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)

To determine the specificity of signal transducer and activator of transcription (STAT) protein activation by box 3 motif-deficient hematopoietin receptors, expression vectors encoding the receptors for growth hormone, interleukin-3 (IL-3), and IL-4 were transiently transfected into COS-1 cells, together with expression vectors for Janus kinases (JAKs) and STAT proteins. Each receptor mediated a dose-dependent activation of STAT1 and STAT3, and for IL-3R and GHR this process was enhanced by JAK2. The data suggest that a box 3 motif in the cytoplasmic domain of the signal-transducing receptor to the JAK/STAT pathway. Transfection of the receptors, in combination with STAT3, into HepG2 cells reconstituted a cytokine-dependent stimulation of gene transcription through IL-6 response elements, providing evidence for a functional role of STAT3 in controlling gene expression.
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PMID:Receptors for interleukin-3 (IL-3) and growth hormone mediate an IL-6-type transcriptional induction in the presence of JAK2 or STAT3. 765 99

Several investigations have clearly indicated that plasma concentrations of insulin-like growth factor I (IGF-I) decrease with age and contribute to the decrease in tissue function that is characteristic of aging animals and man. Plasma IGF-I is regulated by GH released from the pituitary gland, and although data demonstrate a decline in GH secretion with age, GH receptor (GHR) density in liver tissue has been reported to increase. In this study, the effects of aging on GHR signal transduction were assessed in hepatic tissue to determine whether alterations in the response to GH contribute to the decline in IGF-I. Liver slices from female C57BL/6 mice (10, 17, and 31 months old) were prepared in medium and stimulated with GH. Basal GHR binding increased more than 2-fold in 31-month-old animals compared to that in either 10- or 17-month-old animals (P < 0.01), whereas the Ka values were similar in the three age groups. However, GH (2 nM)-induced IGF-I gene expression decreased dramatically with age (P < 0.01). In 10-month-old animals, GH-induced phosphorylation of the GHR complex was maximal 10 min after the addition of hormone, whereas GH-induced MAP kinase activity was maximal at 15 min. GH-induced JAK2 kinase and GHR complex phosphorylation as well as MAP kinase activity were significantly lower in 31-month-old animals than in either the 10- or 17-month-old groups (P < 0.05). The results of this study demonstrate that GH induces phosphorylation of JAK2 and the GHR complex, activates MAP kinase, and increases the expression of IGF-I messenger RNA in liver. In 17-month-old animals, decreases in IGF-I gene expression were evident that were not directly associated with diminished GHR complex phosphorylation or MAP kinase activity. By 31 months, there was a decrease in IGF-I gene expression that was associated with a marked decline in JAK2 and GHR complex phosphorylation. These data suggest that the signal transduction pathway for GH is impaired with age and that these changes may contribute to the decline in IGF-I gene expression.
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PMID:Decreases in growth hormone receptor signal transduction contribute to the decline in insulin-like growth factor I gene expression with age. 766 76

The growth hormone receptor (GHR) belongs to the family of the prolactin and cytokine receptors. The full length receptor in a 620 amino acid protein with a unique transmembrane domain. The GH binding protein (GHBP) corresponds to the extracellular domain of the membrane GHR. In all human tissues tested, one form of 4.5 kb for the GHR mRNA was detected, suggesting that GHBP is generated through proteolytic cleavage of the membrane receptor. The three dimensional crystollographic structure of GHBP-hGH complex has identified a homodimer made of two receptor molecules and one molecule of hGH. Hormone-induced receptor dimerisation appears to be crucial for signal transduction. Functional tests using the GH effect on transcription of genes, such as SP12.1 and beta lactoglobulin, have been developed to define the sequences of the receptor which are important for signaling. A proline-rich juxtamembranous sequence, called Box 1, is important for GH effects on gene transcription, on MAP kinase activity, on cell proliferation, and on JAK2 activation. JAK2 has been identified to be a GHR-associated tyrosine kinase. The first 46 amino acids of the cytoplasmic domain are necessary for JAK2 and MAP kinase activation whereas a C-Ter sequence is necessary for the transcriptional effect. Substrates for JAK2, other than the receptor itself, have to be identified. Good candidates are the transcription factors STAT.
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PMID:[Growth hormone receptor. Structure and signal transduction]. 767 6

The development of blood cells requires the interplay of hematopoietic stem and progenitor cells, marrow stroma and polypeptide growth factors. Although many proteins are thought to support the expansion of megakaryocytic precursor cells (e.g., interleukin [IL]-3, c-kit ligand [KL]), identification of the late-acting, lineage-specific growth factor for platelet production, termed Thrombopoietin (Tpo), has remained elusive. Recently, characterization of the proto-oncogene c-mpl revealed structural homology with the hematopoietic cytokine receptor family. Based on the cell of origin of its cDNA, we hypothesized that the ligand for c-mpl might be identical with Tpo. Using BaF3 cells engineered to express c-mpl, we employed a functional expression strategy to clone its cDNA. At low concentrations, the recombinant protein supports the growth of megakaryocytic colonies, alone and together with either IL-3 or KL. For IL-3 this appears to be additive, for KL, true synergy was detected. At higher concentrations, the mpl ligand (ML) alone supported a near maximal number of very large megakaryocytic colonies. Using suspension cultures and human megakaryocytic cell lines, we have also shown that ML induces the terminal differentiation of megakaryocytes by enhancing polyploidization and surface membrane expression of GPIb and IIb/IIIa. Moreover, the development of megakaryocytes in vitro appears to be absolutely dependent on the presence of ML. Following receptor engagement, ML induces tyrosine phosphorylation of a number of membrane associated kinases and adaptor molecules, including SHC, JAK2, PLC-gamma and the mpl receptor itself.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The mpl ligand: molecular and cellular biology of the critical regulator of megakaryocyte development. 769 72

The biological effects of growth hormone (GH) are initiated by its binding to the GH receptor (GHR) followed by association and activation of the tyrosine kinase JAK2. Here we report that GH can stimulate an increase in intracellular free Ca2+ concentration ([Ca2+]i) in cells expressing wild-type GHRs and receptor mutants lacking up to 132 amino acids of the C terminus, whereas GHRs lacking a further 52 amino acids in the C terminus are unable to induce Ca2+ signaling. The GH-induced rise in [Ca2+]i was dependent upon extracellular Ca2+ and the response consisted of GH-induced Ca2+ oscillations of varying frequency and amplitude. GH-induced transcription of the serine protease inhibitor 2.1 gene required the same C-terminal 52-amino acid domain of the receptor as for Ca2+ signaling. Mutation of the four proline residues in the conserved box 1 region of the GHR, which is responsible for binding and activation of JAK2 kinase, completely abolished GH-induced gene transcription but did not affect the GH-induced rise in [Ca2+]i. The Ca2+ channel blocker verapamil prevented GH-induced Ca2+ signaling as well as GH-induced gene transcription in cells expressing endogenous GHRs. These findings indicate that the GHR can initiate two independent signaling pathways, one requiring the box 1 region and the other requiring the region between amino acids 454 and 506, and suggest that both of these pathways are required for GH-induced gene transcription.
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PMID:Growth hormone receptor C-terminal domains required for growth hormone-induced intracellular free Ca2+ oscillations and gene transcription. 770 14

The tyrosine kinases JAK1 and JAK3 have been shown to undergo tyrosine phosphorylation in response to interleukin-2 (IL), IL4, IL7, and IL9, cytokines which share the common IL2 receptor gamma-chain (IL2R gamma), and evidence has been found for a preferential coupling of JAK3 to IL2R gamma and JAK1 to IL2R beta. Here we show, using human premyeloid TF-1 cells, that IL4 stimulates JAK3 to a larger extent than JAK1, based upon three different evaluation criteria. These include a more vigorous tyrosine phosphorylation of JAK3 as measured by anti-phosphotyrosine immunoblotting, a more marked activation of JAK3 as determined by in vitro tyrosine kinase assays and a more manifest presence of JAK3 in activated IL4-receptor complexes. These observations suggest that IL4 receptor signal transduction does not depend on equimolar heterodimerization of JAK1 and JAK3 following IL4-induced heterodimerization of IL4R alpha and IL2R gamma. Indeed, when human IL4R alpha was stably expressed in mouse BA/F3 cells, robust IL4-induced proliferation and JAK3 activation occurred without detectable involvement of JAK1, JAK2, or TYK2. The present study suggests that JAK1 plays a subordinate role in IL4 receptor signaling, and that in certain cells exclusive JAK3 activation may mediate IL4-induced cell growth. Moreover, mutational analysis of human IL4R alpha showed that a membrane-proximal cytoplasmic region was critical for JAK3 activation, while the I4R motif was not, which is compatible with a role of JAK3 upstream of the recruitment of the insulin receptor substrate-1/4PS signaling proteins by IL4 receptors.
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PMID:Activation of JAK3, but not JAK1, is critical to interleukin-4 (IL4) stimulated proliferation and requires a membrane-proximal region of IL4 receptor alpha. 772 95

The proliferation of activated T lymphocytes is critically dependent on the binding of the T-cell growth factors, interleukin (IL)-2 and IL-4, to distinct but evolutionarily related cell surface receptors. Previous results suggest that the IL-2 receptor (IL-2R) and IL-4R are coupled to both overlapping and distinct intracellular signaling pathways in T lymphocytes. In this study, we demonstrate that activation of Janus tyrosine kinases (JAKs) and STAT transcription factors is rapidly induced by exposure of factor-dependent murine T-cell lines to IL-2 or IL-4. Both IL-2 and IL-4 stimulated the rapid activation of JAK1 and JAK3, whereas JAK2 activity was unaffected by either cytokine. These responses were accompanied by the appearance in cell nuclei of 3 DNA binding activities that recognized a high-affinity binding site for STAT factors. In transient transfection assays, this STAT factor target sequence conferred IL-2 and IL-4 inducibility on a synthetic luciferase reporter gene. Antibody supershifting experiments indicated that IL-2 induces the formation of STAT dimers containing STAT3 and STAT1 alpha. Although IL-4 also activated STAT1 alpha, the major IL4-induced STAT factor is not STAT3 and remains undefined. Pretreatment of the T-cells with the protein-tyrosine kinase inhibitor herbimycin A blocked both the nuclear translocation of STAT factors and STAT-dependent reporter gene transcription. Immunoblot analyses confirmed that cytoplasmic STAT3 was heavily phosphorylated on tyrosine in IL-2-stimulated cells, and that phosphorylated STAT3 appeared in the nuclei of these cells. These results indicate that identical JAKs and partially overlapping sets of STATs are activated by IL-2 and IL-4 in T lymphocytes.
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PMID:Protein-tyrosine kinase-dependent activation of STAT transcription factors in interleukin-2- or interleukin-4-stimulated T lymphocytes. 774 3

The binding of granulocyte-macrophage colony stimulating factor (GM-CSF) to its receptor stimulates JAK2 protein kinase activation, protein phosphorylation, and JAK2 association with the beta c chain of the GM-CSF receptor. To better understand how different domains of the JAK2 function to regulate association and phosphorylation of the beta c receptor, the minimal portion of the beta c receptor necessary for JAK2 binding has been determined. Using glutathione S-transferase (GST) fusion proteins expressing different portions of the membrane-proximal domain of the beta c chain, we demonstrate that JAK2 binds to amino acids 458-495, but showed little binding to fusion proteins containing amino acids 483-559, 483-530, or 458-484. The GST-beta c 458-495 bound equally well to the wild type (WT) JAK2, a carboxyl-terminal deletion of JAK2 removing the protein kinase domain (amino acids 1000-1129), and a deletion of the kinase-like domain (amino acids 523-746). However, an amino-terminal JAK2 deletion (amino acids 2-239) markedly reduced binding to this GST-beta c. Far Western blotting demonstrated that a GST fusion protein containing amino acids 1-294 of JAK2, but not fusion proteins containing amino acids 295-522, 523-746, or 747-1127, bound GST-beta c 458-559. When the JAK2 WT and deletions were transiently expressed along with the alpha and beta c subunits of the GM-CSF receptor and the cells were treated with GM-CSF, the following results were obtained: 1) WT JAK2 phosphorylated the beta c subunit in a GM-CSF-dependent manner, 2) the kinase-like domain deletion phosphorylated the beta c subunit, and 3) both the kinase domain deletion and the amino-terminal deletion failed to stimulate phosphorylation of the beta c subunit. Therefore, phosphorylation of the beta c subunit requires the binding of JAK2 through its amino terminus.
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PMID:The amino-terminal portion of the JAK2 protein kinase is necessary for binding and phosphorylation of the granulocyte-macrophage colony-stimulating factor receptor beta c chain. 777 38

Thrombopoietin (TPO) is a recently characterized growth and differentiation factor for megakaryocytes and platelets that exerts its effects via the receptor, c-MpI. This receptor is a member of the hematopoietin receptor superfamily and is essential for megakaryocyte maturation; however, the molecular mechanisms of TPO and c-MpI action have not been elucidated. Recently, the Janus kinases have emerged as important elements in signaling via this family of receptors. In this report, we show that, in the M07e megakaryocytic cell line, which expresses c-MpI and proliferates in response to TPO, TPO induces phosphorylation of a number of substrates between 80 and 140 kD. Specifically, we show that stimulation with TPO induces the rapid tyrosine phosphorylation of a 130-kD protein that we identify as the Janus kinase, JAK2. However, no detectable tyrosine phosphorylation of JAK1, JAK3, or TYK2 was observed. TPO also induced activation of JAK2 phosphotransferase activity in vitro. Taken together, these data indicate that JAK2 likely plays a key role in TPO-mediated signal transduction.
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PMID:Thrombopoietin induces tyrosine phosphorylation and activation of the Janus kinase, JAK2. 778 Jan 32

Signal transducers and activators of transcription (STAT) proteins play an important role in cytokine signal transduction in conjunction with Janus kinases (JAKs). MGF/STAT5 is known as prolactin regulated STAT. Here we demonstrate that interleukin 2 (IL-2) as well as erythropoietin (EPO) stimulate STAT5 and induce tyrosine phosphorylation of STAT5. These IL-2- and EPO-induced STATs have an identical DNA binding specificity and immunoreactivity. We also show that IL-4 induces a DNA binding factor which possesses similar, but distinct, DNA binding specificity from that of STAT5 and is immunologically different from STAT5. Analysis of two EPO receptor (EPOR) transfected CTLL-2 cell lines discloses that IL-2 activates JAK1 and JAK3 as well as STAT5, while EPO stimulates STAT5 and JAK2 in EPO-responsive CTLL-2 cells (ERT/E2). On the contrary, EPO activates neither JAK2 nor STAT5 in other cell lines that failed to respond to EPO (ERT cells). EPOR and JAK2 associate with each other regardless of EPO presence in ERT/E2 cells, however, such an interaction is not present in ERT cells. Thus, EPOR and JAK2 association seems to be important for EPO responsiveness in CTLL-2 cells.
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PMID:Interleukin 2 and erythropoietin activate STAT5/MGF via distinct pathways. 778 5

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