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)

The signaling molecules insulin receptor substrate (IRS)-1 and the newly described IRS-2 (4PS) molecule are major insulin and interleukin 4 (IL-4)-dependent phosphoproteins. We report here that IL-2, IL-7, and IL-15, as well as IL-4, rapidly stimulate the tyrosine phosphorylation of IRS-1 and IRS-2 in human peripheral blood T cells, NK cells, and in lymphoid cell lines. In addition, we show that the Janus kinases, JAK1 and JAK3, associate with IRS-1 and IRS-2 in T cells. Coexpression studies demonstrate that these kinases can tyrosine-phosphorylate IRS-2, suggesting a possible mechanism by which cytokine receptors may induce the tyrosine phosphorylation of IRS-1 and IRS-2. We further demonstrate that the p85 subunit of phosphoinositol 3-kinase associates with IRS-1 in response to IL-2 and IL-4 in T cells. Therefore, these data indicate that IRS-1 and IRS-2 may have important roles in T lymphocyte activation not only in response to IL-4, but also in response to IL-2, IL-7, and IL-15.
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PMID:Interleukins 2, 4, 7, and 15 stimulate tyrosine phosphorylation of insulin receptor substrates 1 and 2 in T cells. Potential role of JAK kinases. 749 65

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

A receptor-like kinase, SRK, has been implicated in the autoincompatible response that leads to the rejection of self-pollen in Brassica plants. SRK is encoded by one member of a multigene family, which includes several receptor-like kinase genes with patterns of expression very different from that of SRK but of unknown function. Here, we report the characterization of a novel member of the Brassica S gene family, SFR2. RNA gel blot analysis demonstrated that SFR2 mRNA accumulated rapidly in response both to wounding and to infiltration with either of two bacteria: Xanthomonas campestris, a pathogen, and Escherichia coli, a saprophyte. SFR2 mRNA also accumulated rapidly after treatment with salicylic acid, a molecule that has been implicated in plant defense response signaling pathways. A SFR2 promoter and reporter gene fusion was introduced into tobacco and was shown to be induced by bacteria of another genus, Ralstonia (Pseudomonas) solanacearum. The accumulation of SFR2 mRNA in response to wounding and pathogen invasion is typical of a gene involved in the defense responses of the plant. The rapidity of SFR2 mRNA accumulation is consistent with SFR2 playing a role in the signal transduction pathway that leads to induction of plant defense proteins, such as pathogenesis-related proteins or enzymes of phenylpropanoid metabolism.
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PMID:Rapid induction by wounding and bacterial infection of an S gene family receptor-like kinase gene in Brassica oleracea. 901 64

Mechanical perturbation has been shown to modulate a wide variety of changes in second message signals and patterns of gene expression in osteoblasts. Embryonic chick osteoblasts were subjected to a dynamic spatially uniform biaxial strain (1.3% applied strain) at 0.25 Hz for a single 2-h period, and osteopontin (OPN), an Arg-Gly-Asp (RGD)-containing protein, was shown to be a mechanoresponsive gene. Expression of opn mRNA reached a maximal 4-fold increase 9 h after the end of the mechanical perturbation that was not inhibited by cycloheximide, thus demonstrating that mechanoinduction of opn expression is a primary response through the activation of pre-existing transcriptional factors. The signal transduction pathways, which mediated the increased expression of opn in response to mechanical stimuli, were shown to be dependent on the activation of a tyrosine kinase(s) and protein kinase A (PKA) or a PKA-like kinase. Selective inhibition of protein kinase C (PKC) had no effect on the mechanoinduction of osteopontin even though opn has been demonstrated to be an early response gene to phorbol 12-myristate 13-acetate (PMA) stimulation. Mechanotransduction was dependent on microfilament integrity since cytochalasin-D blocked the up-regulation of the opn expression; however, microfilament disruption had no effect on the PMA induction of the gene. The microtubule component of the cytoskeleton was not related to the mechanism of signal transduction involved in controlling opn expression in response to mechanical stimulation since colchicine did not block opn expression. Mechanical stimulus was shown to activate focal adhesion kinase (FAK), which specifically became associated with the cytoskeleton after mechanical perturbation, and its association with the cytoskeleton was dependent on tyrosine kinase activity. In conclusion, these results demonstrate that the signal transduction pathway for mechanical activation of opn is uniquely dependent on the structural integrity of the microfilament component of the cytoskeleton. In contrast, the PKC pathway, which also activates this gene in osteoblasts, acts independently of the cytoskeleton in the transduction of its activity.
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PMID:Signal transduction of mechanical stimuli is dependent on microfilament integrity: identification of osteopontin as a mechanically induced gene in osteoblasts. 933 23

Two self-incompatibility genes in Brassica, SLG and SRK (SLG encodes a glycoprotein; SRK encodes a receptor-like kinase), are included in the S multigene family. Products of members of the S multigene family have an SLG-like domain (S domain) in common, which may function as a receptor. In this study, three clustered members of the S multigene family, BcRK1, BcRL1 and BcSL1, were characterized. BcRK1 is a putative functional receptor kinase gene expressed in leaves, flower buds and stigmas, while BcRL1 and BcSL1 are considered to be pseudogenes because deletions causing frameshifts were identified in these sequences. Sequence and expression pattern of BcRK1 were most similar to those of the Arabidopsis receptor-like kinase gene ARK1, indicating that BcRK1 might have a function similar to that of ARK1, in processes such as cell expansion or plant growth. Interestingly, the region containing BcRK1, BcRL1 and BcSL1 is genetically linked to the S locus and the physical distance between SLG, SRK and the three S-related genes was estimated to be less than 610 kb. Thus the genes associated with self-incompatibility exist within a cluster of S-like genes in the genome of Brassica.
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PMID:Three members of the S multigene family are linked to the S locus of Brassica. 939 50

Megakaryocytopoiesis is the process by which bone marrow progenitor cells develop into mature megakaryocytes, which in turn produce platelets required for normal hemostasis. The development of this hematopoietic lineage depends on a variety of growth factors and cytokines. Growth factor-dependent tyrosine kinase receptors important in megakaryocytopoiesis include c-Kit, fibroblast growth factor receptor, the RON receptor, and the macrophage colony-stimulating factor receptor. Binding of growth factors to their respective receptors results in receptor dimerization and subsequent autophosphorylation on tyrosine residues. Tyrosine autophosphorylations become sites of association for cytoplasmic signaling molecules via their SH2 domains. Some of these molecules are themselves cytoplasmic tyrosine kinases such as the Src kinases, TEC, and CHK. Others are molecules such as phospholipase C-gamma, phosphoinositol 3-kinase, Shc, GTPase-activating protein, and the SH2-containing tyrosine phosphatases SHP-1 and SHP-2. These molecules generate second messengers, regulate the phosphorylation of other downstream molecules, and also regulate the phosphorylation of the receptor itself. The different cytoplasmic components activate pathways involved in either changes in cell growth or changes in the cytoskeleton that affect maturation of the cell. Cytokine receptors also generate signals involved in growth and differentiation. Some of these second messengers overlap with those of the receptor tyrosine kinases. Others, such as the JAKs/STATs, are involved in transcriptional control and are unique to the signaling mediated by cytokine receptors. We describe the contribution of these different signals to the growth/differentiation processes of megakaryocytes. We also describe the contribution of receptor and nonreceptor tyrosine phosphatases to these processes. Lastly, we have compiled selected methods related to the study of protein phosphorylation in megakaryocytes.
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PMID:Regulation of megakaryocytopoiesis and platelet production by tyrosine kinases and tyrosine phosphatases. 1008 Sep 10

GH exerts a variety of metabolic and growth-promoting effects. GH induces activation of the GH receptor (GHR)-associated cytoplasmic tyrosine kinase, JAK2, resulting in tyrosine phosphorylation of the GHR and activation of STAT (signal transducer and activator of transcription), Ras-mitogen-activated protein kinase, and phosphoinositol 3-kinase signaling pathways, among others. GH-stimulated tyrosine phosphorylation of insulin receptor substrate (IRS) proteins has been demonstrated in vitro and in vivo. IRS-1 is a multiply phosphorylated cytoplasmic docking protein involved in metabolic and proliferative signaling by insulin, IL-4, and other cytokines, but the physiological role of IRS-1 in GH signaling is unknown. In this study, as noted by others, we detected in murine 3T3-F442A pre-adipocytes GH-dependent tyrosine phosphorylation of IRS-1 and specific GH-induced coimmunoprecipitation with JAK2 of a tyrosine phosphoprotein consistent with IRS-1. We further examined this interaction by in vitro affinity precipitation experiments with glutathione-S-transferase fusion proteins incorporating regions of rat IRS-1 and, as a source of JAK2, extracts of 3T3-F442A cells. Fusion proteins containing amino-terminal regions of IRS-1 that include the pleckstrin homology, phosphotyrosine-binding, and Shc and IRS-1 NPXY-binding domains, but not those containing other IRS-1 regions or glutathione-S-transferase alone, bound JAK2 from cell extracts. Tyrosine-phosphorylated JAK2 resulting from GH stimulation was included in the amino-terminal IRS-1 fusion precipitates; however, neither tyrosine phosphorylation of JAK2 nor treatment of cells with GH before extraction was necessary for the specific JAK2-IRS-1 interaction to be detected. In contrast, in this assay, specific insulin receptor association with the IRS-1 phosphotyrosine-binding, and Shc and IRS-1 NPXY-binding domains was insulin and phosphotyrosine dependent, as previously shown. To test for significance of IRS-1 with regard to GH signaling, IRS- and GHR-deficient 32D cells were stably reconstituted with the rabbit (r) GHR, either alone (32D-rGHR) or with IRS-1 (32D-rGHR-IRS-1). As assayed by three independent methods, GH induced proliferation in 32D-rGHR cells, even in the absence of transfected IRS-1. Notably, however, GH-induced proliferation was markedly enhanced in cells expressing IRS-1. Similarly, GH-induced mitogen-activated protein kinase activation was significantly augmented in IRS-1-expressing cells relative to that in cells harboring no IRS-1. These results indicate that IRS-1 enhances GH-induced proliferative signaling.
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PMID:Insulin receptor substrate-1 enhances growth hormone-induced proliferation. 1021 44

TYK2, a Janus kinase, plays both structural and catalytic roles in type I interferon (IFN) signaling. We recently reported (Rani, M. R. S., Gauzzi, C., Pellegrini, S., Fish, E., Wei, T., and Ransohoff, R. M. (1999) J. Biol. Chem. 274, 1891-1897) that catalytically active TYK2 was necessary for IFN-beta to induce the beta-R1 gene. We now report IFN-beta-mediated activation of STATs and other components in U1 (TYK2-null) cell lines that were complemented with kinase-negative (U1.KR930) or wild-type TYK2 (U1.wt). We found that IFN-beta induced phosphorylation on tyrosine of STAT3 in U1.wt cells but not in U1.KR930 cells, whereas STAT1 and STAT2 were activated in both cell lines. Additionally, IFN-beta-mediated phosphorylation of interferon-alpha receptor-1 (IFNAR-1) was defective in IFN-beta treated U1.KR930 cells, but evident in U1.wt cells. In U1A-derived cells, the p85/p110 phosphoinositol 3-kinase isoform was associated with IFNAR-1 but not STAT3, and the association was ligand-independent. Further, IFN-beta treatment stimulated IFNAR-1-associated phosphoinositol kinase activity equally in either U1.wt or U1.KR930 cells. Our results indicate that catalytically active TYK2 is required for IFN-beta-mediated tyrosine phosphorylation of STAT3 and IFNAR-1 in intact cells.
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PMID:Catalytically active TYK2 is essential for interferon-beta-mediated phosphorylation of STAT3 and interferon-alpha receptor-1 (IFNAR-1) but not for activation of phosphoinositol 3-kinase. 1054 97

Protein kinase C (PKC) is implied in the activation of multiple targets of erythropoietin (Epo) signaling, but its exact role in Epo receptor (EpoR) signal transduction and in the regulation of erythroid proliferation and differentiation remained elusive. We analyzed the effect of PKC inhibitors with distinct modes of action on EpoR signaling in primary human erythroblasts and in a recently established murine erythroid cell line. Active PKC appeared essential for Epo-induced phosphorylation of the Epo receptor itself, STAT5, Gab1, Erk1/2, AKT, and other downstream targets. Under the same conditions, stem cell factor-induced signal transduction was not impaired. LY294002, a specific inhibitor of phosphoinositol 3-kinase, also suppressed Epo-induced signal transduction, which could be partially relieved by activators of PKC. PKC inhibitors or LY294002 did not affect membrane expression of the EpoR, the association of JAK2 with the EpoR, or the in vitro kinase activity of JAK2. The data suggest that PKC controls EpoR signaling instead of being a downstream effector. PKC and phosphoinositol 3-kinase may act in concert to regulate association of the EpoR complex such that it is responsive to ligand stimulation. Reduced PKC-activity inhibited Epo-dependent differentiation, although it did not effect Epo-dependent "renewal divisions" induced in the presence of Epo, stem cell factor, and dexamethasone.
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PMID:Protein kinase C alpha controls erythropoietin receptor signaling. 1094 Mar 12

Erythropoietin, in its standard role for the treatment of anemia, is often mechanistically regarded simply as increasing blood oxygen-carrying capacity and hence decreasing tumor hypoxia. In reality, erythropoietin (a member of the cytokine superfamily) is expressed in a multitude of tissues/cell types including erythroid and cancer cells, and the liver and central nervous system. Erythropoietin expression is induced by hypoxia-inducible factor-1, which itself is induced during hypoxia. Whereas it has no endogenous tyrosine kinase activity of its own, erythropoietin, via constitutively associated JAK2, can activate several signaling pathways including STAT5, RAS, and phosphoinositol 3-kinase. An increased understanding of these pathways is already opening up new clinical indications, particularly in terms of oncology and neurology. Current arrays/molecular endpoint studies in clinical trials should identify key components of the particular signaling pathways that will guide further use in the development of both better synergistic therapies as well as new molecular targets.
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PMID:Evidence for erythropoietin as a molecular targeting agent. 1213 9

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