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)

We have previously reported that interleukin 10 (IL-10) signalling stimulated activation of a specific enhancer element, termed HTE-1, to promote tissue inhibitor of matrix metalloproteinase1 (TIMP-1) expression in human bone metastatic PC-3 subclone (PC-3 ML) cells. Recently, we have identified an IL-10 responsive signal molecule, termed IL-10E1, which binds the HTE-1 element and cloned the gene encoding for the 22 kDa protein. In this paper, we have examined the mechanism of IL-10/IL-10 receptor signalling in two distinct human prostate cell lines, a 'normal' prostate epithelial cell line, termed NPTX-1532 and highly metastatic PC-3 ML tumour cells. Signalling cascade studies revealed that IL-10 stimulated tyrosine phosphorylation of JAK1 and TYK2 receptor kinases and tyrosine phosphorylation of IL-10E1. Phosphorylation, triggered IL-10E1's rapid translocation to the nucleus by 10-30 min. Deletion analysis combined with transient transfection experiments revealed that the n-terminal domain (approximately 74 a.a.) of the IL-10E1 protein, the nt-nls peptide, was stimulated by IL-10 to translocate to the nucleus and induce TIMP-1 expression. Site-directed mutagenesis further showed that phosphorylation of two tyrosine moieties (Y57 and Y62) of the nt-nls peptide was required for IL-10 activation of signalling and TIMP-1 expression. The data demonstrate, for the first time, that IL-10 receptor signalling of TIMP-1 expression is regulated by tyrosine phosphorylation of a novel gene, IL-10E1, in human prostate cells.
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PMID:A novel IL-10 signalling mechanism regulates TIMP-1 expression in human prostate tumour cells. 1458 88

Interleukin 10 (IL-10) stimulates rapid nuclear translocation and binding of a 22 kDa protein, termed interleukin 10 enhancer 1 (IL-10E1), to a novel enhancer element (i.e. HTE-1) of the tissue inhibitor of metalloproteinase-1 (TIMP-1) gene to upregulate TIMP-1 expression. IL-10E1 signaling involves tyrosine phosphorylation of the IL-10R JAK1 (Janus kinase) and TYK2 (tyrosine kinase) receptor kinases and tyrosine phosphorylation of two tyrosine moieties (Y57 and Y62) of a LIM domain of the IL-10E1 protein. In this paper, the studies showed that two tyrosine residues (Tyr(446) and Tyr(496)) located in the cytoplasmic domain of the IL-10R alpha chain were required for receptor function, and for phosphorylation and activation of IL-10E1. Immunoprecipitation studies revealed that 12 amino-acid peptides encompassing either of these two tyrosine residues in phosphorylated form coprecipitated IL-10E1 and blocked ligand-dependent IL-10E1 phosphorylation in a cell-free system. In contrast, peptides containing serine substitutions for Tyr(446) and Tyr(496), and tyrosine-phosphorylated peptides containing Tyr(230) or Tyr(252/259) did not prevent IL-10E1 activation or signaling. To confirm these observations in vivo, fusion protein constructs were made between a modified form of green fluorescent protein or GFP and the intact IL-10E1 protein (IL-10E1-MmGFP) and n-terminal peptides of the IL-10E1 protein (i.e. nt-nls-MmGFP and mutant sequences identified as nt-nls mC61-MmGFP and nt-nls mY57/mY62-MmGFP peptides). Confocal microscopy revealed that IL-10 triggered transport to the nucleus of IL-10E1-MmGFP, nt-nls-MmGFP, and nt-nls mC61-MmGFP by 10-30 min in HPCA-10a (human prostrate cancer cells; derived from Gleason sum 10 tumor tissue) cells. IL-10 failed to induce nuclear translocation of the mY57/mY62-MmGFP peptides with point mutations of the two tyrosine groups. Coinjection of nt-nls-MmGFP with the IL-10R Tyr(446) and Tyr(496) amino-acid residues completely blocked ligand signaling. Coinjection of peptides containing either serine substitutions for Tyr(446) and Tyr(496) or Tyr(230) and Tyr(252/259) failed to block nt-nls-MmGFP signaling. The data demonstrate that IL-10E1 is directly recruited to the ligand-activated IL-10R by binding to specific phosphotyrosine groups which control tyrosine phosphorylation of the LIM domain of the IL-10E1 protein (i.e. Y57/Y62 groups) and IL-10E1 activation.
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PMID:IL-10 signaling via IL-10E1 is dependent on tyrosine phosphorylation in the IL-10R alpha chain in human primary prostate cancer cell lines. 1280 85

STAT4 (signal transducer and activator of transcription-4) mediates biological effects in response to interleukin-12 (IL-12). STAT4 has multiple domains that have distinct functions in signaling and gene activation. To characterize the role of the STAT4 N-terminal domain in mediating STAT4 biological function, we have generated STAT4-deficient transgenic mice that express human full-length STAT4 or an N-terminal deletion mutant (Delta N-STAT4) lacking the N-terminal 51 amino acids. Whereas full-length STAT4 rescued IL-12 responsiveness, T lymphocytes expressing the STAT4 N-terminal mutant failed to proliferate in response to IL-12 and had limited Th1 cell development as evidenced by minimal interferon-gamma production. Deletion of the N-terminal domain resulted in failure of STAT4 to be phosphorylated following IL-12 stimulation despite similar phosphorylation of JAK2 and TYK2 in full-length STAT4 and Delta N-STAT4 transgenic T cells. We demonstrate that the lack of phosphorylation in cultured cells is due to reduced efficiency of phosphorylation of Delta N-STAT4 by Janus kinases. These data support a new model wherein the N-terminal domain is required to mediate the phosphorylation of STAT4 in addition to the previously documented role in gene transactivation.
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PMID:STAT4 requires the N-terminal domain for efficient phosphorylation. 1280 84

The interleukin-10 (IL-10) activation of Janus kinase (JAK) family members (JAK1/TYK2) and IL-10E1 is subsequently inactivated by approximately 3-4 h in primary prostate tumor lines. We examined the effect of proteasome inhibition on IL-10 activation of the IL-10E1 pathway following stimulation of HPCA-10a cells. Treatment of HPCA-10a cells with the proteasome inhibitor, N-acetyl-L-leucinyl-L-leucinyl-norleucinal (LLnL), led to stable tyrosine phosphorylation of the IL-10 receptor and IL-10E1 following stimulation. Further investigation showed that these stable phosphorylation events were the result of prolonged activation of JAK1 and TYK2 plus IL-10E1. IL-10E1 signaling normally induced the expression of tissue inhibitor of metalloproteinase-1 (TIMP-1) and LLnL treatment of the HPCA-10a and HPCA-10c cells significantly enhanced IL-10 induction of TIMP-1 levels to block tumor cell invasion in modified Boyden chamber invasion assays. These observations were confirmed using pharmacologic inhibitors by Western blot and ELISAs. In the presence of LLnL, stable phosphorylation of IL-10E1 and induction of TIMP-1 was abrogated if the tyrosine kinase inhibitor, staurosporine, was added. The effect of staurosporine on IL-10E1 phosphorylation and TIMP-1 could be overcome if the phosphatase inhibitor, vanadate, was also added, suggesting that phosphorylated IL-10E1 could be stabilized by phosphatase, but not by proteasome inhibition. These observations are consistent with the hypothesis that proteasome-mediated protein degradation can modulate the activity of the IL-10E1 pathway and TIMP-1 induction by regulating the deactivation of JAK1/TYK2.
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PMID:Interleukin-10 activation of the interleukin-10E1 pathway and tissue inhibitor of metalloproteinase-1 expression is enhanced by proteasome inhibitors in primary prostate tumor lines. 1286 Oct 49

SHP-1 has been proposed to be a tumor suppressor gene for several cancers. The expression of SHP-1 protein is diminished or abolished in most leukemia and lymphoma cell lines and tissues, and in some non-hematopoietic cancer cell lines, such as estrogen receptor (ER) negative breast cancer cell lines and some colorectal cancer cell lines. However, we do not know whether the reduced SHP-1 expression is the cause of cancer diseases or the secondary effect of cancer developments. Here, we first demonstrate that SHP-1 has general tumor suppressing function in SHP-1 transfected cell lines. Transfected SHP-1 inhibits the growth of three lymphoma/leukemia cell lines (Ramos, H9, Jurkat) and one breast cancer cell line (HTB26). We also demonstrate a possible molecular mechanism for the tumor suppressing function of SHP-1: SHP-1 inhibits cell growth partly by negative regulation of activated JAK kinase. In addition, we find, for the first time, that SHP-1 down-regulates the level of TYK2 kinase in H9 cells and of JAK1 kinase in HTB26 cells, by accelerating their degradation. The SHP-1 accelerated degradation of JAK1 kinase in HTB26 cells was blocked with the treatment of MG132, a specific inhibitor for proteasome-mediated proteolysis. Our data suggest a new function of SHP-1 in the regulation of proteasome-mediated degradation pathway.
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PMID:SHP-1 suppresses cancer cell growth by promoting degradation of JAK kinases. 1462 62

Protein tyrosine kinases (PTKs) are integral components of the cellular machinery that mediates the transduction and/or processing of many extra- and intracellular signals. Members of the JAK family of intracellular PTKs (JAK1, JAK2 and TYK2) are characterized by the possession of a PTK-related domain and five additional homology domains, in addition to a classical PTK domain. An important breakthrough in the understanding of JAK kinases function(s) has come from the recent observations that many cytokine receptors compensate for their lack of a PTK domain by utilizing members of the JAK family for signal transduction.
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PMID:JAK protein tyrosine kinases: their role in cytokine signalling. 1473 79

Janus tyrosine kinases (JAKs) are cytoplasmic protein tyrosine kinases that play a crucial role in the initial steps of cytokine signaling. JAK3, a member of JAK kinase family of four (JAK1, JAK2, JAK3 and TYK2), is abundantly expressed in lymphoid cells. JAK3 has been found to initiate signaling of interleukin (IL)-2, IL-4, IL-7, IL-9, IL-13 and IL-15. Indispensable role of JAK3 in lymphocyte development and function has been revealed recently. Because of the involvement of JAK3 in T cell activation and proliferation, and the documented genetic evidence for the role of JAK3 in autoimmune or transplant -induced inflammatory disorders, the selective targeting of JAK3 in T cells may potentially be clinically beneficial in T cell-derived pathologic disorders. In this review we discuss inhibitors of JAK3 as a new class of immunomodulatory agents with immunosuppressive, anti-inflammatory, anti-allergic, and anti-leukemic properties. Preclinical data from multiple experimental model systems of autoimmune diabetes, allergy, solid organ transplantation, pancreatic islet transplantation and bone marrow transplantation are discussed in the context of the clinical need for new immunomodulatory agents with such properties.
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PMID:Targeting Janus kinase 3 in the treatment of leukemia and inflammatory diseases. 1517 21

We developed a method of clone proliferation promoting fusion genes whose proteins were activated by protein oligomerization through the helix-loop-helix region (PNT domain) of TEL. We inserted a cDNA library downstream of the PNT domain with a retrovirus vector. The resulting retrovirus infected cytokine-dependent 32D cells and cells with cytokine-independent growth were analyzed for the inserted cDNA. We cloned 25 independent fusion genes including seven kinds of partner genes. Six of the seven were a fusion of TEL with protein tyrosine kinase, LYN, HCK, FGR, SYK, FLT3, and TYK2. A serine/threonine kinase, ARAF1, was also found to fuse with TEL. These kinase fusion proteins included kinase domains with proper reading frames. These fusions may be a useful model for clarifying the downstream signal transduction of constitutive active kinase and this expression cloning method may provide a new tool with which to study cell proliferation signalling.
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PMID:Expression cloning of oligomerization-activated genes with cell-proliferating potency by pseudotype retrovirus vector. 1524 Jan 36

IL-6-mediated B-cell growth promotion is involved in the pathogenesis of EBV+ lymphoproliferative disorders of immunosuppressed patients. Since retinoic acid (RA) inhibits the proliferation of EBV-immortalized lymphoblastoid B-cell lines (LCLs), we have investigated the effects of RA on IL-6 signaling in these cells. RA down-regulated IL-6-receptor components with IL-6 agonist activity (membrane and soluble gp80) and increased the levels of soluble gp130, an IL-6 antagonist. These changes, however, were not related to the enhanced production of endogenous IL-6 induced by RA in LCLs. RA-induced modulation of IL-6 receptor components did not abolish IL-6-mediated phosphorylation of gp130, whereas JAK1 and STAT3 phosphorylation and activation induced by IL-6 were markedly inhibited. Overall, the effects of RA resulted in the induction of a complete resistance of LCLs to IL-6-mediated growth promotion. Conversely, RA did not inhibit the constitutive activation of JAK1, TYK2, STAT3 and ERK1/2, ruling out that the JAK/STAT and MAPK pathways may mediate the antiproliferative activity of RA. The finding that RA severely impairs IL-6-dependent signalings in LCLs and inhibits their growth despite the presence of constitutively active JAK/STAT and MAPK cascades provide additional support for a role of RA in the prevention and treatment of EBV-related lymphoproliferative disorders of immunosuppressed patients.
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PMID:Retinoic acid inhibits IL-6-dependent but not constitutive STAT3 activation in Epstein-Barr virus-immortalized B lymphocytes. 1525 31

TYK2 is a member of the janus protein kinase family and plays an important role in the signal transduction of various cytokines including interferon alpha/beta. Cloning and characterization of the porcine TYK2 gene revealed a conserved organization with respect to other mammalian TYK2 orthologs. The porcine gene consists of 25 exons spanning approximately 26 kb and encoding a 5.3-kb mRNA. It is located in a GC-rich and gene-rich chromosome region and contains several CpG islands. The predicted 132-kDa TYK2 protein consists of 1,184 amino acids and shows 85% identity to the human TYK2 protein. The porcine TYK2 gene was localized by FISH and RH-mapping on SSC 2q1.3-->q2.1, which is in good agreement with established human-mouse-pig comparative maps.
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PMID:Molecular characterization of the porcine TYK2 gene on SSC 2q1.3-->q2.1. 1530 63

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