Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Csk (C-terminal Src kinase), a protein-tyrosine kinase, bearing the Src homology 2 and 3 (SH2 and SH3) domains, has been implicated in phosphorylation of c-Src Tyr-527, resulting in suppression of c-Src kinase activity. We found that mutations in the SH2 or SH3 domain of Csk, though they did not affect its kinase activity, resulted in a loss of suppression of c-Src activity in fibroblasts. In normal fibroblasts, tyrosine-phosphorylated paxillin and focal adhesion kinase pp125FAK, which colocalize at focal adhesion plaques, were the major proteins to which the Csk SH2 domain bound. Loss of binding to these proteins by the Csk SH2 mutants correlated with loss of the activity to suppress c-Src. Consistent with this observation, the levels of tyrosine phosphorylation of paxillin and pp125FAK were greatly reduced during mitosis, whereas the kinase activity of c-Src was elevated. We suggest that the SH2 domain is required for Csk to suppress c-Src, perhaps in combination with the SH3 domain, by anchoring Csk to a particular subcellular location where c-Src may exist. Our data also indicate that a certain fraction of the Csk and Src family kinases function at the focal adhesion plaques. The activity of the c-Src kinase localized at the focal adhesion plaques appears to be regulated by cell adhesion to the extracellular matrix.
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PMID:Analysis of the binding of the Src homology 2 domain of Csk to tyrosine-phosphorylated proteins in the suppression and mitotic activation of c-Src. 751 29

FAK is a focal adhesion kinase that is phosphorylated on tyrosine in activated platelets. Induction of FAK phosphorylation requires both fibrinogen binding to integrin alpha IIb beta 3 and post-occupancy events during agonist-induced platelet aggregation or platelet spreading on a fibrinogen matrix. To identify the signaling pathways necessary for tyrosine phosphorylation of FAK, we have examined the conditions that stimulate or inhibit this phosphorylation in platelets in which fibrinogen binding to alpha IIb beta 3 and platelet aggregation were induced directly with an anti-beta 3 Fab fragment (anti-LIBS6). Apyrase was added to prevent effects of the endogenous platelet agonist, ADP. Under these conditions, neither fibrinogen binding nor primary platelet aggregation was sufficient to induce FAK phosphorylation, suggesting that a second "costimulatory" event was required. Indeed, when epinephrine was added with fibrinogen and anti-LIBS6, large platelet aggregates formed and FAK phosphorylation occurred. This response was prevented by blockade of cyclooxygenase with indomethacin or thromboxane A2 receptors with SQ 30,741. A stable thromboxane A2 analogue (U46619) could substitute for epinephrine as the costimulus. Epinephrine costimulation of FAK phosphorylation was also prevented by chelation of intracellular Ca2+ with BAPTA or selective inhibition of protein kinase C (PKC) with bisindolylmaleimide, indicating that Ca2+ and PKC are necessary for FAK phosphorylation under these conditions. Epinephrine also promoted FAK phosphorylation and adhesive spreading of apyrase-treated platelets on a fibrinogen matrix. Cytochalasin D, an inhibitor of actin polymerization, blocked FAK phosphorylation under all these conditions. Thus, tyrosine phosphorylation of FAK in platelets requires coordinated signaling through occupied integrin and agonist receptors. These separate pathways may converge to increase free Ca2+ and activate PKC and thus promote the cytoskeletal reorganization required for activation of FAK.
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PMID:Tyrosine phosphorylation of pp125FAK in platelets requires coordinated signaling through integrin and agonist receptors. 751 81

The molecular mechanisms whereby hyaluronan (HA) stimulates cell motility was investigated in a C-H-ras transformed 10T 1/2 fibroblast cell line (C3). A significant (p < 0.001) stimulation of C3 cell motility with HA (10 ng/ml) was accompanied by an increase in protein tyrosine phosphorylation as detected by anti-phosphotyrosine antibodies using immunoblot analysis and immunofluorescence staining of cells. Tyrosine phosphorylation of several proteins was found to be both rapid and transient with phosphorylation occurring within 1 min of HA addition and dissipating below control levels 10-15 min later. These responses were also elicited by an antibody generated against a peptide sequence within the HA receptor RHAMM. Treatment of cells with tyrosine kinase inhibitors (genistein, 10 micrograms/ml or herbimycin A, 0.5 micrograms/ml) or microinjection of anti-phosphotyrosine antibodies inhibited the transient protein tyrosine phosphorylation in response to HA as well as prevented HA stimulation of cell motility. To determine a link between HA-stimulated tyrosine phosphorylation and the resulting cell locomotion, cytoskeletal reorganization was examined in C3 cells plated on fibronectin and treated with HA or anti-RHAMM antibody. These agents caused a rapid assembly and disassembly of focal adhesions as revealed by immunofluorescent localization of vinculin. The time course with which HA and antibody induced focal adhesion turnover exactly paralleled the induction of transient protein tyrosine phosphorylation. In addition, phosphotyrosine staining colocalized with vinculin within structures in the lamellapodia of these cells. Notably, the focal adhesion kinase, pp125FAK, was rapidly phosphorylated and dephosphorylated after HA stimulation. These results suggest that HA stimulates locomotion via a rapid and transient protein tyrosine kinase signaling event mediated by RHAMM. They also provide a possible molecular basis for focal adhesion turnover, a process that is critical for cell locomotion.
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PMID:Hyaluronan and the hyaluronan receptor RHAMM promote focal adhesion turnover and transient tyrosine kinase activity. 751 70

Tyrosine phosphorylation of multiple platelet proteins is regulated by the integrin alpha IIb beta 3. In order to further examine integrin-regulated tyrosine phosphorylation, we have used small Arg-Gly-Asp-containing snake venom proteins (termed disintegrins) that inhibit platelet aggregation to competitively block the agonist-induced binding of fibrinogen to alpha IIb beta 3. One structurally unique disintegrin, contortrostatin (which appears to be a disulfide-linked dimer of 13.5 kDa with two Arg-Gly-Asp sites), was found to trigger signaling events typically mediated by fibrinogen cross-linking of alpha IIb beta 3, as demonstrated by tyrosine phosphorylation of the tyrosine kinase pp72syk and a 140-kDa protein. Contortrostatin and another disintegrin, multisquamatin (a monomer of 5.7 kDa with a single Arg-Gly-Asp site), did not affect thrombin-induced platelet shape change, secretion, or integrin-independent tyrosine phosphorylation; however, they inhibited aggregation and aggregation-dependent tyrosine phosphorylation of numerous proteins, including the focal adhesion kinase pp125FAK. Our results suggest that structurally distinct disintegrins have varying effects on tyrosine phosphorylation; while monomeric multisquamatin and dimeric contortrostatin both inhibit aggregation-dependent tyrosine phosphorylation, contortrostatin also possesses a unique functional activity that allows it to activate an intracellular signaling pathway leading to tyrosine phosphorylation. This activity may be involved in the function of this snake venom protein on hemostasis.
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PMID:Structurally distinct disintegrins contortrostatin and multisquamatin differentially regulate platelet tyrosine phosphorylation. 752 Sep 9

One of the earliest responses of T and B lymphocytes to stimulation through their antigen receptors is the activation of protein tyrosine kinases and the tyrosine phosphorylation of multiple cellular substrates. Here we describe a tyrosine kinase substrate, fakB, a putative homologue of the focal adhesion kinase pp125FAK. Tyrosine phosphorylation of fakB was rapidly augmented in human T and B cells following antigen receptor cross-linking with antibody, while pp125FAK was nonresponsive. Costimulation of the T-cell antigen receptor (TCR/CD3) with either the CD2 or CD4 costimulatory receptors induced synergistic fakB tyrosine phosphorylation in normal human T cells. Engagement of TCR/CD3 induced the stable association of fakB with ZAP-70, the TCR/CD3 sigma-chain-associated tyrosine kinase involved in antigen receptor-induced T-cell activation. In addition, preformed complexes of fakB and ZAP-70 were observed in T-cell leukemia lines. Phosphorylation of fakB on serine, threonine, and tyrosine residues was observed both in vivo and in vitro, where a functional increase of in vitro kinase activity was observed following TCR/CD3 stimulation. fakB is thus a focal adhesion kinase-related tyrosine kinase substrate that is differentially regulated from that of pp125FAK and likely plays a role in antigen-induced lymphocyte signaling.
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PMID:Lymphocyte antigen receptor activation of a focal adhesion kinase-related tyrosine kinase substrate. 752 94

In this study we examined the role of rho p21 in neuropeptide-stimulated tyrosine phosphorylation. Intact Swiss 3T3 cells were treated with the Clostridium botulinum C3 exoenzyme which specifically ADP ribosylates and inactivates rho p21. C3 exoenzyme treatment of cells caused a marked decrease in both bombesin- and endothelin-stimulated tyrosine phosphorylation of multiple proteins, including p125 focal adhesion kinase (FAK) and paxillin. Our results suggest that rho p21 is a component of the signal transduction pathway linking seven transmembrane domain receptors with tyrosine phosphorylation and cytoskeletal events.
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PMID:Botulinum C3 exoenzyme blocks the tyrosine phosphorylation of p125FAK and paxillin induced by bombesin and endothelin. 752 57

Focal adhesion kinase is a recently characterized tyrosine kinase that is concentrated at focal contacts in cultured cells. It is thought to play an important role in the regulation of the integrin-based signal transduction mechanism involved in the assembly of this membrane specialization. In this study, we examined the immunocytochemical distribution of focal adhesion kinase in Xenopus skeletal muscle and its role in the formation of two sarcolemmal specializations, the myotendinous junction and the neuromuscular junction, using a monoclonal antibody (2A7) against this protein. Immunoprecipitation of Xenopus embryonic tissues with this antibody demonstrated a single band at a relative molecular mass of 116 kDa. A distinct concentration of immunolabeling for focal adhesion kinase was observed at the myotendinous junction of muscle fibers in vivo. At this site, the labeling for this protein is correlated with an accumulation of phosphotyrosine immunolabeling. Focal adhesion kinase was not concentrated at the neuromuscular junction in muscle cells either in vivo or in vitro. However, it was localized at spontaneously formed acetylcholine receptor clusters in cultured Xenopus myotomal muscle cells, although its distribution was not exactly congruent with that of the receptors. In these cells, the accumulation focal adhesion kinase was induced by polystyrene microbeads. In addition, beads also induce the formation of acetylcholine receptor clusters and myotendinous junction-like specializations. By following the appearance of the focal adhesion kinase relative to the formation of these sarcolemmal specializations at bead-muscle contacts in cultured muscle cells, we conclude that the accumulation of this protein was in pace with the development of the myotendinous junction, but occurred well after the clustering of acetylcholine receptors. These results suggest that focal adhesion kinase may be involved in the development and/or maintenance of the myotendinous junction through an integrin-based signaling system. Although it can accumulate at acetylcholine receptor clusters formed in culture, it does not appear to be involved in the development of the neuromuscular junction.
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PMID:Concentration of pp125 focal adhesion kinase (FAK) at the myotendinous junction. 752 20

Activated pp60c-src has been implicated in a number of human malignancies including colon carcinoma and breast adenocarcinoma. Association of the src SH2 domain with tyrosine-phosphorylated proteins plays a role in src-mediated signal transduction. Inhibitors of src SH2 domain-phosphoprotein interactions are, thus, of great interest in defining the role(s) of src in signal transduction pathways. To facilitate such studies, an enzyme-linked immunosorbent assay (ELISA) was developed to detect inhibitors of src SH2-phosphoprotein interactions. This assay measures inhibition of binding of a fusion construct (glutathione S-transferase src SH3-SH2) with autophosphorylated epidermal growth factor receptor tyrosine kinase domain. Activities of phosphopeptide segments derived from potential src SH2 cognate phosphoprotein partners were determined, with the focal adhesion kinase-derived segment VSETDDY*AEIIDE yielding the highest inhibitory activity. Structure activity studies starting from acetyl (Ac)-Y*EEIE have identified Ac-Y*Y*Y*IE as the most active compound screened in the ELISA. This compound is at least 20-fold more active than the parent peptide Ac-Y*EEIE. A high resolution (2 A) crystal structure of human src SH2 complexed with Ac-Y*EEIE was obtained and provided a useful framework for understanding the structure-activity relationships. Additionally, Ac-Y*EEIE was able to block interactions between src and its cellular phosphoprotein partners in vanadate-treated cell lysates from MDA-MB-468 breast carcinoma cells. However, it is unable to abrogate proliferation of MDA-MB-468 cells in culture, presumably because of poor cell penetration and/or lability of the phosphate group on tyrosine.
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PMID:Peptide inhibitors of src SH3-SH2-phosphoprotein interactions. 752 93

SHPTP2 is a ubiquitously expressed tyrosine-specific protein phosphatase that contains two amino-terminal Src homology 2 (SH2) domains responsible for its association with tyrosine-phosphorylated proteins. In this study, expression of dominant interfering mutants of SHPTP2 was found to inhibit insulin stimulation of c-fos reporter gene expression and activation of the 42-kDa (Erk2) and 44-kDa (Erk1) mitogen-activated protein kinases. Cotransfection of dominant interfering SHPTP2 mutants with v-Ras or Grb2 indicated that SHPTP2 regulated insulin signaling either upstream of or in parallel to Ras function. Furthermore, phosphotyrosine blotting and immunoprecipitation identified the 125-kDa focal adhesion kinase (pp125FAK) as a substrate for insulin-dependent tyrosine dephosphorylation. These data demonstrate that SHPTP2 functions as a positive regulator of insulin action and that insulin signaling results in the dephosphorylation of tyrosine-phosphorylated pp125FAK.
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PMID:Protein-tyrosine-phosphatase SHPTP2 is a required positive effector for insulin downstream signaling. 753 37

The effect of matrix nonenzymatic glycosylation on signal transduction and the cellular phenotype was examined. Human microvascular endothelial cells were plated on control or glycated basement membrane-like matrix. Cells exhibited a decrease in their ability to adhere and spread on modified matrix. The pattern of intracellular tyrosine phosphorylation was examined by Western Immunoblotting; a band with 65 kDa mobility exhibited a marked reduction of tyrosine phosphorylation in cells adherent to modified matrix. Immunoprecipitation experiments provided evidence that this band is paxillin, a member of focal adhesion proteins. Immunoprecipitation with antibodies against focal adhesion kinase (pp125FAK), the enzyme that is thought to regulate paxillin tyrosine phosphorylation, also demonstrated a reduction in tyrosine phosphorylation of pp125FAK. To confirm these biochemical data, adherent cells were examined for the distribution of paxillin, using immunofluorescence microscopy; paxillin was seen in focal points peripherally located in cells on normal matrix, but lacked this pattern in cells on modified matrix. Actin filaments were also disorganized in cells plated on modified matrix. These data suggest that matrix nonenzymatic glycosylation can interfere with and potentially alter cellular phenotype and intracellular signaling.
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PMID:Matrix nonenzymatic glycosylation leads to altered cellular phenotype and intracellular tyrosine phosphorylation. 753 3


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