EC:2.7.10.2 - FACTA Search

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)

C57BL/6 mice are unable to express the Ifi 202 type genes upon injection in vivo of multiple dsRNA, poly rl:rC, or IFN-treatment in vitro. For this purpose the 5' terminal flanking region (called the b segment of 804 bp) was linked to a heterologous reporter gene chloramphenicol acetyl transferase (CAT) and transfected into NIH3T3 cells or BLK cells derived from the C57BL/6 strain. IFN-alpha induced strong CAT activity in NIH3T3 but not in BLK cells. This lack of transcription activation was not due to a defect in STAT factor activity, since IFN-alpha treatment in the presence of IFN-gamma priming induced translocation of the ISGF3 into the nucleus, and binding to the ISRE (IFN-Stimulated Response Element) of the 202 gene even in C57BL/6 derived cells. Surprisingly when three tandem copies of the 202 ISRE (42 bp) were linked to a heterologous promoter (c-fos promoter) driving the reporter CAT gene, activation was also observed in C57BL/6 cells upon IFN-treatment. Finally, another IFN-inducible gene, namely the Mx, was activated in C57BL/6 mice. Thus, the primary defect of the C57BL/6 strain leading to an impaired Ifi 202 type gene response to IFN appears to be an inability of the ISGF3 complex to activate the endogenous promoter. Altogether these results suggest that unidentified nuclear factors related to the host genotype control the ability of the STAT factors to activate transcription upon IFN-treatment.
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PMID:Host genotype controls the ability of the ISGF3 complex to activate transcription of IFN-inducible genes. 882 18

The growth hormone (GH) receptor belongs to the superfamily of transmembrane proteins that includes the prolactin (PRL) receptor and a number of cytokine receptors. Two forms exist for the GH receptor: the membrane-bound form is a protein of 620 amino acid residues with a unique transmembrane domain; the GH-binding protein (GHBP), which is a soluble short form, is identical to the extracellular domain of the membrane receptor. In man and many other species, GHBP is believed to result from proteolytic cleavage of the membrane receptor; in human tissues, only one mRNA form of 4.5 kb encoding the full-length receptor has been detected. In rodents, GHBP is encoded by a specific mRNA of 1.2kb. Binding of GH to its receptor results in dimerization of the receptor, phosphorylation of the tyrosine kinase JAK2 and of the receptor, followed by a cascade of protein phosphorylations. Transcription factors belonging to the signal transducers and activators of transcription (STAT) family are involved in the effects of GH on the transcription of genes such as c-fos, serine protease inhibitor Spi 2.1 and beta-casein. GH is able to activate several STAT proteins including STAT1, 3 and 5. The JAK-STAT pathway is a main pathway for GH effects on gene transcription. Other signalling molecules are involved in GH action through different pathways: GH is able to activate mitogen activated protein (MAP) kinases; the hormone can utilize insulin receptor substrate-1 (IRS-1) and induces the association of phosphatidylinositol 3-kinase with IRS-1. Two main functional regions have been defined in the cytoplasmic domain of the GH receptor by testing the activity of mutant forms of the receptor in several systems: Box 1, a proline-rich sequence in the membrane proximal part, is necessary for all GH effects and is probably the region of association with JAK2; the C-terminal region is required for the induction of specific genes. Other molecules involved in the mechanisms of action of GH remain to be identified. As the same signalling pathways are used by many ligands, explanations for the specificity of the cellular effects have to be determined.
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PMID:Growth hormone receptor signalling. 885 42

Granulocyte colony-stimulating factor (G-CSF) is the major regulator of proliferation and differentiation of neutrophilic granulocyte precursor cells. G-CSF activates multiple signaling molecules, including the JAK1 and JAK2 kinases and the STAT transcription factors. To investigate G-CSF signaling events regulated by the JAK-STAT pathway, we have generated UT7-epo cells stably expressing either wild-type (wt) G-CSF receptor or a series of C-terminal deletion mutants. Gel mobility shift and immunoprecipitation/Western analysis showed that STAT5 is rapidly activated by G-CSF in cells expressing the wt G-CSF receptor, in addition to the previously reported STAT3 and STAT1. Mutants lacking any tyrosine residues in the cytoplasmic domain maintain their ability to activate STAT5 and STAT1 but cannot activate STAT3, implying that STAT5 and STAT1 activation does not require receptor tyrosine phosphorylation. We also observed significant changes in the ratio of STAT1:STAT3:STAT5 activated by various G-CSF receptor C-terminal deletion mutants. These mutant receptors were further used to investigate the role of JAKs and STATs in G-CSF-mediated responses in these cells. We found that JAK activation correlates with G-CSF-induced cell proliferation, whereas STAT activation is not required. We have also identified three classes of G-CSF immediate early genes, whose activation correlates with the activation of distinct JAK-STAT pathways. Our data show that, whereas c-fos is regulated through a pathway independent of STAT activation, oncostatin M, IRF-1, and egr-1 are regulated by an STAT5-dependent pathway and fibrinogen is regulated by an STAT3-dependent pathway. In conclusion, our results suggest that G-CSF regulates its complex biologic activities by selectively activating distinct early response genes through different JAK-STAT signaling molecules.
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PMID:Multiple signaling pathways induced by granulocyte colony-stimulating factor involving activation of JAKs, STAT5, and/or STAT3 are required for regulation of three distinct classes of immediate early genes. 897 35

The receptors for human interleukin-3 (IL-3) and human granulocyte-macrophage colony-stimulating factor (GM-CSF), hIL-3R, hGM-CSFR, respectively, consists of two subunits, alpha and beta, both of which are members of the cytokine receptor superfamily. Phosphorylation of tyrosine residues in the hGMR beta subunit and several cellular proteins is observed after hGM-CSF stimulation. We analyzed the role of tyrosine residues in the hGMR beta subunit and the nature of tyrosine kinase, JAK2, in hGMR signal transduction using several hGMR beta subunit mutants. In addition to the box1 region, a membrane distal region (a.a. 544-589) of the hGMR beta was required for c-fos activation. Only one tyrosine residue (Tyr577) existed within the region 544 to 589, and substitution of Tyr577 to phenylalanine in GMR beta 589 resulted in loss of c-fos activation. In contrast, the same substitution in a wild type receptor did not affect GM-CSF induced activities such as c-fos messenger RNA (mRNA) induction and proliferation, but the substitution abolished Shc phosphorylation. These results suggest that the activation of Shc is not essential for c-fos activation and several tyrosine residues cooperate for c-fos activation. It is well documented that IL-3 or GM-CSF activate JAK2 in BA/F3 cells. The role of JAK2 in IL-3/GM-CSF functions, however, is largely unknown. We examined the role of JAK2 in GM-CSF induced signaling pathways. Dominant negative JAK2 (delta JAK2) lacking the C-terminus kinase domain suppressed IL-3/GM-CSF induced c-fos activation and c-myc activation and proliferation, suggesting that JAK2 was involved in both signaling pathways. Protein tyrosine phosphatase SHP-2 (also called PTP 1D) and Shc were phosphorylated by IL-3/GM-CSF in BA/F3 cells; however, these phosphorylation events were inhibited by the expression of delta JAK2. Taken together, these results indicate the JAK2 is a primary kinase regulating all the known activities of GM-CSF. JAK2 mediates GM-CSF induced c-fos activation through receptor phosphorylation and Shc/PTP 1D activation.
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PMID:Roles of JAK kinases in human GM-CSF receptor signal transduction. 897 26

Human granulocyte-macrophage colony-stimulating factor (hGM-CSF) activates a set of genes such as c-fos, jun, myc, and early growth response gene 1 (egr-1). Studies on BA/F3 cells that express hGM-CSF receptor (hGMR) showed that two different signaling pathways controlled by distinct regions within the beta subunit are involved in activation of c-fos/c-jun genes and in c-myc, respectively. However, the region(s) of the beta subunit responsible for activation of the egr-1 gene and other regulatory genes has not been identified. We describe here how egr-1 promoter is activated by hGMR through two regions of the beta subunit, with these regions being required for activation of the c-fos promoter. Coexpression of dominant negative (dn) Ras (N17ras) or dn JAK2 almost completely suppressed the activation of egr-1 and c-fos promoters. Deletion analysis of egr-1 promoter showed two cis-acting regions responsible for activation by hGM-CSF or mouse interleukin-3 (mIL-3), one between nucleotide positions (nt) -56 and -116, and the other between nt -235 and -480, which contains tandem repeats of the serum response element (SRE) sites. Similar experiments with the c-fos promoter showed that cis-acting regions containing the SRE/AP-1 sites is sufficient for activation by hGM-CSF. Based on these observations, we propose that signaling pathways activating egr-1 and c-fos promoters are controlled by SRE elements, either through the same or overlapping pathways that involve JAK2 and Ras.
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PMID:Characterization of cis-acting sequences and trans-acting signals regulating early growth response 1 and c-fos promoters through the granulocyte-macrophage colony-stimulating factor receptor in BA/F3 cells. 902 42

The TIS8/egr-1 gene is a member of the class of immediate early genes. Originally discovered as a mitogen-induced gene, it can also be induced by synaptic activity. We report here the induction of the TIS8/egr-1 gene by the neurotransmitter 5-hydroxytryptamine (5-HT) in cultured rat phaeochromocytoma PC12 cells. Induction was maximal 40 min after addition of 5-HT to the cells, and declined very rapidly to reach the basal level after 90 min. The electrophoretic mobility-shift assay showed that induction of the TIS8/egr-1 gene by 5-HT was accompained by increased Egr-1 protein binding to its DNA consensus sequence. We found an overall correlation of 5-HT-induced egr-1 expression with that of c-fos expression. The kinetics of the ability of both gene products to bind to their respective DNA consensus sequence was also similar. The 5-HT-induced activation in Egr-1 binding was inhibited by ketanserin and mesulergine, indicating that 5-HT exerted its action via a 5-HT2 receptor subtype. The tyrosine protein kinase inhibitor genistein abolished induction of the TIS8/egr-1 gene, suggesting that tyrosine kinase activity is required for the induction of early genes by 5-HT. Genistein also inhibited 5-HT-induced Egr-1 binding activity. The increase in phosphotyrosine content of focal adhesion kinase we noticed upon addition of 5-HT to cells suggests that this cytoplasmic tyrosine protein kinase mediates the effect of 5-HT in eliciting early gene induction.
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PMID:5-Hydroxytryptamine induces TIS8/egr-1 and c-fos expression in PC12 cells. Involvement of tyrosine protein phosphorylation. 904 72

The demonstration that RNA can be cleaved by cis ribozyme (catalytic RNAs, RNA enzymes) has potentially important therapeutic implications. Ribozymes are effective for modulation of gene expression because of their simple structure, site-specific cleavage activity, and catalytic potential. The targets of ribozyme-mediated gene modulation have ranged from cancer cells to foreign genes that cause infectious diseases. Additional target sites for ribozymes are in initial phases of development and design. Ribozymes have been targeted against myriad genes, including oncogenes (ras, BCR-ABL) and drug resistance genes (MDR-1, c-fos). These ribozymes have cleaved the target RNAs in culture system and developed to the in vivo system. We reported that fos ribozyme has altered the expression of c-fos and DNA repair genes in drug resistance cancer cells, and reversed the sensitivity to cisplatin. Furthermore, we have developed high efficiency by the transfer system in vivo.
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PMID:[Reversal of drug resistance in human cancer cells by anti-oncogenes]. 906 74

The demonstration tha RNA can be cleavaged by cis-ribozyme(catalytic RNAs, RNA enzyme) has potentially important therapeutic implications. Ribozymes are effective for modulation of gene expression because of their simple structure, site-specific cleavage activity and catalytic potential. The targets of ribozyme-mediated gene modulation have ranged from cancer cells to foreign genes that cause infectious diseases. Additional target sites for ribozymes are in initial phases of development and design. Ribozymes have been targeted against myriad genes, including oncogenes (ras, BCR-ABL) and drug resistance genes(MDR-1, c-fos, DHFR). These ribozymes have cleaved the target RNAs in culture system(in vitro) and developed in vivo system. We reported that anti-fos ribozyme has altered the expression of c-fos and DNA repair genes in cisplatin-resistance cancer cells, and reversed the sensitivity to ciaplatin. Furthermore, we have developed high efficiency by the transfer system using an electroporation in vivo.
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PMID:[Circumventing multidrug resistance in human cancer by anti-ribozyme]. 915 62

The IL-3 and GM-CSF (hGMR) receptors consist of two subunits, alpha and beta, both of which are members of the cytokine receptor superfamily. Phosphorylation of tyrosine residues of hGMR beta subunit and several cellular proteins are observed with hGM-CSF stimulation. We analyzed role of tyrosine residue of hGMR beta subunit and nature of tyrosine kinase, JAK2 in hGMR signals using several hGMR beta subunit mutants. In addition to box1 region, a membrane distal region (a.a. 544-589) of hGMR beta is required for c-fos activation. Only one tyrosine residue (Tyr577) exists within the region 544-589, and substitution of Tyr577 to phenylalanine in GMR beta 589 resulted in the loss of c-fos activation. In contrast, the same substitution in a wild type receptor did not affect GM-CSF-induced activities such as c-fos mRNA induction and proliferation but abolished Shc phosphorylation. These results suggest that the activation of Shc is not essential for c-fos activation and several tyrosine residues co-ordinate to activate c-fos activation. It is well documented that IL-3 or GM-CSF activates JAK2 in BA/F3 cells. However the role of JAK2 in IL-3/GM-CSF functions is largely unknown. We examined the role of JAK2 in GM-CSF-induced signaling pathways. Dominant negative JAK2 (delta JAK2) lacking the C-terminus kinase domain, suppressed IL-3/GM-CSF induced c-fos activation, c-myc activation and proliferation suggesting that JAK2 is involved in both signaling pathways. PTP1D and Shc are phosphorylated by IL-3/GM-CSF in BA/F3 cells, however these phosphorylation events were inhibited by expression of delta JAK2. Taken together, these results indicate that JAK2 is a primary kinase regulating all the known activities of GM-CSF. JAK2 mediates GM-CSF induced c-fos activation through receptor phosphorylation and Shc/PTP1D activation.
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PMID:Roles of JAK kinase in human GM-CSF receptor signals. 920 4

Leptin receptors include a long form (OBRl) with 302 cytoplasmic residues that is presumed to mediate most or all of leptins signaling, and several short forms, including one (OBRs) that has 34 cytoplasmic residues, is widely expressed, and is presumed not to signal but to mediate transport or clearance of leptin. We studied the abilities of these two receptor isoforms to mediate signaling in transfected cells. In response to leptin, OBRl, but not OBRs, underwent tyrosine phosphorylation that was enhanced by co-expression with JAK2. In cells expressing receptors and JAK2, both OBRs and OBRl mediated leptin-dependent tyrosine phosphorylation of JAK2, and this was abolished with OBRs when the Box 1 motif was mutated. In cells expressing receptors, JAK2 and IRS-1, leptin induced tyrosine phosphorylation of IRS-1 through OBRs and OBRl. In COS cells expressing hemagglutinin-ERK1 and receptors, leptin increased ERK1 kinase activity through OBRl, with the magnitude increased by co-expression of JAK1 or JAK2, and to a lesser degree through OBRs, despite greater receptor expression. In stable Chinese hamster ovary cell lines expressing OBRs or OBRl, leptin stimulated endogenous ERK2 phosphorylation. Whereas leptin stimulated tyrosine phosphorylation of hemagglutinin-STAT3 and induction of a c-fos luciferase reporter plasmid through OBRl, OBRs was without effect in these assays. In conclusion, OBRl is capable of signaling to IRS-1 and mitogen-activated protein kinase via JAK, in addition to activating STAT pathways. Although substantially weaker than OBRl, OBRs is capable of mediating signal transduction via JAK, but these activities are of as yet unknown significance for leptin biology in vivo.
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PMID:Divergent signaling capacities of the long and short isoforms of the leptin receptor. 940 87

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