EC:2.7.10.2 - FACTA Search

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferon-stimulated gene factor 3 (ISGF3), the primary transcription factor induced by interferon alpha, is a complex of four (113, 91, 84, and 48 kd) proteins. This paper reports that the 113, 91, and 84 kd (ISGF3 alpha) proteins of ISGF3 contain conserved SH2 and SH3 domains. A specific interferon alpha-induced cytoplasmic protein tyrosine kinase(s) can form a transient complex with ISGF3 alpha proteins. These ISGF3 alpha proteins can be immunoprecipitated by anti-phosphotyrosine antibodies only after interferon alpha treatment. Phosphoamino acid analyses of 32P-labeled ISGF3 alpha proteins confirm that ISGF3 alpha proteins are directly tyrosine phosphorylated both in vitro and in vivo in response to interferon alpha, and this tyrosine phosphorylation can be inhibited by staurosporine and genistein. Phosphatase treatment of these ISGF3 alpha proteins results in inhibition of ISGF3 complex formation in vitro. These observations indicate that interferon alpha-induced direct tyrosine phosphorylation of ISGF3 alpha proteins is necessary for activation of the transcription factor ISGF3.
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PMID:A transcription factor with SH2 and SH3 domains is directly activated by an interferon alpha-induced cytoplasmic protein tyrosine kinase(s). 163 33

Identification and characterization of the cellular proteins that specifically bind to the immunosuppressive drugs, cyclosporine (CsA), FK506, and rapamycin is necessary to understand their mechanism of action. We have isolated and partially characterized a 52 kDa binding protein (BP) from calf thymus. Using 12 peptide substrates we observed very low or no cis-trans peptidyl prolyl isomerase activity. We further tested the protein for catalytic activity including kinase activity, phosphatase activity, protein kinase C regulation, and LCK tyrosine kinase regulation. The 52 kDa BP was capable of blocking the cyclic AMP dependent, protein kinase mediated, phosphorylation of histones and casein. The protein did not demonstrate kinase activity, nor did it affect the activity of protein kinase C or LCK tyrosine kinase. Microsequencing of the 52 kDa BP was performed. A comparison of known sequences indicated that the protein is unique and has not been previously characterized.
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PMID:Partial characterization of a 52 kDa CsA/FK506/rapamycin binding protein. 753 57

The nuclear mechanism by which GH acts to induce gene expression after binding to its receptor on the cell surface is not defined. We have characterized an element in the 5'-flanking region of the rat GH-responsive serine protease inhibitor (Spi) 2.1 gene responsible for its induction by GH. This element binds a hepatic nuclear protein(s) in a GH state-specific manner. Activation of binding by GH does not require de novo protein synthesis, suggesting that a reversible posttranslational process is required for binding to the element. To define the mechanism of this process, hepatic nuclear extracts were analyzed by electrophoretic mobility shift assays using a DNA fragment (-147 to -103) of the Spi 2.1 gene. Treatment of extracts with phosphatases resulted in a marked reduction of GH state-specific binding. Addition of phosphatase inhibitors antagonized the reduction in binding after phosphatase treatment. The specific nature of the phosphorylation event involved in binding was explored using phosphotyrosine antibodies and a protein tyrosine phosphatase. Treatment of nuclear extracts with either of these reagents ablated binding to the response element. Because the tyrosine-phosphorylated transcription factor protein p91 has recently been implicated in cytokine signal transduction mediated by JAK2, we sought evidence that p91 was part of the GH-responsive binding complex. Analysis of an enriched preparation of GH-inducible binding complexes by Western blots using anti-p91 demonstrated no immunoreactivity. We conclude that tyrosine phosphorylation of a nuclear factor is required for GH state-specific binding to this GH response element in vivo, but that p91 is not present in the binding complex.
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PMID:Binding of a growth hormone-inducible nuclear factor is mediated by tyrosine phosphorylation. 753 94

T-cell activation requires cooperative signals generated by the T-cell antigen receptor zeta-chain complex (TCR zeta-CD3) and the costimulatory antigen CD28. CD28 interacts with three intracellular proteins-phosphatidylinositol 3-kinase (PI 3-kinase), T cell-specific protein-tyrosine kinase ITK (formerly TSK or EMT), and the complex between growth factor receptor-bound protein 2 and son of sevenless guanine nucleotide exchange protein (GRB-2-SOS). PI 3-kinase and GRB-2 bind to the CD28 phosphotyrosine-based Tyr-Met-Asn-Met motif by means of intrinsic Src-homology 2 (SH2) domains. The requirement for tyrosine phosphorylation of the Tyr-Met-Asn-Met motif for SH2 domain binding implicates an intervening protein-tyrosine kinase in the recruitment of PI 3-kinase and GRB-2 by CD28. Candidate kinases include p56Lck, p59Fyn, zeta-chain-associated 70-kDa protein (ZAP-70), and ITK. In this study, we demonstrate in coexpression studies that p56Lck and p59Fyn phosphorylate CD28 primarily at Tyr-191 of the Tyr-Met-Asn-Met motif, inducing a 3- to 8-fold increase in p85 (subunit of PI 3-kinase) and GRB-2 SH2 binding to CD28. Phosphatase digestion of CD28 eliminated binding. In contrast to Src kinases, ZAP-70 and ITK failed to induce these events. Further, ITK binding to CD28 was dependent on the presence of p56Lck and is thus likely to act downstream of p56Lck/p59Fyn in a signaling cascade. p56Lck is therefore likely to be a central switch in T-cell activation, with the dual function of regulating CD28-mediated costimulation as well as TCR-CD3-CD4 signaling.
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PMID:p56Lck and p59Fyn regulate CD28 binding to phosphatidylinositol 3-kinase, growth factor receptor-bound protein GRB-2, and T cell-specific protein-tyrosine kinase ITK: implications for T-cell costimulation. 756 38

We have investigated the mechanisms by which fibroblasts release their adhesions to the extracellular matrix substrata using a permeabilized cell system in which the adhesions remain relatively stable. A large number of different molecules were assayed for their effect on focal adhesion stability using immunofluorescence with antibodies against different focal adhesion constituents. ATP uniquely stimulates a rapid breakdown of focal adhesions, and at high ATP concentrations (> 5 mM), many cells are released from the dish. The remaining cells appear contracted with talin, alpha-actinin, and vinculin localized diffusely throughout the cell. Integrin containing tracks of variable intensity outline the regions where cells had resided before they detached from the substratum. At lower ATP concentrations (0.5-5 mM) the cells remain spread; however the focal adhesion components, including integrin, show an array of phenotypes ranging from diffusely localized throughout the cell to a localization in small, thin focal adhesions. Okadaic acid, a serine, threonine phosphatase inhibitor, enhances the contracted phenotype, even at low concentrations (0.5 mM) of ATP. The localization of focal adhesion components is different in okadaic acid-treated cells. In highly contracted cells, integrin is present in tracks where the cells resided before the contraction; however focal adhesions are no longer apparent. Talin, vinculin, and alpha-actinin localize in trabecular networks toward the periphery of the cell. Interestingly, phosphotyrosine staining as well as nascent, intracellular integrin precedes the recruitment of focal adhesion constituents into the trabecular network. The ATP-stimulated focal adhesion breakdown appears to operate through two mechanisms. First, ATP stimulates the tyrosine phosphorylation of several cytoskeletally associated proteins. These tyrosine phosphorylations correlated well with focal adhesion breakdown. Furthermore, addition of a recombinant, constitutively active tyrosine phosphatase inhibits both the tyrosine phosphorylations and the breakdown of the focal adhesions. None of the major tyrosine phosphoproteins are FAK, integrin, tensin, paxillin, or other phosphoproteins implicated in focal adhesion assembly. The second mechanism is cell contraction. High ATP concentrations, or lower ATP concentrations in the presence of okadaic acid induce cell contraction. Inhibiting the contraction by addition of a heptapeptide IRICRKG, which blocks the actin-myosin interaction, also inhibits focal adhesion breakdown. Neither the peptide nor the phosphatase inhibits focal adhesion breakdown under all conditions suggesting that both tension and tyrosine phosphorylations mediate the release of adhesions.
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PMID:Tyrosine phosphorylation and cytoskeletal tension regulate the release of fibroblast adhesions. 759 76

Neurofilament (NF) protein [high molecular mass (NF-H)] is extensively phosphorylated in vivo. The phosphorylation occurs mainly in its characteristic KSP (Lys-Ser-Pro) repeat motifs. There are two major types of KSP motifs in the NF-H tail domain: KSPXKX and KSPXXX. Recent studies by two different laboratories have demonstrated the presence of a cdc2-like kinase [cyclin-dependent kinase-5 (cdk5)] in nervous tissue that selectively phosphorylates KSPXKX and XS/TXK motifs in NF-H and lysine-rich histone (H1). This article describes the identification of phosphatases dephosphorylating three different substrates: histone (H1), NF-H in a NF preparation, and a bacterially expressed C-terminal tail domain of NF-H, each containing KSPXKX repeats phosphorylated in vitro by cdk5. Among various phosphatases identified, protein phosphatase (PP) 2A from rabbit skeletal muscle appeared to be the most effective phosphatase in in vitro assays. Three phosphatase activity peaks--P1, P2, and P3--were partially purified from frozen rat spinal cord by ion exchange and size exclusion column chromatography and then characterized on the basis of biochemical, pharmacological, and immunochemical studies. One of the three peaks was identified as PP2A, whereas the others were mixtures of both PP2A and PP1. These three peaks could dephosphorylate cdk5-phosphorylated 32P-histone (H1), 32P-NF-H in the NF preparation, and 32P-NF-H tail fusion protein. These studies suggest the involvement of PP2A or a PP2A-like activity in the regulation of the phosphorylation state of KSPXKX motifs in NF-H.
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PMID:Neuronal cyclin-dependent kinase-5 phosphorylation sites in neurofilament protein (NF-H) are dephosphorylated by protein phosphatase 2A. 776 48

The phosphorylation of proteins at tyrosine residues is critical in cellular signal transduction and neoplastic transformation. These mechanisms are regulated by the activities of both protein-tyrosine kinases and protein-tyrosine phosphatases. Recent studies have identified a novel protein-tyrosine phosphatase, termed Syp, that is widely expressed in various tissues. Syp encodes a cytoplasmic phosphatase that contains two Src homology 2 (SH2) domains. Since SH2 domains have been shown to target the association of signal-transducing molecules to activated tyrosine kinases, experiments were performed to determine whether Syp might form specific complexes with p210bcr-abl, a fusion protein believed to be involved in the pathogenesis of chronic myelogenous leukemia and, thus, possibly alter or mediate p210bcr-abl tyrosine kinase activity. We found that Syp was highly and constitutively tyrosine phosphorylated in three different murine cell lines transfected with a p210bcr-abl expression vector. Furthermore, p210bcr-abl, Syp, and Grb2 formed stable complexes in BCR-ABL-expressing cells. Complex formation between p210bcr-abl and Syp was mediated in vitro by the NH2-terminal SH2 domain of Syp. Last, p210bcr-abl tyrosine kinase was effectively dephosphorylated by Syp in vitro. These results suggest an interaction between Syp and BCR-ABL protein, which might play a role in cellular transformation of BCR-ABL.
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PMID:SH2-containing phosphotyrosine phosphatase Syp is a target of p210bcr-abl tyrosine kinase. 819 76

The absence of CTLA-4 results in uncontrolled T cell proliferation. The T cell receptor-specific kinases FYN, LCK, and ZAP-70 as well as the RAS pathway were found to be activated in T cells of Ctla-4-/- mutant mice. In addition, CTLA-4 specifically associated with the tyrosine phosphatase SYP, an interaction mediated by the SRC homology 2 (SH2) domains of SYP and the phosphotyrosine sequence Tyr-Val-Lys-Met within the CTLA-4 cytoplasmic tail. The CTLA-4-associated SYP had phosphatase activity toward the RAS regulator p52SHC. Thus, the RAS pathway and T cell activation through the T cell receptor are regulated by CTLA-4-associated SYP.
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PMID:Regulation of T cell receptor signaling by tyrosine phosphatase SYP association with CTLA-4. 863 61

Detachment of basal keratinocytes from basement membrane signals a differentiation cascade. Two integrin receptors alpha6beta4 and alpha3beta1 mediate adhesion to laminin 5 (epiligrin), a major extracellular matrix protein in the basement membrane of epidermis. By establishing a low temperature adhesion system at 4 degrees C, we were able to examine the exclusive role of alpha6beta4 in adhesion of human foreskin keratinocyte (HFK) and the colon carcinoma cell LS123. We identified a novel 80-kD membrane-associated protein (p80) that is tyrosine phosphorylated in response to dissociation of alpha6beta4 from laminin 5. The specificity of p80 phosphorylation for laminin 5 and alpha6beta4 was illustrated by the lack of regulation of p80 phosphorylation on collagen, fibronectin, or poly-L-lysine surfaces. We showed that blocking of alpha3beta1 function using inhibitory mAbs, low temperature, or cytochalasin D diminished tyrosine phosphorylation of focal adhesion kinase but not p80 phosphorylation. Therefore, under our assay conditions, p80 phosphorylation is regulated by alpha6beta4, while motility via alpha3beta1 causes phosphorylation of focal adhesion kinase. Consistent with a linkage between p80 dephosphorylation and alpha6beta4 anchorage to laminin 5, we found that phosphatase inhibitor sodium vanadate, which blocked the p80 dephosphorylation, prevented the alpha6beta4-dependent cell anchorage to laminin 5 at 4degreesC. In contrast, adhesion at 37 degrees C via alpha3beta1 was unaffected. Furthermore, by in vitro kinase assay, we identified a kinase activity for p80 phosphorylation in suspended HFKs but not in attached cells. The kinase activity, alpha6beta4, and its associated adhesion structure stable anchoring contacts were all cofractionated in the Triton-insoluble cell fraction that lacks alpha3beta1. Thus, regulation of p80 phosphorylation, through the activities of p80 kinase and phosphatase, correlates with alpha6beta4-SAC anchorage to laminin 5 at 4 degrees C in epithelial cells of the skin and intestine. Transmembrane signaling through p80 is an early tyrosine phosphorylation event responsive to and possibly required for anchorage to laminin 5 by HFK and LS123 epithelial cells.
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PMID:Anchorage mediated by integrin alpha6beta4 to laminin 5 (epiligrin) regulates tyrosine phosphorylation of a membrane-associated 80-kD protein. 864 1

The GH receptor (GHR) is a member of the cytokine receptor superfamily; its signaling involves the activation of Janus tyrosine kinases (JAK2) and Stat (signal transducers and activators of transcription) transcription factors. Using truncated and tyrosine mutants of the receptor, we show that different receptor domains are essential for the activation of Stat3 and Stat5. GH-dependent phosphorylation of JAK2, Stat3, and Stat5, as well as transactivation studies with reporter genes containing Stat3 and Stat5 DNA-binding elements, was performed in cells expressing the various GHR mutants. The membrane-proximal region of the receptor necessary for JAK2 activation is sufficient for Stat3 activation. In contrast, C-terminal tyrosine residues of GHR are absolutely required for Stat5 activation. The same residues are also involved in the regulation of JAK2 dephosphorylation, possibly through the activation of a phosphatase. Using in vitro experiments with glutathione-S-transferase fusion proteins, we demonstrate that the SH2 domain of Stat5 binds to the carboxy-terminal tyrosine-phosphorylated residues of GHR. Our results show that a cytokine receptor can mediate differently the activation of distinct Stat proteins that could be involved in cytokine-specific effects.
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PMID:Differential activation of Stat3 and Stat5 by distinct regions of the growth hormone receptor. 884 16

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