and Ras-GAP, expressed as glutathione S-transferase fusion proteins, can reversibly bind purified bovine brain G beta gamma subunits in vitro with varying affinity. To determine whether PH domain peptides would behave as antagonists of G beta gamma subunit-mediated signal transduction in intact cells, plasmid minigene constructs encoding these PH domains were prepared, which permit transient cellular expression of the peptides. Pertussis toxin-sensitive, G beta gamma subunit-mediated inositol phosphate (IP) production was significantly inhibited in COS-7 cells transiently coexpressing the alpha 2-C10 adrenergic receptor (AR) and each of the PH domain peptides. Pertussis toxin-insensitive, Gq alpha subunit-mediated IP production via coexpressed M1 muscarinic acetylcholine receptor (M1 AChR) was attenuated only by the PLC gamma PH domain peptide, suggesting that the inhibitory effect of most of the PH domain peptides was G beta gamma subunit-specific. Stimulation of the mitogen-activated protein (MAP) kinase pathway by Gi-coupled receptors in COS-7 cells has been reported to require activation of p21ras and to be independent of protein kinase C. Since several proteins involved in activation contain PH domains, the effect of PH domain peptide expression on alpha 2-C10 AR-mediated p21ras-GTP exchange and MAP kinase activation as well as direct G beta gamma subunit-mediated activation of MAP kinase was determined. In each assay, coexpression of the PH domain peptides resulted in significant inhibition. Increasing G beta gamma subunit expression surmounted PH domain peptide-mediated inhibition of MAP kinase activation. These data suggest that the PH domain peptides behave as specific antagonists of G beta gamma-mediated signaling in intact cells and that interactions between PH domains and G beta gamma subunits or structurally related proteins may play a role in the activation of mitogenic signaling pathways by G protein-coupled receptors.
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PMID:Effect of cellular expression of pleckstrin homology domains on Gi-coupled receptor signaling. 776 89

Previously, we have reported the molecular cloning of ara genes encoding a small GTP-binding protein from Arabidopsis thaliana. The criterion based on amino acid sequences suggest that such an ara gene family can be classified to be of the YPT/rab type. To examine the biochemical properties of ARA proteins, several deletions and point mutations were introduced into ara cDNAs. Mutant proteins were expressed in E. coli as GST-chimeric molecules and analyzed in terms of their GTP-binding or GTP-hydrolysing ability in vitro. The results indicate that four conserved amino acid sequence regions of ARA proteins are necessary for GTP-binding. A point mutation of Asn at position 72 for ARA-2, or 71 for ARA-4, to Ile decreased GTP-binding and a point mutation of Gln at position 126 for ARA-2, or 125 for ARA-4, to Leu suppressed GTP-hydrolysis activity. Furthermore, certain factors associated with the membrane fraction accelerated GTPase activities of ARA proteins, suggesting the presence of GTPase activating protein(s) (GAP(s)) in the vesicular transport system of higher plant cells.
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PMID:In vitro mutation analysis of Arabidopsis thaliana small GTP-binding proteins and detection of GAP-like activities in plant cells. 801 29

The Ras-like GTPase Cdc42 is essential for cell polarity and bud site assembly in Saccharomyces cerevisiae by regulating cell cycle-dependent reorganization of cortical cytoskeletal elements. However, its role in mammalian cells is unknown. To identify potential effectors of Cdc42Hs, we incubated lysates from NIH 3T3 fibroblasts or PC12 cells with immobilized glutathione S-transferase (GST)-Cdc42Hs fusion proteins bound to different guanine nucleotides and observed a specific association between the 85-kDa subunit (p85) of phosphatidylinositol 3-kinase (PI 3-kinase) and GTP gamma S (guanosine 5'-3-O-(thio)triphosphate)-bound GST-Cdc42Hs. Recombinant p85 formed a complex with GTP gamma S-bound GST-Cdc42Hs and with a GTPase-defective GTP-bound GST-Cdc42Hs-Q61L mutant, but not with a GTP gamma S-bound, effector domain GST-Cdc42HsT35A mutant. Both the Rho-GAP homology domain of p85 and the Cdc42Hs-GAP competitively inhibited the binding of recombinant p85 to Cdc42Hs. In addition, PI 3-kinase activity immunoprecipitated from cell lysates with anti-p85 antibody was stimulated 2-4-fold by GST-Cdc42-GTP gamma S. Similar interactions were observed between p85 and GST-Rac1-GTP gamma S but not between p85 and GST-RhoA-GTP gamma S. These findings suggest that PI 3-kinase, through the Rho-GAP homology domain of p85, can couple to the effector domain of Cdc42Hs and that p85 may be a target for the GTP-bound forms of Cdc42Hs and Rac1.
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PMID:Activation of phosphoinositide 3-kinase activity by Cdc42Hs binding to p85. 803 24

Xenopus oocytes from unprimed frogs possess insulin-like growth factor I (IGF-I) receptors but lack insulin and IGF-I receptor substrate 1 (IRS-1), the endogenous substrate of this kinase, and fail to show downstream responses to hormonal stimulation. Microinjection of recombinant IRS-1 protein enhances insulin-stimulated phosphatidylinositol (PtdIns) 3-kinase activity and restores the germinal vesicle breakdown response. Activation of PtdIns 3-kinase results from formation of a complex between phosphorylated IRS-1 and the p85 subunit of PtdIns 3-kinase. Microinjection of a phosphonopeptide containing a pYMXM motif with high affinity for the src homology 2 (SH2) domain of PtdIns 3-kinase p85 inhibits IRS-1 association with and activation of the PtdIns 3-kinase. Formation of the IRS-1-PtdIns 3-kinase complex and insulin-stimulated PtdIns 3-kinase activation are also inhibited by microinjection of a glutathione S-transferase fusion protein containing the SH2 domain of p85. This effect occurs in a concentration-dependent fashion and results in a parallel loss of hormone-stimulated oocyte maturation. These inhibitory effects are specific and are not mimicked by glutathione S-transferase fusion proteins expressing the SH2 domains of ras-GAP or phospholipase C gamma. Moreover, injection of the SH2 domains of p85, ras-GAP, and phospholipase C gamma do not interfere with progesterone-induced oocyte maturation. These data demonstrate that phosphorylation of IRS-1 plays an essential role in IGF-I and insulin signaling in oocyte maturation and that this effect occurs through interactions of the phosphorylated YMXM/YXXM motifs of IRS-1 with SH2 domains of PtdIns 3-kinase or some related molecules.
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PMID:Insulin-stimulated oocyte maturation requires insulin receptor substrate 1 and interaction with the SH2 domains of phosphatidylinositol 3-kinase. 841 61

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

The two Ras-related GTPases called Rap1 and Rsr1, which share 50% sequence identity with Ras GTPases are known to be activated by two distinct mammalian GAPs, i.e. cytosolic GAP3c of 55 kDa and membrane-bound GAP3m of 85 kDa. Recently we have cloned a gene encoding a 68 kDa (p68) protein product, which is associated with chromosomes during interphase. The N-terminal 190 amino acids share 43% sequence identity with the second half of the GTPase activating domain (residues 210-397) of GAP3m. The N-terminal fragment of 209 amino acids of Spa-1 (called Span-N) was overproduced in E. coli as a glutathione S-transferase (GST) fusion protein and affinity purified. Rap1 and Rsr1 GTPase stimulatory activity of Spa-1 was tested and compared with GAP3m. Spa-1 preferentially stimulates Rsr1 GTPase rather than Rap1 GTPase, while GAP3m has a preference for Rap1 GTPase. This suggests that although Spa-1 and GAP3m stimulate GTPase of Rap1 family members, they differ in affinity for them. By mutational analysis it was also found that amino acid residues 10-183 are enough for Rap GAP activity of Spa-1.
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PMID:Overexpression and functional analysis of a mitogen-inducible nuclear GTPase activating protein, Spa-1. 902 83

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