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)

Interleukin-11 (IL-11) shares the common signal transducer gp130 with IL-6, leukemia inhibitory factor (LIF), and oncostatin M (OSM) and triggers activation of unknown tyrosine kinases as the early steps of signal transduction pathway. Here we identify a 130-kilodalton tyrosine-phosphorylated protein induced by IL-11 in 3T3-L1 cells as JAK2 tyrosine kinase. We further show that the in vitro kinase activity of JAK2 is greatly enhanced following stimulation with IL-11 in 3T3-L1 cells and TF-1 cells. Furthermore, we demonstrate that JAK2 physically associates with the signal transducer gp130. Similar results were observed following stimulation with IL-6, LIF, and OSM. However, we were unable to show that JAK1 is tyrosine phosphorylated and activated by IL-11 under identical conditions. These results suggest that JAK2 tyrosine kinase is one of the tyrosine kinases involved in signal transduction mediated by IL-11, IL-6, LIF, and OSM.
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PMID:Identification of a 130-kilodalton tyrosine-phosphorylated protein induced by interleukin-11 as JAK2 tyrosine kinase, which associates with gp130 signal transducer. 817 77

We describe a universal ligand-binding receptor for human interferons alpha and interferon beta (type I IFNs). A soluble 40 kDa IFN-alpha/beta receptor (p40) that blocks the activity of type I IFNs was purified from urine and sequenced. Antibodies raised against p40 completely block the activity of several type I IFNs and immuno-precipitate both a cellular 102 kDa IFN-alpha/beta receptor and its cross-linked complexes with IFN-alpha 2. The receptor is a disulfide-linked dimer, consisting of 51 kDa subunits. We isolated and expressed a 1.5 kb cDNA, coding for the IFN-alpha/beta receptor. Its 331 amino acid sequence includes a leader and a transmembrane region, while its ectodomain corresponds to p40. IFN-alpha/beta receptor is physically associated with the cytoplasmic Tyr kinase JAK1, hence, in addition to ligand binding, it is directly involved in signal transduction.
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PMID:The human interferon alpha/beta receptor: characterization and molecular cloning. 818 Oct 59

To identify the novel receptor tyrosine kinases (RTKs) critical to the proliferation of hematopoietic stem cells, we performed polymerase chain reaction-based cloning from highly purified murine hematopoietic stem cells. Lineage marker-negative, c-KIT-positive, and Ly6A/E- or Sca-1-positive (Lin-c-KIT+Sca-1+) cells were sorted by a fluorescence-activated cell sorter. Two sets of degenerate oligonucleotide primers were directed to the conserved sequences of the catalytic domain, and were used to amplify cDNAs that encode protein tyrosine kinases (PTKs). One hundred cDNA clones were sequenced and 8 RTKs were identified, as well as 12 non-RTKs and 2 serine/threonine kinases. Sixteen cDNAs were identical to the known kinase genes (PKC beta, JAK-1, JAK-2, TYK-2, HCK, FGR, FYN, BLK, c-FES, FER, c-ABL, c-KIT, FLK-1, FLK-2, IGF1R, and ECK). Six novel cDNA sequences (stk series) were identified. However, three of them turned out to be BPK, RYK, and TEK. The remaining three showed high homology to S6 kinase II, JAK-2, and v-SEA/c-MET, respectively. Characterization of full-length cDNA sequence of the v-SEA/cMET-related gene showed that this was a novel RTK gene and we named this gene STK (stem cell-derived tyrosine kinase). We identified two distinct forms of STK cDNA; the short one encoded a putative truncated protein that lacked most of the extracellular domain. STK was expressed at various stages of hematopoietic cells, including stem cells, but we could not detect any apparent expression in other adult tissues. The expression of the truncated form of mRNA was more predominant than that of the complete form. STK was assigned by fluorescent in situ hybridization to the R-positive F1 band of chromosome 9, the same region to which hepatic growth factor-like protein has been assigned. Characterization of these PTKs, including STK, will be helpful to elucidate the molecular mechanism of the growth regulation of hematopoietic stem cells.
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PMID:Molecular cloning of a novel receptor tyrosine kinase gene, STK, derived from enriched hematopoietic stem cells. 819 52

We have produced a cell line which lacks the protein tyrosine kinase JAK1 and is completely defective in interferon response. Complementation of this mutant with JAK1 restored the response, establishing the requirement for JAK1 in both the interferon-alpha/beta and -gamma signal transduction pathways. The reciprocal interdependence between JAK1 and Tyk2 activities in the interferon-alpha pathway, and between JAK1 and JAK2 in the interferon-gamma pathway, may reflect a requirement for these kinases in the correct assembly of interferon receptor complexes.
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PMID:The protein tyrosine kinase JAK1 complements defects in interferon-alpha/beta and -gamma signal transduction. 823 50

Degenerate oligonucleotide primers were employed in PCRs to clone protein tyrosine kinases that may play potential roles in the development of the mammalian CNS. Using one PCR clone to screen a mouse eye cDNA library, a full-length cDNA of a cytoplasmic tyrosine kinase, the homolog of human JAK1, was obtained. The murine JAK1 kinase belongs to a new family of cytoplasmic kinases that contain two tandem catalytic domains. Northern analyses indicated that murine JAK1 mRNA is expressed in a variety of tissues and cell lines. In the adult mouse eye, in situ hybridization and immunohistochemistry showed that JAK1 mRNA and protein were expressed in the retinal ganglion cell layer and the inner part of the inner nuclear layer, presumably in amacrine cells. JAK1 protein was also detected in horizontal cells and in the two synaptic layers of the adult retina. During retinal development, JAK1 protein was first detected in retinal ganglion cells and in their axons as early as embryonic day 14. Expression of JAK1 protein in amacrine cells and horizontal cells occurred only postnatally. This pattern of expression was also observed in the chick retina, suggesting an evolutionarily conserved function of JAK1 kinase in vertebrate retinal development and/or function. Immunohistochemical staining against JAK1 was detected in two areas of the adult mouse brain, the olfactory bulb and a group of cells in the hypothalamus. Together, these expression studies suggest a role for JAK1 kinase in the differentiation or function of a subset of CNS neurons.
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PMID:Molecular cloning of the murine JAK1 protein tyrosine kinase and its expression in the mouse central nervous system. 833 82

The first natural MHC ligand to be sequenced directly was the nonapeptide SYFPEITHI eluted from H-2 Kd molecules of a mouse tumour line, P815 [1]. A GenBank search indicated high homology to a nonapeptide contained within the human tyrosine kinase JAK1: SFFPEITHI, residues 355-363 [2]. This high homology prompted us to look at whether the mouse JAK1 protein has a Tyr residue at position 356 instead of Phe as in the human sequence. Cloning and sequencing of the mouse homologue gene confirmed that this is indeed the case. Thus, the physiological MHC ligand SYFPEITHI is derived from the protein tyrosine kinase, JAK1. The mouse tumor line P815 expresses the 5.4-kb JAK1 mRNA, and the 130,000 kDa JAK1 protein can be readily detected.
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PMID:A prominent natural H-2 Kd ligand is derived from protein tyrosine kinase JAK1. 851 34

The tyrosine kinase JAK1 and the transcription factors STAT1 and STAT3 are phosphorylated in response to epidermal growth factor (EGF) and other growth factors. We have used EGF receptor-transfected cell lines defective in individual JAKs to assess the roles of these kinases in STAT activation and signal transduction in response to EGF. Although JAK1 is phosphorylated in response to EGF, it is not required for STAT activation or for induction of the c-fos gene. STAT activation in JAK2- and TYK2-defective cells is also normal, and the tyrosine phosphorylation of these two kinases does not increase upon EGF stimulation in wild-type or JAK1-negative cells. In cells transfected with a kinase-negative mutant EGF receptor, there is no STAT activation in response to EGF and c-fos is not induced, showing that the kinase activity of the receptor is required, directly or indirectly, for these two responses. The data do not support a role for any of the three JAK family members tested in STAT activation and are consistent with a JAK-independent pathway in which the intrinsic kinase domain of the EGF receptor is crucial. Furthermore, data from transient transfection experiments in HeLa cells, using c-fos promoters lacking the STAT regulatory element c-sis-inducible element, indicate that this element may play only a minor role in the induction of c-fos by EGF in these cells.
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PMID:Roles of JAKs in activation of STATs and stimulation of c-fos gene expression by epidermal growth factor. 852 16

We have previously reported on the expression of interleukin-4 receptors (IL-4R) on many human epithelial cancer cells; however, the binding characteristics, structure, function, and signal transduction through the IL-4R in cancer cells is not known. IL-4 binding characteristics were determined in human colon carcinoma cell lines by a 125I-IL-4 binding assay, which demonstrated that the HT-29 and WiDr colon cancer cell lines expressed high affinity IL-4R (Kd = 200 pM). Cross-linking experiments revealed a major band of 140 kDa and a broad band at 70 kDa. While the common gamma chain of IL-2R is associated with IL-4R in immune cells and is similar in size to the 70-kDa protein, this chain was not expressed in these colon cancer cells. Interestingly, IL-13, which has many functions similar to IL-4, inhibited 125I-IL-4 binding to both the 140- and 70-kDa molecules. Next, we investigated the mechanism of IL-4-induced signal transduction in colon cancer cells. After stimulation with IL-4, a 170-kDa band was primarily phosphorylated within 1 min of exposure and was identified as insulin receptor substrate-1. In addition, by immunoprecipitation assay, three other phosphorylated bands were identified as JAK1, JAK2, and Tyk2 tyrosine kinases. The phosphorylation of JAK1 and JAK2 was induced by IL-4 stimulation; however, Tyk2 was constitutively phosphorylated, and IL-4 treatment further augmented this phosphorylation. The kinetics and in vitro kinase assays demonstrated that JAK1, JAK2, and Tyk2 were phosphorylated within minutes and that JAK1 and JAK2 were activated after IL-4 exposure. Contrary to observations in immune cells. JAK3 mRNA was neither detected in colon cancer cells nor did IL-4 treatment cause phosphorylation of JAK3. These data indicate that in colon carcinoma cells JAK1, JAK2, Tyk2, and insulin receptor substrate-1 are phosphorylated after IL-4 stimulation. In addition, as is the case in lymphoid cells, IL-4 activated and phosphorylated signal transducers and activators of transcription (IL-4-STAT or STAT-6) protein in both colon cancer cell lines. These results indicate that the IL-4R complex is composed of different subunits in different tissues and shares a component with the IL-13R complex. In addition, we demonstrate for the first time that like its family members (e.g. IL-3 and GM-CSF), IL-4 can phosphorylate and activate JAK-2 kinase.
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PMID:Receptors for interleukin (IL)-4 do not associate with the common gamma chain, and IL-4 induces the phosphorylation of JAK2 tyrosine kinase in human colon carcinoma cells. 853 May 27

The adaptor molecule growth-factor-receptor-bound protein-2 (Grb2) plays a role in insulin action since it links tyrosine phosphorylated IRS-1 and Shc to the guanine-nucleotide-exchange factor, Sos, which initiates the mitogen-activated-protein (MAP) kinase cascade by producing Ras-GTP. Both IRS-1 and Shc are phosphorylated by the insulin-receptor tyrosine kinase. In the present study, we have investigated whether the tyrosine kinases of the Janus kinase family (JAK) could be involved in insulin signaling by acting on Grb2. In fibroblasts over-expressing insulin receptors we observed that two tyrosine-phosphorylated proteins interact with Grb2 and with a mutant of Grb2, which lacks the Src homology 2 (SH2) domain, indicating that these proteins associate with the SH3 domains of Grb2. Further, we found that both JAK1 and JAK2 constitutively associate with Grb2, through interaction with the SH3 domains of Grb2. Finally, insulin appears to induce the tyrosine phosphorylation of JAK1, but does not modify the tyrosine phosphorylation state of JAK2. In conclusion, our results suggest that the JAK proteins could participate in insulin signal transduction, and could therefore constitute an alternative pathway for mediating some of the pleiotropic responses induced by insulin.
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PMID:Involvement of Janus kinases in the insulin signaling pathway. 853 16

Recently, the ligand for c-mpl, a member of the family of cytokine receptors, was cloned and found to be a physiologic regulator of platelet homeostasis. We report that megakaryocyte growth and development factor (MGDF, thrombopoietin [TPO], c-mpl ligand ) induces differentiation in a majority of mpl-transfected 32D cells, while interleukin (IL)-3 is exclusively mitogenic in this system. MGDF differentiation, as measured by decreased proliferation, changes in cellular morphology, increased adherence, and downregulation of very late antigen (VLA)-4, is dominant over IL-3 proliferation. MGDF induces tyrosine-phosphorylation of mpl, JAK2, SHC, SHPTP-1 (HCP, motheaten) and SHPTP-2 (Syp, PTP-1D) within 30 seconds of stimulation, as well as of vav and MAPK with slightly delayed kinetics. A fraction of mpl and JAK2 is preassociated, and the stoichiometry of this complex is unaltered by cytokine stimulation. After MGDF stimulation, we detect interactions among SHC, grb2, SHPTP-1, SHPTP-2, and the mpl/JAK2 complex. IL-3 induces phosphorylation of the above proteins with the exception of mpl and also causes weak JAK1 phosphorylation. Although similar in composition, the MGDF- and IL-3-induced complexes of signal transducers appear to be assembled in different configurations, especially with respect to SHPTP-2. Both MGDF and IL-3 induce tyrosine phosphorylation of STAT3 (APRF) and STAT5 (MGF), with MGDF favoring STAT3 while IL-3 predominantly causes STAT5 phosphorylation. In addition, some proteins become tyrosine-phosphorylated in response to MGDF only, suggesting that we may have detected differentiation-specific signal transducers. These include a number of high-molecular-weight proteins (140 to 200 kD) and one 28-kD protein that becomes tyrosine-phosphorylated only briefly.
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PMID:Megakaryocyte growth and development factor and interleukin-3 induce patterns of protein-tyrosine phosphorylation that correlate with dominant differentiation over proliferation of mpl-transfected 32D cells. 854 43

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