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)

Many of the Src-like tyrosine kinases are thought to participate in multiprotein complexes that modulate transmembrane signalling through tyrosine phosphorylation. We have used in vitro binding studies employing bacterially expressed glutathione S-transferase-p56lck fusion proteins and cell extracts to map regions on p56lck that are involved in binding to phosphatidylinositol 3'-kinase (PI3K). Deletions within the SH3 domain of p56lck abolished binding of PI3K activity from T-cell lysates, whereas deletion of the SH2 domain caused only a slight reduction in the level of PI3K activity bound to p56lck sequences. The binding of PI3K from T-cell extracts to p56lck was not blocked by antiphosphotyrosine antibodies, but p56lck-bound PI3K activity was sensitive to phosphatase treatment. The SH3 domain of p56lck also bound the majority of PI3K activity from uninfected chicken embryo fibroblasts. However, a drastically different binding specificity was observed with use of extracts of Rous sarcoma virus v-src-transformed cells, in which the majority of PI3K activity bound to the SH2 domain of p56lck in a phosphotyrosine-dependent manner. These results suggest that are two modes of PI3K binding to p56lck, and presumably to other Src-like tyrosine kinases. In one mode, PI3K from T cells or uninfected chicken embryo fibroblasts binds predominantly to the SH3 domain of p56lck. In the other mode, involving PI3K from Rous sarcoma virus-transformed cells, binding is largely phosphotyrosine dependent and requires the SH2 domain of p56lck.
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PMID:The SH3 domain of p56lck is involved in binding to phosphatidylinositol 3'-kinase from T lymphocytes. 750 74

Changes in cellular growth and dramatic alterations in cell morphology and adhesion are common features of cells transformed by oncogenic protein tyrosine kinases, such as pp60src and other members of the Src family. In this report, we present evidence for the stable association of two Src family kinases (pp60src and pp59fyn) with tyrosine-phosphorylated forms of a focal adhesion-associated protein tyrosine kinase, pp125FAK. In Src-transformed chicken embryo cells, most of the pp125FAK was stably complexed with activated pp60src (e.g., pp60(527F). The stable association of pp125FAK with pp60(527F) in vivo required the structural integrity of the Src SH2 domain. The association of pp60(527F) and pp125FAK could be reconstituted in vitro by incubation of normal cell extracts with glutathione S-transferase fusion proteins containing SH2 or SH3/SH2 domains of pp60src. Furthermore, the association of isolated SH2 or SH3/SH2 domains with in vitro 32P-labeled pp125FAK protected the major site of pp125FAK autophosphorylation from digestion with a tyrosine phosphatase, indicating that the autophosphorylation site of pp125FAK participates in binding with Src. Immunoprecipitation of Src family kinases from extracts of normal chicken embryo cells revealed stable complexes of pp59fyn and tyrosine-phosphorylated pp125FAK. These data provide evidence for a direct interaction between two cytoplasmic nonreceptor protein tyrosine kinases and suggest that Src may contribute to changes in pp125FAK regulation in transformed cells. Furthermore, pp125FAK may directly participate in the targeting of pp59fyn or possibly other Src family kinases to focal adhesions in normal cells.
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PMID:Stable association of pp60src and pp59fyn with the focal adhesion-associated protein tyrosine kinase, pp125FAK. 750 91

The transforming gene of the avian sarcoma virus CT10 encodes a fusion protein (p47gag-crk or v-Crk) containing viral Gag sequences fused to cellular sequences consisting primarily of Src homology regions 2 and 3 (SH2 and SH3 sequences). Here we report a novel function of v-Crk in the mammalian pheochromocytoma cell line, PC12, whereby stable expression of v-Crk induces accelerated differentiation, as assessed by induction of neurites following nerve growth factor (NGF) or basic fibroblast growth factor (bFGF) treatment compared with the effect in native PC12 cells. Surprisingly, however, these cells also develop extensive neurite processes after epidermal growth factor (EGF) stimulation, an event which is not observed in native PC12 cells. Following EGF or NGF stimulation of the v-CrkPC12 cells, the v-Crk protein itself became tyrosine phosphorylated within 1 min. Moreover, in A431 cells or TrkA-PC12 cells, which overexpress EGF receptors and TrkA, respectively, a GST-CrkSH2 fusion protein was indeed capable of binding these receptors in a phosphotyrosine-dependent manner, suggesting that v-Crk can directly couple to receptor tyrosine kinase pathways in PC12 cells. In transformed fibroblasts, v-Crk binds to specific tyrosine-phosphorylated proteins of p130 and paxillin. Both of these proteins are also complexed to v-Crk in PC12 cells, as evidenced by their coprecipitation with v-Crk in detergent lysates, suggesting that common effector pathways may occur in both cell types. However, whereas PC12 cellular differentiation can occur solely by overexpression of the v-Src or oncogenic Ras proteins, that induced by v-Crk requires a growth factor stimulatory signal, possibility in a two-step process.
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PMID:Expression of the v-crk oncogene product in PC12 cells results in rapid differentiation by both nerve growth factor- and epidermal growth factor-dependent pathways. 750 49

T lymphocytes contain both Grb2, an SH2 and SH3 domain containing adaptor protein, and Sos, a guanine nucleotide exchange factor for Ras. Immunoprecipitates of Sos from the lysates of T cells contain a 36-kDa protein which is phosphorylated on tyrosine residues in response to T cell receptor/CD3 cross-linking. In vitro studies using different bacterially synthesized GST-Sos fusion proteins confirm the formation of complexes containing p36 and the proline-rich COOH-terminal domain of Sos. The use of mutant GST-Grb2 proteins in which both SH3 domains have been mutationally inactivated shows that Grb2 binds to tyrosine phosphorylated p36 via its SH2 domain. In Jurkat cells phosphorylated p36 is localized exclusively in the particulate fraction. In addition, another SH2 domain-containing protein, p52Shc is tyrosine phosphorylated upon TCR.CD3 cross-linking and associates with a 150-kDa phosphotyrosine containing protein. Taken together these data suggest that activation of Ras in T cells via the TCR.CD3 complex might be controlled, at least in part, by mechanisms similar to those found in fibroblasts, involving in this case formation of a complex of Grb2, Sos, and a membrane-bound tyrosine phosphoprotein of molecular mass 36-kDa.
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PMID:A complex of Grb2 adaptor protein, Sos exchange factor, and a 36-kDa membrane-bound tyrosine phosphoprotein is implicated in ras activation in T cells. 751 Jul

CD5 is a T-cell-specific antigen which binds to the B-cell antigen CD72 and acts as a coreceptor in the stimulation of T-cell growth. CD5 associates with the T-cell receptor zeta chain (TcR zeta)/CD3 complex and is rapidly phosphosphorylated on tyrosine residues as a result of TcR zeta/CD3 ligation. However, despite this, the mechanism by which CD5 generates intracellular signals is unclear. In this study, we demonstrate that CD5 is coupled to the protein-tyrosine kinase p56lck and can act as a substrate for p56lck. Coexpression of CD5 with p56lck in the baculovirus expression system resulted in the phosphorylation of CD5 on tyrosine residues. Further, anti-CD5 and anti-p56lck coprecipitated each other in a variety of detergents, including Nonidet P-40 and Triton X-100. Anti-CD5 also precipitated the kinase from various T cells irrespective of the expression of TcR zeta/CD3 or CD4. No binding between p59fyn(T) and CD5 was detected in T cells. The binding of p56lck to CD5 induced a 10- to 15-fold increase in p56lck catalytic activity, as measured by in vitro kinase analysis. In vivo labelling with 32P(i) also showed a four- to fivefold increase in Y-394 occupancy in p56lck when associated with CD5. The use of glutathione S-transferase-Lck fusion proteins in precipitation analysis showed that the SH2 domain of p56lck could recognize CD5 as expressed in the baculovirus expression system. CD5 interaction with p56lck represents a novel variant of a receptor-kinase complex in which receptor can also serve as substrate. The CD5-p56lck interaction is likely to play roles in T-cell signalling and T-B collaboration.
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PMID:The T-cell antigen CD5 acts as a receptor and substrate for the protein-tyrosine kinase p56lck. 751 45

The cytoplasmic insulin receptor substrate-1 (IRS-1), which is multiply phosphorylated in vivo on tyrosine residues, is a known binding protein for the tandem src homology 2 (SH2) domain-containing protein tyrosine phosphatase, SH-PTP2. Eleven phosphotyrosyl (pY) peptides from IRS-1 were screened for allosteric activation of SH-PTP2 phosphatase activity toward phosphorylated, reduced, carboxyamidomethylated, and maleylated-lysozyme. Peptides IRS-1pY895, IRS-1pY1172, and IRS-1pY1222 showed up to 50-fold acceleration of dephosphorylation. Analyses of Arg to Lys mutants in either or both SH2 domains indicate that both the N-terminal (N-SH2) and C-terminal (C-SH2) domains function in allosteric activation. Direct determination by surface plasmon resonance of the dissociation constants between pY peptides and glutathione S-transferase fusions to N-SH2 and C-SH2 domains reveals a 240-fold preference of the N-SH2 domain (compared with the C-SH2 domain) for IRS-1pY1172. The N-SH2 domain prefers IRS-1pY1172 > IRS-1pY895 > IRS-1pY1222, whereas C-SH2 domain prefers IRS-1pY1222 > IRS-1pY895 > IRS-1pY1172. These data suggest that each SH2 domain can bind to a distinct pY sequence of multiply phosphorylated protein substrates such as IRS-1, while activating hydrolysis at a third pY sequence bound in the SH-PTP2 active site. In addition, proteolysis and truncation studies reveal an autoregulatory function for the C-terminal region of SH-PTP2. Limited tryptic cleavage within the C-terminus results in 27-fold activation of protein tyrosine phosphatase activity. The activated tryptic fragment cannot be further activated by pY peptide binding to the SH2 domains indicating that autoregulatory functions of the SH2 domains are dependent on the C-terminal region. These data suggest that multiple levels for control of SH-PTP2 enzymatic activity may exist in vitro and in vivo.
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PMID:Activation of the SH2-containing protein tyrosine phosphatase, SH-PTP2, by phosphotyrosine-containing peptides derived from insulin receptor substrate-1. 751 3

Tyrosine phosphorylation of cellular proteins is the earliest identifiable event following T-cell antigen receptor (TCR) stimulation and is essential for activating downstream signaling machinery. Two Src-family protein-tyrosine kinases, the TCR-associated p59fyn (Fyn) and the CD4/8-associated p56lck (Lck), have emerged as the likely mediators of early tyrosine phosphorylation in T cells. Here, we show direct binding of a 120-kDa TCR-induced phosphotyrosyl polypeptide, p120, to glutathione S-transferase fusion proteins of the Src homology 3 (SH3) domains of Fyn, Lck, and p60src (Src) but not other proteins. While binding of p120 to Fyn SH2 domain was phosphotyrosine-dependent as expected, its binding to the SH3 domain was independent of tyrosine phosphorylation, as shown by lack of competition with a phosphotyrosyl competitor peptide. In contrast, an SH3-specific proline-rich peptide completely abolished p120 binding to SH3. p120 was tyrosine-phosphorylated within 10 sec following stimulation of Jurkat cells with anti-CD3 monoclonal antibody, with maximal phosphorylation at 30 sec. Importantly, p120 was found associated with Fyn and Lck proteins in unstimulated Jurkat cells and served as an in vitro substrate for these kinases. These results provide evidence for a role of the SH3 domains of Fyn and Lck in the recruitment of early tyrosine-phosphorylation substrates to the TCR-associated tyrosine kinases.
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PMID:Rapid T-cell receptor-mediated tyrosine phosphorylation of p120, an Fyn/Lck Src homology 3 domain-binding protein. 751 95

The activity of the Src family protein-tyrosine kinase p56lck is regulated by phosphorylation and dephosphorylation of two critical tyrosine residues Tyr394 and Tyr505. Tyr394 is autophosphorylated after p56lck activation, whereas phosphorylation of Tyr505 is believed to be due to p50csk which negatively modulates p56lck activity. To determine whether Tyr505 could be autophosphorylated, we used the prokaryotic glutathione S-transferase expression system to express wild-type Lck, the mutants [Y394F]Lck and [Y505F]Lck, a kinase-deficient p56lck with a mutation of the ATP-binding site [K273E]Lck and a double mutant [Y394F, Y505F]Lck. We studied the kinase activities and the patterns of autophosphorylation for tyrosine residues in these mutants and wild-type Lck both in vivo and in vitro. Wild-type Lck, [Y505F]Lck and [Y394F]Lck were phosphorylated on tyrosine. Both the kinase-deficient mutant[K273E]Lck and the double mutant [Y394F, Y505F]Lck did not react with monoclonal anti-phosphotyrosine antibody [anti-Y(P) mAb], thus providing evidence that (a) the bacterial strains used lacked intrinsic protein-tyrosine kinase activities, and therefore tyrosine phosphorylations of wild-type Lck, [Y505F]Lck and [Y394F]Lck are due to autophosphorylation occurring in vivo in bacteria, and (b) that p56lck can only be autophosphorylated on two tyrosine residues, namely Tyr394 and Tyr505. Phosphopeptide mapping analysis confirmed that p56lck can undergo autophosphorylation on these two tyrosine residues. We propose that autophosphorylation at Tyr505 of p56lck may represent an accessory mechanism for the down-regulation of the tyrosine kinase activity of p56lck.
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PMID:Tyr394 and Tyr505 are autophosphorylated in recombinant Lck protein-tyrosine kinase expressed in Escherichia coli. 752 16

The c-kit proto-oncogene encodes a transmembrane tyrosine kinase receptor, which is important for the normal development of hematopoietic cells, melanoblasts, and germ cells. Autophosphorylation of c-kit receptor on tyrosine creates binding sites for cellular src homology 2 (SH2)-containing signaling molecules. The discovery of phosphotyrosine phosphatases that contain SH2 domains suggests roles for these molecules in growth factor signaling pathways. We found that Syp, a phosphotyrosine phosphatase widely expressed in all the tissues in mammals, associates with c-kit receptor after activation with its ligand, steel factor, in the factor-dependent cell line, M07e. Both NH2-terminal and COOH-terminal SH2 domains of Syp, made as glutathione S-transferase fusion proteins, were able to bind to the activated c-kit receptor in vitro. Furthermore, Syp became marginally phosphorylated on tyrosine upon c-kit receptor activation, and tyrosine-phosphorylated Syp was found to be complexed with Grb2 in steel factor-stimulated M07e cells. Direct binding between Syp and Grb2 was also observed in vitro. Last, Ras and Raf interacts in vitro as a result of steel factor-stimulated Ras activation. These results suggest that Syp may be an important signaling component downstream of the c-kit receptor and involved in activation of the Ras signaling pathway in hematopoietic cells.
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PMID:The ubiquitously expressed Syp phosphatase interacts with c-kit and Grb2 in hematopoietic cells. 752 81

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

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