EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Infection of the bone marrow-derived mast cell line PB-3c with a retrovirus carrying oncogenic c-Ha-ras or v-Ha-ras reduced the interleukin 3 (IL-3) growth requirement and induced a state of tumorigenicity. In contrast, normal c-Ha-ras had no effect on the IL-3 requirement of this cell line nor did the cells become tumorigenic. A factor reduction similar to that caused by activated Ha-ras was transiently obtained with 12-O-tetradecanoylphorbol-13-acetate in the PB-3c cells expressing normal c-Ha-ras. The analogous stimulation of protein kinase C (PKC) in PB-3c cells producing oncogenic Ha-ras led to an additional reduction of the IL-3 requirement during the first 24 h. In the absence of IL-3, the prolonged exposure of the cells to 12-O-tetradecanoylphorbol-13-acetate for 72 h resulted in a stimulation of growth when activated but not when normal Ha-ras was expressed. PB-3c cell lines expressing activated Ha-ras neither revealed differences in the amounts nor in the subcellular distribution of PKC activity but displayed elevated levels of immunoreactive beta-PKC compared to the parental PB-3c cells. Upon 12-O-tetradecanoylphorbol-13-acetate treatment, a protracted down-regulation of the immunodetectable alpha-PKC as well as constitutively high levels of c-fos mRNA were observed when oncogenic Ha-ras was expressed. These data suggest the involvement of specific PKC subtypes and of c-fos in the reduction of the IL-3 requirement caused by activated Ha-ras in this particular hematopoietic cell line.
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PMID:Tumor-promoting phorbol ester and activated Ha-ras synergistically reduce the interleukin 3 requirement in a mast cell line. 198 80

Enteropathogenic Escherichia coli (EPEC) are a class of diarrheagenic organisms that induce a characteristic attaching and effacing lesion in enterocytes and various cultured cell lines. Infection of cultured HEp-2 cells by EPEC isolates 2036-80 (serotype O119) and E2348-69 (serotype O127) resulted in significant elevation of intracellular free calcium levels, determined quantitatively with the fluorescent calcium indicator dye 2-([2-bis(carboxymethyl)amino-5-methylphenoxy]methyl)-6-methoxy-8- bis(carboxymethyl)aminoquinoline. This effect, which was not observed on infection with non-lesion-forming E. coli strains, was inhibited by dantrolene, a drug that prevents calcium mobilization from intracellular stores. Moreover, activated protein kinase C in infected cells was dissociated from cell membranes by a process that was inhibited by cyclosporin A, suggesting involvement of the calcium-dependent protease calpain. A qualitative method for observing intracellular calcium fluxes by fluorescence microscopy with the recently described fluorescein-based indicator fluo-3 was used to screen a collection of well-characterized E. coli isolates from patients with infantile enteritis. Increased localized calcium-dependent fluo-3 fluorescence was observed only in HEp-2 cells infected with known lesion-forming EPEC strains. We propose that enhancement of intracellular free calcium levels in enterocytes infected with EPEC would result in formation of the characteristic lesion by calcium-dependent activation of actin-depolymerizing proteins, with eventual loss of absorptive capacity.
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PMID:Elevation of intracellular free calcium levels in HEp-2 cells infected with enteropathogenic Escherichia coli. 201 31

Infection of H9 cells with human immunodeficiency virus type 1 (HIV-1) was found to decrease the phosphorylation of DNA topoisomerase II during the initial phase of infection. Simultaneously, with a later overshoot of phosphorylation and the subsequent activation of DNA topoisomerase II, the production of HIV-1 started. Applying three new protein kinase C inhibitors from the class of O-alkylglycerophospholipids we demonstrated that inhibition of protein kinase C-mediated phosphorylation of DNA topoisomerase II resulted in an inhibition of HIV-1 production. Based on the differential effect of the two protein kinase C activators, phorbol ester and bryostatin, we conclude that phosphorylation of DNA topoisomerase II is mediated by the form alpha and gamma of protein kinase C. These data suggest that agents which inhibit these two forms of protein kinase C are also potential candidates for an anti-HIV therapy.
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PMID:Alteration of DNA topoisomerase II activity during infection of H9 cells by human immunodeficiency virus type 1 in vitro: a target for potential therapeutic agents. 217 25

Infection of Molt-3 cells with human immunodeficiency virus-1 (HIV-1) was found to cause a rapid increase in extractable poly(A) polymerase activity, while the activity of poly(A) degrading endoribonuclease IV strongly decreased at the same time. The increase in poly(A) polymerase activity seems not to be due to a change in the actual number of enzyme molecules, but rather to posttranslational enzyme modification, most likely caused by phosphorylation by nuclear protein kinase NI or protein kinase C. Both kinases were found to be able to phosphorylate poly(A) polymerase in vitro [homogeneous enzyme as well as poly(A) polymerase in intact nuclei]. Phosphoamino acid analysis revealed an incorporation of phosphate into serine and, to a lower extent, into threonine residues of the enzyme protein; no phosphotyrosine could be detected. In the nucleus, the poly(A) polymerase and the endoribonuclease IV are bound to the nuclear matrix. The phosphorylation related enhancement of nuclear poly(A) polymerase activity could be abolished by addition of the zinc and copper chelator o-phenanthroline, which inhibited zinc-containing purified poly(A) polymerase and destroyed the poly(A) polymerase containing nuclear matrix structure, resulting in a solubilization of the enzyme.
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PMID:Dramatic increase in poly(A) synthesis after infection of Molt-3 cells with HIV. 234 76

Infection of HEp-2 monolayers with enteropathogenic Escherichia coli 2036-80 (O119) stimulated phosphorylation of several target cell proteins, the most prominent of which had apparent molecular weights of 21,000 and 29,000. Proteins of the same size were phosphorylated in response to known activators of the calcium-phospholipid-dependent protein kinase C. Screening of clinical isolates of various O serogroups revealed that all strains able to form the characteristic attaching and effacing lesion of enteropathogenic E. coli showed elevated phosphorylation of 21,000- and 29,000-dalton protein species.
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PMID:Protein phosphorylation by protein kinase C in HEp-2 cells infected with enteropathogenic Escherichia coli. 240 56

Infections with verocytotoxin (VT) producing Escherichia coli have been strongly implicated in the epidemic form of hemolytic uremic syndrome (HUS). Endothelial damage plays a central role in the pathogenesis of HUS. In vitro studies have shown that VT can damage endothelial cells after interaction with its cellular receptor globotriaosylceramide (GbOse3cer). Cytokines, such as tumor necrosis factor alpha (TNF alpha) and interleukin-1 (IL-1) can potentiate the toxic effect of VT by inducing a protein-synthesis dependent increase in VT receptors on endothelial cells. In this study, the mechanisms underlying the increase in endothelial VT receptors induced by TNF alpha were studied in more detail. To investigate which proteins were involved in this induction, endothelial cells were incubated with and without TNF alpha in the presence of 14C-galactose or 14C-glucose. Thin-layer chromatography (TLC) analysis of the glycolipid extracts of these cells demonstrated a markedly enhanced incorporation of 14C-galactose in GbOse3cer and other galactose-containing glycolipids, suggesting that TNF alpha enhanced galactosyl-transferase activity. To examine the role of the two recently cloned TNF-receptors (TNFR-p75 and TNFR-p55) in the TNF alpha-induced increase in GbOse3cer in human endothelial cells, cells were incubated with TNF alpha, the TNFR-p55 selective R32W-S86T-TNF alpha-mutant, or the TNFR-p75 selective D143N-A145R-TNF alpha-mutant. The effect of TNF alpha activation, determined by binding-experiments with 125I-VT-1, could be largely, but not completely mimicked by R32W-S86T-TNF alpha. Although incubation of cells with D143N-A145R-TNF alpha did not show an increase in VT-1 binding, the monoclonal antibody utr-1, which prevents binding to TNFR-p75, decreased the TNF alpha-induced VT-1 binding. Activation of protein kinase C (PKC) by phorbol ester increases the expression of VT-1 receptors; this effect was prevented by the PKC inhibitor Ro31-8220 and by homologous desensitization by pretreatment with phorbol ester. In contrast, the presence of the protein kinase inhibitor Ro31-8220 or desensitization of PKC activity reduced the TNF alpha-induced increase in VT-1 receptors maximally by 50% and 24%, respectively. Comparable reductions in overall protein synthesis and the synthesis of E-selectin and plasminogen activator inhibitor-1 (PAI-1) were observed. This suggests an effect on general protein synthesis rather than a specific effect of PKC in the signal transduction pathway, by which TNF alpha induces VT-1 receptors. Our results indicate that TNF alpha can increase the VT-1 receptors on endothelial cells by inducing galactosyl-transferase activity, that this action of TNF alpha mainly occurs via the TNFR-p55; and that PKC activation increases expression of VT-1 receptors by a separate mechanism that acts additively to the TNF alpha-induced increase in VT-1 receptors.
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PMID:Tumor necrosis factor alpha induces endothelial galactosyl transferase activity and verocytotoxin receptors. Role of specific tumor necrosis factor receptors and protein kinase C. 753 May 4

The imidazoquinolineamine derivative 1-(2-methyl propyl)-1H-imidazole [4,5-c]quinoline-4-amine (imiquimod) has been shown to induce alpha interferon (IFN-alpha) synthesis both in vivo and in peripheral blood mononuclear cells in vitro. In this study, we show that, in these cells, imiquimod induces expression of several IFNA genes (IFNA1, IFNA2, IFNA5, IFNA6, and IFNA8) as well as the IFNB gene. Imiquimod also induced the expression of interleukin (IL)-6, IL-8, and tumor necrosis factor alpha genes. Expression of all these genes was transient, independent of cellular protein synthesis, and inhibited in the presence of tyrosine kinase and protein kinase C inhibitors. Infection with Sendai virus led to expression of a similar set of cytokine genes and several of the IFNA genes. Imiquimod stimulates binding of several induction-specific nuclear complexes: (i) the NF-kappa B-specific complexes binding to the kappa B enhancer present in the promoters of all cytokine genes, but not in IFNA genes, and (ii) the complex(es) binding to the A4F1 site, 5'-GTAAAGAAAGT-3', conserved in the inducible element of IFNA genes. These results indicate that imiquimod, similar to viral infection, stimulates expression of a large number of cytokine genes, including IFN-alpha/beta, and that the signal transduction pathway induced by both of these stimuli requires tyrosine kinase and protein kinase activity.
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PMID:Stimulation of interferon and cytokine gene expression by imiquimod and stimulation by Sendai virus utilize similar signal transduction pathways. 753 79

Myxoma virus is a pathogenic poxvirus that induces extensive dysregulation of cellular immunity in infected European rabbits. Infection of a rabbit CD4+ T-cell line (RL-5) with myxoma virus results in dramatic reductions of cell surface levels of CD4 as monitored by flow cytometry. The virus-induced downregulation of CD4 requires early but not late viral gene expression and could not be inhibited by staurosporine, an inhibitor of protein kinase C, which effectively blocks phorbol 12-myristate-13-acetate-induced downregulation of CD4. The decrease in total cellular levels of CD4 during myxoma virus infection could be inhibited by the lysosomotrophic agent NH4Cl, suggesting a lysosomal fate for CD4 during myxoma virus infection. Steady-state levels of the CD4-associated protein tyrosine kinase p56lck remained unchanged during myxoma virus infection, suggesting that p56lck dissociates from CD4 prior to CD4 degradation in virus infected cells. Total p56lck kinase activity was unaffected during myxoma virus infection, although the amount of p56lck physically associated with CD4 declined in parallel with the loss of CD4. Thus, myxoma virus infection of CD4+ T lymphocytes triggers CD4 downregulation via a protein kinase C-independent pathway, causing the dissociation of p56lck and the degradation of CD4 in lysosomal vesicles.
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PMID:Myxoma virus induces extensive CD4 downregulation and dissociation of p56lck in infected rabbit CD4+ T lymphocytes. 763 66

Legionella pneumophila may subvert monocyte defenses by several mechanisms including the inhibition of phagosome-lysosome fusion or the impairment of oxidative metabolism. We have investigated the effect of L. pneumophila Knoxville 1, a virulent strain that does not inhibit phagosome-lysosome fusion, on the oxidative responsiveness of human monocytes. Infection of monocytes with L. pneumophila for 48 h resulted in marked inhibition of superoxide generation stimulated by phorbol myristate acetate (PMA) but not by zymosan, a particulate agonist. Evidence is provided that L. pneumophila interfered with the transductional pathway (i.e., protein kinase C, PKC) leading to activation of the NADPH oxidase in monocytes. The phosphorylation of 34-, 48-, 62-, 68-, and 80-kDa proteins stimulated by PMA was markedly inhibited in infected monocytes. In addition, the expression of both alpha and beta PKC isotypes was partially inhibited in infected monocytes. Taken together, our data suggest that the down-modulation of PKC isotypes plays a role in the inhibition of PMA-stimulated superoxide generation.
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PMID:Legionella pneumophila inhibits superoxide generation in human monocytes via the down-modulation of alpha and beta protein kinase C isotypes. 812 Apr 47

Infection is a frequent complication and the major cause of death among end-stage renal patients. Polymorphonuclear phagocytes (PMNL) are important in host defense mainly because of bacterial destruction by nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-related free radical production following phagocytosis. In this study, hexose monophosphate pathway glycolytic activity, delivering energy to NADPH oxidase, is evaluated in vivo and in vitro, in healthy controls and in dialyzed renal failure patients. Our results show a marked parallel and correlated inhibition in the response to three stimuli for phagocytic activity (Staphylococcus aureus, formyl-methionine-leucine-phenylalanine, phorbol myristic acid) in predialysis samples. These data point to a main suppression of metabolic pathways, possibly beyond protein kinase C. This response is further suppressed at the 15th minute of cuprophane dialysis, for all stimuli studied (-40 to -94%; p < 0.001) except PMA. PMNL response remains intact during dialysis with non-complement-activating dialyzers. In vitro experiments confirm decreased PMNL glycolytic activity after the suspension of cuprophane fragments in normal whole blood. We conclude that polymorphonuclear cell energy delivery to NADPH oxidase is impaired in patients with end-stage renal failure. The impaired response against various stimuli is different in predialysis blood samples compared to samples collected during cuprophane dialysis, and may be related to two different conditions. These events probably contribute to the acquired immune suppression of uremia and the high incidence of infection among dialysis patients.
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PMID:Depressed phagocytosis in hemodialyzed patients: in vivo and in vitro mechanisms. 845 76

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