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)

Protein tyrosine phosphorylation and other biochemical events have been shown to occur after cross-linking of Fc epsilonRI in rodent mast cells. To investigate the mechanism of Fc epsilonRI signal transduction in human mast cells, we used human cultured mast cells (HCMC) generated from cord blood cells in the presence of recombinant human stem cell factor and IL-6. We found that on cross-linking of Fc epsilonRI: 1) HCMC released histamine; 2) rapid tyrosine phosphorylation of multiple cellular substrates, including Syk, HS1, c-Cbl, ERK-1, and ERK-2, was observed; 3) intracellular Ca2+ and inositol phosphate production were increased within the first minute after Fc epsilonRI cross-linking; and 4) genistein, a tyrosine kinase inhibitor, inhibited both protein tyrosine phosphorylation and histamine release in a dose-dependent manner. These results were consistent with previous studies in rodent mast cells. In contrast, no tyrosine phosphorylation of phospholipase C gamma1 and Btk (Bruton's tyrosine kinase) were observed in our experimental conditions. These results suggest that the greater part of the early and late signaling events in HCMC is similar to those obtained with rodent mast cells and indicated that the requirement of tyrosine phosphorylation in the activation process of each of the signaling molecules might be different in HCMC and rodent mast cells. Our finding indicates that HCMC may be useful for analysis of Fc epsilonRI-mediated signal transduction in human mast cells.
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PMID:Early and late events in Fc epsilon RI signal transduction in human cultured mast cells. 955 Mar 84

In GN4 rat liver epithelial cells, angiotensin II (Ang II) produces intracellular calcium and protein kinase C (PKC) signals and stimulates ERK and JNK activity. JNK activation appears to be mediated by a calcium-dependent tyrosine kinase (CADTK). To define the ERK pathway, we established GN4 cells expressing an inhibitory Ras(N17). Induction of Ras(N17) blocked EGF- but not Ang II- or phorbol ester (TPA)-dependent ERK activation. In control cells, Ang II and TPA produced minimal increases in Ras-GTP level and Raf kinase activity. PKC depletion by chronic TPA exposure abolished TPA-dependent ERK activation but failed to diminish the effect of Ang II. In PKC-depleted cells, Ang II increased Ras-GTP level and activated Raf and ERK in a Ras-dependent manner. In PKC depleted cells, Ang II stimulated Shc and Cbl tyrosine phosphorylation, suggesting that without PKC, Ang II activates another tyrosine kinase. PKC-depletion did not alter Ang II-dependent tyrosine phosphorylation or activity of p125(FAK), CADTK, Fyn or Src, but PKC depletion or incubation with GF109203X resulted in Ang II-dependent EGF receptor tyrosine phosphorylation. In PKC-depleted cells, EGF receptor-specific tyrosine kinase inhibitors blocked Ang II-dependent EGF receptor and Cbl tyrosine phosphorylation, and ERK activation. In summary, Ang II can activate ERK via two pathways; the latent EGF receptor, Ras-dependent pathway is equipotent to the Ras-independent pathway, but is masked by PKC action. The prominence of this G-protein coupled receptor to EGF receptor pathway may vary between cell types depending upon modifiers such as PKC.
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PMID:Angiotensin II stimulates ERK via two pathways in epithelial cells: protein kinase C suppresses a G-protein coupled receptor-EGF receptor transactivation pathway. 956 40

Guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS) treatment of permeabilized adipocytes results in GLUT4 translocation similar to that elicited by insulin treatment. However, although the selective phosphatidylinositol 3-kinase inhibitor, wortmannin, completely prevented insulin-stimulated GLUT4 translocation, it was without effect on GTPgammaS-stimulated GLUT4 translocation. In addition, insulin was an effective stimulant, whereas GTPgammaS was a very weak activator of the downstream Akt serine/threonine kinase. Consistent with an Akt-independent mechanism, guanosine 5'-O-2-(thio)diphosphate inhibited insulin-stimulated GLUT4 translocation without any effect on the Akt kinase. Surprisingly, two functionally distinct tyrosine kinase inhibitors, genistein and herbimycin A, as well as microinjection of a monoclonal phosphotyrosine specific antibody, inhibited both GTPgammaS- and insulin-stimulated GLUT4 translocation. Phosphotyrosine immunoblotting and specific immunoprecipitation demonstrated that GTPgammaS did not elicit tyrosine phosphorylation of insulin receptor or insulin receptor substrate-1. In contrast to insulin, proteins in the 120-130-kDa and 55-75-kDa range were tyrosine-phosphorylated following GTPgammaS stimulation. Several of these proteins were identified and include protein-tyrosine kinase 2 (also known as CAKbeta, RAFTK, and CADTK), pp125 focal adhesion tyrosine kinase, pp130 Crk-associated substrate, paxillin, and Cbl. These data demonstrate that the GTPgammaS-stimulated GLUT4 translocation utilizes a novel tyrosine kinase pathway that is independent of both the phosphatidylinositol 3-kinase and the Akt kinase.
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PMID:Guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS) stimulation of GLUT4 translocation is tyrosine kinase-dependent. 958 74

Integrins are heterodimeric membrane receptors that mediate cell-extracellular matrix (ECM), and cell-cell interactions. Integrins provide a physical link between the ECM and the cell cytoskeleton, and transduce signals which lead to elevation of cytosolic pH and calcium levels, changes in phospholipid metabolism and ultimately regulate gene expression. Osteoclast bone resorption is a complicated multistep process, that starts with matrix recognition, osteoclast attachment, polarization and formation of the sealing zone on the bone, followed by the directional secretion of acids and lysosomal enzymes to the resorbing surface. Osteoclasts exhibit high expression of the alpha v beta 3 integrin, which binds to a variety of RGD-containing proteins including vitronectin, osteopontin and bone sialoprotein. RGD-containing peptides, RGD-mimetics and blocking antibodies to alpha v beta 3 integrins were shown to inhibit bone resorption in vitro and in vivo, suggesting that this integrin plays an important role in regulating osteoclast activity. Furthermore, RGD-containing peptides and proteins modulate osteoclastic cytosolic calcium levels. Phosphatidyl inositol 3-kinase and c-Src were co-immunoprecipitated with alpha v beta 3 integrins in these cells. In addition, c-Cbl was found to be a substrate of c-Src in osteoclasts. More recently, ligand-engagement or clustering of alpha v beta 3 integrins in osteoclasts induced tyrosine phosphorylation of PYK2, a member of the focal adhesion kinase family, and of p130cas, a substrate of v-Src and v-Crk. Both PYK2 and p130cas were also found in the sealing zone of actively resorbing osteoclasts. How these signaling molecules interact with each other in mediating the alpha v beta 3 rate limiting effect on bone resorption is not well understood. They emerged however as key players in linking the adhesion of osteoclasts to the bone matrix, to cytoskeletal organization, and to the polarization and activation of these cells for bone resorption.
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PMID:Integrin-mediated signaling in the regulation of osteoclast adhesion and activation. 968 33

We have demonstrated previously that growth hormone (GH) activates focal adhesion kinase (FAK), and this activation results in the tyrosine phosphorylation of two FAK substrates, namely paxillin and tensin. We now show here in Chinese hamster ovary cells stably transfected with rat GH receptor cDNA that human (h)GH induces the formation of a large multiprotein signaling complex centered around another FAK-associated protein, p130(Cas) and the adaptor protein CrkII. hGH stimulates the tyrosine phosphorylation of both p130(Cas) and CrkII, their association, and the association of multiple other tyrosine-phosphorylated proteins to the complex. Both the c-Src and c-Fyn tyrosine kinases are tyrosine phosphorylated and activated by cellular hGH stimulation and form part of the multiprotein signaling complex as does tensin, paxillin, IRS-1, the p85 subunit of phosphatidylinositol 3-kinase, C3G, SHC, Grb-2, and Sos-1. c-Cbl and Nck are also tyrosine-phosphorylated by cellular stimulation with hGH and associate with the p130(Cas)-CrkII complex. c-Jun N-terminal kinase/stress-activated protein kinase (JNK/SAPK) is activated in response to hGH in accordance with the formation of the abovementioned signaling complex, and hGH stimulated JNK/SAPK activity is increased in CrkII overexpressing NIH3T3 cells compared with vector transfected NIH3T3 cells. The formation of such a large multiprotein signaling complex by GH, with the resultant activation of multiple downstream effector molecules, may be central to many of the pleiotropic effects of GH.
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PMID:Growth hormone stimulates the formation of a multiprotein signaling complex involving p130(Cas) and CrkII. Resultant activation of c-Jun N-terminal kinase/stress-activated protein kinase (JNK/SAPK). 983 78

We have investigated the interaction between Cbl and the Src-related tyrosine kinase Fyn. Fyn was observed to be constitutively associated with Cbl in lysates of several different cell types including the interleukin-3-dependent murine myeloid cell line 32Dcl3, and the prolactin-dependent rat thymoma cell line Nb2. Binding studies indicated that Cbl could bind to glutathione S-transferase (GST) fusion proteins encoding the unique, Src homology domain 3 (SH3), and SH2 domains of Fyn, Hck, or Lyn. Fusion proteins encoding either the SH3 or SH2 domains of Fyn bound to Cbl as effectively as the fusion protein encoding the unique, SH3, and SH2 domains of Fyn. The Fyn SH2 domain bound to both tyrosine-phosphorylated and nonphosphorylated Cbl, implying that this interaction might be phosphotyrosine-independent. Binding of the Fyn SH2 domain to Cbl was not disrupted by the addition of phosphotyrosine, phosphoserine, or phosphothreonine. A GST fusion protein encoding the proline-rich region of Cbl bound to Fyn present in a total cell lysate. Far Western blot analysis also indicated that the SH3 domain of Fyn bound preferentially to the proline-rich region of Cbl. The addition of [gamma-32P]ATP to either anti-Cbl immunoprecipitates or anti-Fyn immunoprecipitates resulted in the phosphorylation of both Cbl and Fyn as demonstrated by immunoprecipitation of the phosphorylated proteins with specific antisera. Fyn directly phosphorylated a GST fusion protein containing the C-terminal region of Cbl (GST-CBL-LZIP). In contrast, immunoprecipitated JAK2 was not able to phosphorylate this same region of Cbl. The GST-CBL-LZIP fusion protein contains a binding site for the SH2 domain of the p85 subunit of phosphatidylinositol 3-kinase, which mapped to Tyr731, which is present in the sequence YEAM. Mutation of Tyr731 in GST-CBL-LZIP eliminated binding of the p85 subunit of phosphatidylinositol 3-kinase and substantially reduced the phosphorylation of this fusion protein by Fyn, despite the presence of four other tyrosine residues in this fusion protein. These data are consistent with the hypothesis that Cbl represents a substrate for Src-like kinases that are activated in response to the engagement of cell surface receptors, and that Src-like kinases are responsible for the phosphorylation of a tyrosine residue in Cbl that may regulate activation of phosphatidylinositol 3-kinase.
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PMID:Fyn associates with Cbl and phosphorylates tyrosine 731 in Cbl, a binding site for phosphatidylinositol 3-kinase. 989 Sep 70

Regulatory interactions among individual receptor-coupled signal transduction systems are critically important for establishing cellular responses in the face of multiple stimuli. In this study, potential regulatory interactions between signal transduction systems activated by growth factor receptors and by G-protein-coupled receptors were examined using human neuroblastoma SH-SY5Y cells which express endogenous epidermal growth factor (EGF) and muscarinic M3 receptors. Activation of muscarinic receptors with carbachol was found to inhibit EGF-induced signaling, including tyrosine phosphorylation of the adaptor protein Cbl and of the EGF receptor, and complex formation between Shc proteins and the EGF receptor and Grb2. Protein kinase C, which is activated by muscarinic M3 receptors, mediated this inhibitory cross-talk. Activation of EGF receptors was found to inhibit muscarinic receptor-induced tyrosine phosphorylation of focal adhesion kinase and paxillin. Reactive oxygen species, which are formed as components of the EGF signaling cascade, mediated this inhibitory cross-talk. These mutual inhibitory interactions demonstrate novel mechanisms for neuronal integration of multiple signals generated by activation of receptors by neurotransmitters and growth factors.
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PMID:Muscarinic M3 and epidermal growth factor receptors activate mutually inhibitory signaling cascades in human neuroblastoma SH-SY5Y cells. 1004 86

This study's goals were to more fully define the activation of protein tyrosine phosphorylation stimulated by muscarinic receptors, to test if this signaling process is affected by oxidative stress induced by H2O2, and to compare the effects of H2O2 on protein tyrosine phosphorylation activated by epidermal growth factor (EGF) receptors. Experiments used human neuroblastoma SH-SY5Y cells which express endogenous M3 muscarinic and EGF receptors. Carbachol induced time-dependent increases in phosphotyrosine immunoreactivity of several protein bands, which were quantitated, and immunoprecipitation was used to identify the adhesion-related proteins focal adhesion kinase, p130Cas/HEF1, and paxillin, and three shc adapter proteins. Carbachol-induced tyrosine phosphorylation of the adhesion-related proteins was mediated by muscarinic receptors, and was inhibited by a src family kinase inhibitor, PP1. That carbachol can activate src family kinases was indicated further by the finding that carbachol induced an increase in tyrosine phosphorylation of p120-src substrate, which was inhibited by PP1. Oxidative stress induced by H2O2 concentration dependently inhibited carbachol-induced tyrosine phosphorylation of each of the adhesion-related proteins. EGF increased the phosphotyrosine immunoreactivity of 180- and 116-kDa proteins, identified as the EGF receptor and Cbl, respectively. In contrast to the results with carbachol, H2O2 potentiated EGF-induced tyrosine phosphorylation. These results demonstrate that muscarinic receptor activation induces previously unrecognized increases in tyrosine phosphorylation, and that this signaling process is impaired by H2O2, whereas protein tyrosine phosphorylation stimulated by EGF is increased by H2O2. Thus, oxidative stress can oppositely modulate protein tyrosine phosphorylation induced by activation of G protein-coupled and growth factor receptors in the same cells.
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PMID:Oxidative stress oppositely modulates protein tyrosine phosphorylation stimulated by muscarinic G protein-coupled and epidermal growth factor receptors. 1034 64

In the breast, data from numerous laboratories suggest that cross-talk exists between PR and growth factor and cytokine signaling pathways at multiple levels (Fig. 4). At the cell surface (level 1), progestins up-regulate growth factor and cytokine receptors. We have expanded this observation by examining the effects of progestins in the cytoplasm (level 2) where progestins regulate several intracellular effectors by increasing the levels and altering the subcellular compartmentalization of Stat5, increasing the association of Stat5 with phosphotyrosine-containing proteins and tyrosine phosphorylation of JAK2, Cbl, and Shc, and potentiating EGF-stimulated p42/p44 MAPKs, p38 MAP kinase, and JNK activities. Together, these events lead to sensitization of downstream signaling pathways to the actions of locally acting secondary factors. Finally, inside the nucleus (level 3), agonist-occupied PR synergize with nuclear transcription factors that are growth-factor regulated, to control the activity of key genes involved in breast cell fate (Figs. 1 and 4). We speculate that after progesterone treatment, orchestrated combinations of steroid hormones and growth factors or cytokines can fine tune the timing and degree of expression of a subset of genes that determine whether progestin-primed cells undergo proliferation, differentiation, or programmed cell death. The paradoxical effects of progesterone have presented a longstanding conundrum to the scientist and clinician. Why are physiological levels of progesterone proliferative in the breast but antiproliferative and protective in the uterus? If progesterone is proliferative in the breast, why is high-dose progestin therapy successful in treating breast cancer? Our intent here has been to open a dialogue addressing these questions. Our data and that of others are beginning to show that one cannot approach the question of progestin actions in isolation. Other important regulatory proteins, whose expression may vary in tissue-specific ways, work in concert with progesterone to decide cell fate. The timing and dose of progesterone may also influence the biological response. Since progestins are widely used in oral contraception, in hormone replacement therapy, and in cancer treatments, it is becoming critically important that the subtleties of their mechanisms of action be clearly understood.
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PMID:Hypothesis: Progesterone primes breast cancer cells for cross-talk with proliferative or antiproliferative signals. 1037 82

Ubiquitination of receptor protein-tyrosine kinases (RPTKs) terminates signaling by marking active receptors for degradation. c-Cbl, an adapter protein for RPTKs, positively regulates RPTK ubiquitination in a manner dependent on its variant SRC homology 2 (SH2) and RING finger domains. Ubiquitin-protein ligases (or E3s) are the components of ubiquitination pathways that recognize target substrates and promote their ligation to ubiquitin. The c-Cbl protein acted as an E3 that can recognize tyrosine-phosphorylated substrates, such as the activated platelet-derived growth factor receptor, through its SH2 domain and that recruits and allosterically activates an E2 ubiquitin-conjugating enzyme through its RING domain. These results reveal an SH2-containing protein that functions as a ubiquitin-protein ligase and thus provide a distinct mechanism for substrate targeting in the ubiquitin system.
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PMID:The tyrosine kinase negative regulator c-Cbl as a RING-type, E2-dependent ubiquitin-protein ligase. 1057 87

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