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)

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

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

Growth hormone (GH) has been shown to stimulate the mitogen-activated protein (MAP) kinases designated ERKs (extracellular signal regulated kinases) 1 and 2. One pathway by which ERKs 1 and 2 are activated by tyrosine kinases involves the Src homology (SH)-2 containing proteins SHC and Grb2. To gain insight into pathways coupling GH receptor (GHR) to MAP kinase activation and signaling molecules that might interact with GHR and its associated tyrosine kinase JAK2, we examined whether SHC and Grb2 proteins serve as signaling molecules for GH. Human GH was shown to promote the rapid tyrosyl phosphorylation of 66-, 52-, and 46-kDa SHC proteins in 3T3-F442A fibroblasts. GH also promoted binding of GHR and JAK2 to the SH2 domain of 46/52-kDa SHC protein fused to glutathione S-transferase (GST). Constitutively phosphorylated JAK2, from COS-7 cells transiently transfected with murine JAK2 cDNA, bound to SHC SH2-GST fusion protein, demonstrating that the SHC SH2 domain can bind tyrosyl-phosphorylated JAK2 in the absence of GHR. Regions of GHR required for GH-dependent tyrosyl phosphorylation of SHC were examined using Chinese hamster ovary cells expressing mutated rat GHR. In cells expressing GHR1-638 and GHR1-638(Y333,338F), GH stimulated phosphorylation of all 3 SHC proteins whereas GH stimulated phosphorylation of only the 66- and 52-kDa SHC proteins in cells expressing GHR1-454. GH had no effect on SHC phosphorylation in cells expressing GHR1-294 or GHR delta P, the latter lacking amino acids 297-311 containing the proline-rich motif required for JAK2 activation by GH. In contrast to SHC, Grb2 appeared not to interact directly with GHR or JAK2. However, Grb2 was shown to associate rapidly with SHC proteins in a GH-dependent manner. These findings suggest that GH stimulates: 1) the association of SHC proteins with JAK2.GHR complexes via the SHC-SH2 domain, 2) tyrosyl phosphorylation of SHC proteins, and 3) subsequent Grb2 association with SHC proteins. These events are likely to be early events in GH activation of MAP kinases and possibly of other responses to GH.
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PMID:Growth hormone-promoted tyrosyl phosphorylation of SHC proteins and SHC association with Grb2. 753 73

The molecular interactions of the Src homology 2 (SH2) domain and the N-terminal proline-rich sequence motifs (pro-1 to pro-5) of the SH2 protein Shb with other components were presently characterised. Using a degenerate phosphopeptide library the preferred binding site for the Shb SH2 domain was determined to pTyr-Thr/Val/Ile-X-Leu at positions +1 to +3 relative the phosphotyrosine residue. Experiments with competing peptides and platelet-derived growth factor (PDGF) beta-receptor mutants with Y to F substitutions in autophosphorylation sites revealed multiple binding sites for the Shb SH2 domain in the receptor. The Shb SH2 domain also binds to in vitro phosphorylated fibroblast growth factor receptor-1 (FGFR-1) mainly through position Y776. The receptor experiments suggest that other residues besides the +1 to +3 positions may also be of significance for Shb binding. The pro-4/pro-5 motif of Shb binds in vitro particularly well to the Src, p85 alpha PI3-kinase and Eps8 SH3 domains expressed as GST fusion proteins. However, the GST-SH3 domain fusion proteins tested bind in vitro to peptides corresponding to the pro-1 to pro-5 motifs of Shb with low affinity and selectivity, suggesting that sequences outside the core proline motif may also be important for Shb-SH3 domain interactions. In vivo association between Shb-SH3 domain proteins v-Src and Eps8 was detected by coimmunoprecipitation. PDGF treatment did not affect the association between Eps8 and Shb. The data suggest that Shb is an adaptor protein linking SH3 domain proteins to tyrosine kinases or other tyrosine phosphorylated proteins.
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PMID:Molecular interactions of the Src homology 2 domain protein Shb with phosphotyrosine residues, tyrosine kinase receptors and Src homology 3 domain proteins. 753 62

Granulocyte-macrophage colony-stimulating factor (GM-CSF) and erythropoietin (Epo) are hematopoietic growth factors that regulate proliferation and differentiation of hematopoietic cells. They elicit and control a cascade of biochemical events, the earliest of which is tyrosine phosphorylation of several cellular proteins. Grb2/Ash is composed of SH2 and SH3 domains. The SH2 domain binds to tyrosine-phosphorylated proteins, and the SH3 domains bind to proteins containing proline-rich regions. It is considered that Grb2/Ash functions as an adapter protein linking tyrosine kinases and Ras in downstream of receptors for growth factors in fibroblasts. However, the mechanisms of signal transduction through Grb2/Ash and the roles of proteins associated with Grb2/Ash remain to be determined in hematopoietic cells. By means of the binding experiments using the glutathione S-transferase fusion protein including the full-length Grb2/Ash, we have found that Shc and unidentified 130- and 135-kDa proteins are associated with Grb2/Ash and that they are tyrosine phosphorylated by treatment with GM-CSF or Epo in a human leukemia cell line, UT-7. We have purified the 130-kDa protein (pp130) using the glutathione S-transferase-Grb2/Ash affinity column. The amino acid sequence analysis of the three peptides derived from the in situ protease digestion of the purified pp130 showed that the pp130 was identical to the human c-cbl proto-oncogene product (c-Cbl). c-Cbl constitutively binds to the SH3 domain of Grb2/Ash both in vitro and in vivo but not to the SH2 domain of Grb2/Ash, and the binding of Grb2/Ash to c-Cbl or Sos was not altered by GM-CSF stimulation. Moreover, c-Cbl (pp130) becomes tyrosine phosphorylated rapidly and transiently depending on GM-CSF or Epo stimulation. These findings strongly suggest that c-Cbl is implicated in the signal transduction of GM-CSF or Epo in hematopoietic cells and that c-Cbl is involved in another signaling pathway different from the Ras signaling pathway.
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PMID:The proto-oncogene product c-Cbl becomes tyrosine phosphorylated by stimulation with GM-CSF or Epo and constitutively binds to the SH3 domain of Grb2/Ash in human hematopoietic cells. 753 40

Phosphatidylinositol 3-kinase (PI 3-kinase) has been shown to play a key role in growth factor signaling pathways, although its signaling mechanism has not been fully elucidated. Using the yeast interaction trap system, we have identified Grb2 as a PI 3-kinase interacting protein. Our experiments demonstrate that p85, the regulatory subunit of PI 3-kinase, interacts with Grb2 in vivo, and this interaction is independent of growth factor stimulation. The direct association between Grb2 and p85 was reconstituted in vitro with glutathione S-transferase fusion proteins. Domain analyses and peptide competition indicate that the association is mediated by the SH3 domains of Grb2 and the proline-rich motifs of p85 and that only one SH3 domain is required for minimal binding. The interaction does not displace the catalytic subunit of PI 3-kinase but is exclusive of Sos. Signaling through PI 3-kinase, therefore, may involve the ubiquitous adapter Grb2, which serves as a convergence point for multiple pathways.
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PMID:Direct association of Grb2 with the p85 subunit of phosphatidylinositol 3-kinase. 775 31

The Ras GTPase-activating protein (GAP) is a target for protein tyrosine kinases of both the receptor and cytoplasmic classes and may serve to integrate tyrosine kinase and Ras signaling pathways. In this report, we provide evidence that GAP is an SH3 domain-binding protein and substrate for the Src-related tyrosine kinase Hck, which has been implicated in the regulation of myeloid cell growth, differentiation, and function. Wild-type (WT) or kinase-inactive (K269E) mutant Hck proteins were co-expressed with bovine GAP using the baculovirus/Sf-9 cell system. GAP was readily phosphorylated on tyrosine by WT but not K269E Hck. GAP was present in WT Hck immunoprecipitates from the co-infected cells, indicative of Hck.GAP complex formation. Unexpectedly, GAP also associated with the kinase-inactive mutant of Hck, suggesting that tyrosine autophosphorylation of Hck is not required for complex formation. The WT and K269E forms of Hck also associated with GAP mutants lacking either the C-terminal catalytic domain (delta CAT) or the Src homology region (delta SH), indicating that these GAP domains are dispensable for complex formation. Recombinant GST fusion proteins containing the Hck, Src, Fyn, or Lck SH3 domains associated with full-length GAP, delta CAT, and delta SH, all of which share an N-terminal proline-rich region resembling an SH3-binding motif (PPLPPPPPQLP). Deletion of the highly conserved YXY sequence from the Hck SH3 domain abolished binding. GAP-SH3 interaction was also inhibited by the proline-rich peptide GFPPLPPPPPQLPTLG, which corresponds to N-terminal amino acids 129-144 of bovine GAP. An N-terminal deletion mutant of GAP lacking this proline-rich region did not bind to the Hck SH3 domain. These data implicate the Hck SH3 domain in GAP interaction, and suggest a general function for the SH3 domains of Src family kinases in recognition of GAP via its proline-rich N-terminal domain.
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PMID:The Ras GTPase-activating protein (GAP) is an SH3 domain-binding protein and substrate for the Src-related tyrosine kinase, Hck. 778 36

T-cell receptor (TCR) cross-linking increases tyrosine phosphorylation of multiple proteins, only a few of which have been identified. One of the most rapidly tyrosine-phosphorylated polypeptides is the 120-kDa product of the proto-oncogene c-cbl, a cytosolic and cytoskeletal protein containing multiple proline-rich motifs that are potential binding sites for proteins containing Src homology 3 (SH3) domains. We report here that in cultured Jurkat T cells, Cbl is coprecipitated with antibody against the adapter protein Grb2. Upon activation of Jurkat T cells via the TCR-CD3 complex, we find that high-affinity binding of Cbl requires the N-terminal SH3 domain of GST-Grb2 fusion protein but after cross-linking of the TCR-CD3 and CD4 receptors, Cbl binds equally to its SH2 domain. Grb2 antisera also precipitated p85 from serum-starved cells, while TCR activation increased p85 and tyrosine-phosphorylated Cbl but not Cbl protein in Grb2 immunocomplexes. Phosphatidylinositol (PI) 3-kinase activity was immunoprecipitated from serum-starved cells with Cbl and to a lesser extent with Grb2 antisera, and TCR cross-linking increased this activity severalfold. The PI 3-kinase activity associated with Cbl amounted to 5 to 10% of the total cellular activity that could be precipitated by p85 antisera. The Ras exchange factor Son-of-sevenless 1 (Sos-1) was not found in anti-Cbl immunoprecipitates from activated cells, and Cbl was not detectable in anti-Sos-1 precipitates, supporting the likelihood that Sos-Grb2 and Cbl-Grb2 are present as distinct complexes. Taken together, these data suggest that Cbl function in Jurkat T cells involves its constitutive association with Grb2 and its recruitment of PI 3-kinase in response to TCR activation.
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PMID:Interactions of Cbl with Grb2 and phosphatidylinositol 3'-kinase in activated Jurkat cells. 779 64

The p60 form of the tumor necrosis factor (TNF) receptor lacks motifs characteristic of tyrosine or serine/threonine protein kinases. Our recent observations have indicated that a p60 TNF receptor-associated kinase (p60-TRAK) from U-937 cells physically interacts with and causes the phosphorylation of the cytoplasmic domain of the TNF receptor. To define which region of the cytoplasmic domain is necessary for physical interaction with p60-TRAK, we constructed a series of deletions (grouped into three sets delta 1-delta 5, delta 6-delta 12, and delta 13-delta 16) of the p60 cytoplasmic domain, expressed them as glutathione S-transferase (GST) fusion proteins, and used them in affinity precipitations, followed by in vitro kinase assays. Our detailed analysis indicated that a serine-, threonine-, and proline-rich region (residues 243-274, delta 2) and the N-terminal half of the cytoplasmic domain (residues 243-323, delta 3) neither associated with p60-TRAK nor underwent phosphorylation. We found that out of 222 residues (205-426) in the cytoplasmic domain, only 54 (344-397, delta 12) were sufficient for binding p60-TRAK and for phosphorylation of the cytoplasmic domain. A region of approximately 30 residues (397-426) at the C-terminal end was found to interfere with optimal binding of the p60-TRAK activity. Thus, our results indicate that the minimal region of the cytoplasmic domain necessary for interacting with p60-TRAK and for phosphorylation resides within the domain previously reported to be needed for signaling the cytotoxic effect of TNF.
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PMID:The p60 tumor necrosis factor (TNF) receptor-associated kinase (TRAK) binds residues 344-397 within the cytoplasmic domain involved in TNF signaling. 779 64

SH2 and SH3 domains have been characterized as functional domains that mediate protein-protein interactions in signal transduction. Recently, the cDNA sequence of a novel Src- and Fyn-binding protein called AFAP-110, for Actin-Filament Associated Protein-110 kDa, was reported. This protein was distinctive in that it is both an SH2 and SH3 binding partner for the non-receptor tyrosine kinases Src and Fyn. Here, we report the characterization of an alternatively processed form of AFAP-110 that encodes an additional 258 base pair (bp) of open reading frame. Transient expression of this full-length clone reveals a molecular mass of 120 kDa. Western blot analysis indicate that a larger 120-kDa variant of AFAP-110 can be detected in brain and is not detectable in any other tissues examined. Northern blot analysis indicate that the novel 258-bp insert can be detected in brain RNA but not chick embryo fibroblast RNA. We propose the name AFAP-120, for Actin Filament-Associated Protein-120 kDa. Expression of the 258-bp novel insert (NINS) as a glutathione S-transferase-encoded fusion protein permits adsorption of a 67-kDa protein from tissue lysates. Deletion analysis of the NINS indicates that the interaction with p67 can be attributed to a proline-rich motif that resembles an SH3-binding motif. We hypothesize that AFAP-120 facilitates interactions in brain between SH2/SH3 signaling proteins and actin filaments and that a proline-rich motif in the NINS may exist to facilitate additional interactions between cellular proteins in brain and actin filaments.
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PMID:AFAP-120. A variant form of the Src SH2/SH3-binding partner AFAP-110 is detected in brain and contains a novel internal sequence which binds to a 67-kDa protein. 787 34

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