EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibition of cell proliferation is an important biologic function of interferons (IFNs), which has been exploited in therapeutic treatment of certain hematologic malignancies. However, the molecular mechanism was not clear. We have recently shown that IFNs (alpha/beta and gamma) inhibit protein kinase C (PKC)-dependent (such as PDGF and phorbol ester) but not PKC-independent (such as epidermal growth factor) activation of Raf-1 and mitogen-activated protein kinases (MAPK/ERKs) in fibroblasts (Xu et al, Mol Cell Biol 14:8018, 1994), suggesting a novel mechanism by which IFNs execute their antiproliferative function. Monocytes/macrophages are primary targets in vivo for IFN-gamma, the major activity of macrophage-activating factor. In the present study, mechanism of IFN-gamma-induced antiproliferative action in macrophages in response to colony-stimulating factor-1 (CSF-1) has been investigated. Our results show that antiproliferative effect of IFN-gamma overrode mitogenic effect of CSF-1 and phorbol ester, as measured by early gene expression, DNA synthesis and cell proliferation. Although activation, phosphorylation, and turnover of the CSF-1 receptor and CSF-1-induced increase in diacylglycerol production remained normal, IFN-gamma blocked CSF-1-stimulated activation of mitogen-activated protein kinases, Raf-1 kinase, increase in GTP-bound Ras and tyrosine phosphorylation, and activation of protein kinase C delta (PKC-delta). PKC-delta was required for CSF-1-induced mitogenic signaling and a primary target for IFN-gamma-induced inhibition. Interestingly, although phorbol myristate acetate stimulated Ras activation, PKC-delta did not appear to be an upstream activator of Ras. These studies clearly indicated that IFN-gamma specifically inhibits PKC-delta activation, resulting in blockage of the early events of mitogenesis in macrophages in response to CSF-1.
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PMID:Blockage of the early events of mitogenic signaling by interferon-gamma in macrophages in response to colony-stimulating factor-1. 870 28

The signaling mechanisms responsible for the induced expression of interferon (IFN) genes by viral infection or double-stranded RNA (dsRNA) are not well understood. Here we investigate the role of the interferon-induced dsRNA-dependent protein kinase PKR in the regulation of IFN induction. Biological activities attributed to PKR include regulating protein synthesis, mediating IFN actions, and functioning as a possible tumor suppressor. Since binding of dsRNA is required for its activation, PKR has been considered as a candidate signal transducer for regulating IFN expression. To examine this role of PKR, loss-of-function phenotypes in stable transformants of promonocytic U-937 cells were achieved by two different strategies, overexpression of an antisense PKR transcript or a dominant negative PKR mutant gene. Both types of PKR-deficient cells were more permissive for viral replication than the control U-937 cells. As the result of PKR loss, they also showed impaired induction of IFN-alpha and IFN-beta genes in response to several inducers--specifically, encephalomyocarditis virus, lipopolysaccharide, and phorbol 12-myristate 13-acetate. Interestingly, while IFN-alpha induction by dsRNA was impaired in PKR-deficient cells, IFN-beta induction remained intact. Loss of PKR function also resulted in decreased antiviral activity as elicited by IFN-alpha and, to a greater extent, by IFN-gamma. These results implicate PKR in the regulation of several antiviral activities.
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PMID:Involvement of the double-stranded-RNA-dependent kinase PKR in interferon expression and interferon-mediated antiviral activity. 756 28

PKR is an interferon (IFN)-induced serine/threonine protein kinase that regulates protein synthesis through phosphorylation of eukaryotic translation initiation factor-2 (eIF-2). In addition to its demonstrated role in translational control, recent findings suggest that PKR plays an important role in regulation of gene transcription, as PKR phosphorylates I kappa B alpha upon double-stranded RNA treatment resulting in activation of NF-kappa B DNA binding in vitro (Kumar, A., Haque, J., Lacoste, J., Hiscott, J., and Williams, B.R.G. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 6288-6292). To further investigate the role of PKR in transcriptional signaling, we expressed the wild type human PKR and a catalytically inactive dominant negative PKR mutant in the murine pre-B lymphoma 70Z/3 cells. Here, we report that expression of wild type PKR had no effect on kappa-chain transcriptional activation induced by lipopolysaccharide or IFN-gamma. However, expression of the dominant negative PKR mutant inhibited kappa gene transcription independently of NF-kappa B activation. Phosphorylation of eIF-2 alpha was not increased by lipopolysaccharide or IFN-gamma, suggesting that PKR mediates kappa gene transcriptional activation without affecting protein synthesis. Our findings further support a transcriptional role for PKR and demonstrate that there are at least two distinct PKR-mediated signal transduction pathways to the transcriptional machinery depending on cell type and stimuli, NF-kappa B-dependent and NF-kappa B-independent.
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PMID:The interferon-inducible protein kinase PKR modulates the transcriptional activation of immunoglobulin kappa gene. 759 10

Colonic epithelial cell injury is the common manifestation of inflammatory diseases of the bowel. One form of epithelial injury is apoptosis. In our study, we investigated the mechanism leading to apoptosis in HT-29 cells in response to TNF-alpha and ligation of Fas Ag. HT-29 displayed a dual response to TNF-alpha and Fas Ag ligation: in combination with IFN-gamma, HT-29 cells underwent apoptosis, whereas independently, these factors stimulated secretion of IL-8. We used this model of immune-mediated epithelial cell injury to elucidate the signals leading to apoptosis in response to TNF-alpha and Fas Ag ligation compared with the signals leading to induction of IL-8 secretion. The model was further used to distinguish signaling differences between TNF-alpha receptors and the Fas Ag in this cell line. The experiments presented here demonstrate that Fas Ag ligation alone led to production of IL-8 by colonic epithelial cells and represented another function mediated by Fas Ag in addition to apoptosis. This study shows that the pathways leading to cell death and IL-8 production in response to Fas Ag ligation and TNF-alpha were similar with regard to their requirements for new gene expression, protein synthesis, and protein kinase activity. Specifically, new gene expression and protein synthesis were not necessary for TNF-alpha- and Fas Ag-mediated apoptosis, but were necessary for TNF-alpha- and Fas Ag-mediated IL-8 secretion. Tyrosine protein kinase phosphorylation was necessary to signal secretion of IL-8 in response to both agonists but it was not necessary for apoptosis. In spite of the similarities between these two agonists, the kinetics of apoptosis via Fas Ag were significantly more rapid than through the TNF-alpha receptor and serve to distinguish these two signals.
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PMID:Divergent induction of apoptosis and IL-8 secretion in HT-29 cells in response to TNF-alpha and ligation of Fas antigen. 759 69

The rat/mouse T-cell hybridoma PC60 was transfected either with hTNF-R55 cDNA, hTNF-R75 cDNA, or both. Receptor-specific stimulation was achieved using agonistic monoclonal antibodies or receptor-specific muteins of hTNF. Either hTNF-R55 or hTNF-R75 could mediate the activation of NF-kappa B and the induction of GM-CSF, IL-6, and IFN-gamma. But only in cells carrying both hTNF-R55 and hTNF-R75, was TNF able to induce apoptosis. This apoptosis could be inhibited almost completely by cotransfection with human bcl-2 cDNA. Functional cooperation was observed between liganded and unliganded receptors for the induction of apoptosis. In vitro protein kinase activity was detected only in TNF-R75 immunoprecipitates from cells in which the receptor was signaling. Direct evidence was obtained for reactive oxygen intermediates of mitochondrial origin responsible for TNF-induced cytotoxicity in L929 cells.
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PMID:Functional requirement of the two TNF receptors for induction of apoptosis in PC60 cells and the role of mitochondria in TNF-induced cytotoxicity. 762 61

Vascular cell adhesion molecule-1 (VCAM-1) is expressed not only by cytokine-activated endothelium in the kidney, but also by nonvascular cells such as renal tubular epithelial cells (TEC) and mesangial cells (MC). VCAM-1 is upregulated in these cells by the cytokines TNF-alpha, IL-1, and IFN-gamma. We have examined herein the regulation of VCAM-1 expression in TEC and the role played by protein kinase C (PKC). Activation of PKC with phorbol myristate acetate (PMA) or mezerein upregulates VCAM-1 expression by TEC dose-dependently. Maximal stimulation occurs after 6 hr, and declines thereafter. Activation of the protein kinase A pathway with forskolin does not upregulate VCAM-1. The TNF-alpha- and PMA-stimulated VCAM-1 expression is inhibited by the PKC and PKA inhibitor staurosporine (STS). The TNF-alpha-stimulated VCAM-1 expression is also inhibited by the PKC-specific inhibitor calphostin C. Protein synthesis inhibition with cycloheximide (CHX) and blocking of transcription with actinomycin D (ACT D) also inhibits the TNF-alpha and PMA-stimulated upregulation of VCAM-1. The TNF-alpha induced increase in VCAM-1 mRNA levels is blocked with STS and ACT D, but is superinduced with CHX. Thus, the TNF-alpha stimulated renal tubular VCAM-1 expression may involve activation of PKC and is transcriptionally regulated.
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PMID:Regulation of cytokine-stimulated vascular cell adhesion molecule-1 expression in renal tubular epithelial cells. 767 55

Steady-state levels of mRNAs that encode specific Fc gamma R and Ia antigen genes have been measured in macrophages treated with interferons (IFNs) to examine the induction of these markers at the molecular level. Our previous studies suggested requirement for protein kinase C (PKC) in the IFN induction of these macrophage surface markers, although a difference in PKC dependence was found between IFN-alpha/beta- and IFN-gamma-induced Fc gamma R expression. The protein kinase antagonist H7, used previously to distinguish between the surface induction of Fc gamma R by IFN-alpha/beta and IFN-gamma, also distinguishes between the IFN-alpha and IFN-gamma in the induction of Fc gamma RI mRNA and Fc gamma RI surface expression. Protein kinase inhibitors blocked the IFN-gamma induction of Ia mRNA in a manner similar to that reported previously for cell surface Ia expression. It is concluded that Fc gamma RI is induced by both IFN-alpha and IFN-gamma through distinct biochemical pathways, whereas IFN-gamma utilizes distinct pathways to induce the two macrophage activation markers, Ia antigen and Fc gamma RI.
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PMID:Multiple pathways of interferon-induced gene expression in murine macrophages. 768 67

Activation pathways inducing the expression of the interferon (IFN)-gamma gene in a cytotoxic T lymphocyte (CTL) clone were studied for their effects on transcription and on mRNA stability. IFN-gamma was secreted by the CTL clone in response to the Ca2+ ionophore ionomycin when used in conjunction with either protein kinase C (PKC)-activating phorbol 12-myristate 13-acetate (PMA) or with agents increasing cAMP, including prostaglandin E2. We describe that ionomycin induced IFN-gamma gene transcription, which was totally inhibited in the presence of cyclosporin A (CSA), an immunosuppressant forming a calcineurin-inhibiting complex with cyclophilin. Ionomycin did not, however, permit accumulation of IFN-gamma mRNA. Activation of PKC by PMA or of cAMP-dependent protein kinase through increase in cAMP had no transcription-inducing effect, either alone or in conjunction with ionomycin, as measured in run on assays of the IFN-gamma gene. When transcription of the IFN-gamma gene, initiated in the presence of ionomycin and an agent increasing intracellular cAMP, was inhibited by CSA in the absence of PKC or cAMP-dependent protein kinase activation, the IFN-gamma mRNA was rapidly degraded (half-life = 30 min). When either PKC was activated or intracellular cAMP was increased at the time of inhibition with CSA, a stabilizing effect was observed on IFN-gamma mRNA, which led to an increase in secreted IFN-gamma. These effects were selective, they did not affect the rate of transcription of the actin gene, nor the accumulation of actin mRNA. These results show that (i) post-transcriptional events can be critical for IFN-gamma expression in activated lymphocytes, and (ii) specific stabilization of IFN-gamma mRNA can be mediated by activation of two different protein kinases involved in T cell activation.
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PMID:Regulation of interferon-gamma mRNA in a cytolytic T cell clone: Ca(2+)-induced transcription followed by mRNA stabilization through activation of protein kinase C or increase in cAMP. 773 90

Interferons (IFNs) alpha/beta (type I) and gamma (type II) bind to distinct cell surface receptors, inducing transcription of overlapping sets of genes by intracellular pathways that have recently attracted much attention. Previous studies using cell lines selected for their inability to respond to IFN-alpha (ref. 4) have shown that the protein kinase Tyk2 plays a central role in the IFN alpha/beta response. Here we report the isolation of the cell line gamma 1A, selected for its inability to express IFN-gamma-inducible cell-surface markers, that is deficient in all aspects of the IFN-gamma response tested, but responds normally to IFNs alpha and beta. The mutant cells can be complemented by the expression of another member of the JAK family of protein tyrosine kinases, JAK2 (refs 6-9). Unlike IFNs alpha and beta, IFN-gamma induces rapid tyrosine phosphorylation of JAK2 in wild-type cells, and JAK2 immunoprecipitates from these cells show tyrosine kinase activity. These responses are absent in gamma 1A cells. JAK2 is therefore required for the response to IFN-gamma but not to IFNs alpha and beta.
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PMID:Complementation by the protein tyrosine kinase JAK2 of a mutant cell line defective in the interferon-gamma signal transduction pathway. 823 50

The hepatitis delta virus (HDV) genome consists of circular ssRNA which has extensive intramolecular complementarity and can form a dsRNA rod-like structure. If such RNA species were to exist in an unmasked form in cells, they would be expected to induce interferon (IFN) expression and activate two IFN-inducible dsRNA-dependent enzymes with anti-viral activity, namely the dsRNA-dependent protein kinase (PKR) and 2',5' oligoadenylate (2',5' A) synthetase. Since the virus replicates to high copy number for prolonged periods in infected cells it is apparently able to evade these antiviral mechanisms. The RNA genome may be masked and fail to induce or activate the antiviral response, or the virus may inhibit such a response. Treatment of a hepatoma cell line, Huh7, and a fibrosarcoma cell line, HT1080, stably transfected with a trimeric HDV cDNA construct, with IFN-alpha or IFN-gamma for up to seven days failed to influence the level of expression of genomic or antigenomic HDV RNA, or delta antigen (Ag). This is consistent with either failure of activation or inhibition of the IFN response. However the induction of several IFN-responsive genes, including PKR, 2',5' A synthetase and class I MHC is normal and cotransfection of a construct expressing delta Ag did not affect expression from an IFN-inducible chloramphenicol acetyltransferase construct. In addition, the activation of PKR is not inhibited in HDV-expressing cells and antiviral assays suggest that the ability of these cells to mount an antiviral response to at least two cytopathic viruses is unaffected. IFN-beta is inducible normally by dsRNA in cells transfected with the delta cDNA trimer. We conclude that HDV replication is not inhibited by IFN-alpha or IFN-gamma, even though the responses of cells expressing HDV RNA and antigen to IFN and dsRNA are intact.
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PMID:Hepatitis delta virus replication in vitro is not affected by interferon-alpha or -gamma despite intact cellular responses to interferon and dsRNA. 791 7

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