Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

ICAM-1 (CD54) is expressed on endothelial cells and serves as an important ligand for the white cell adhesion molecule CD11a/CD18 (LFA-1). Many studies have demonstrated that increased numbers of white cells binding to endothelial cells correlate with the level of ICAM-1 expression on endothelial cells. Several cytokines, including IFN-gamma, increase ICAM-1 expression in cultured human endothelial cells. We have analysed the second intracellular messenger pathways involved in IFN-gamma-induced up-regulation of ICAM-1 expression in endothelial cells. IFN-gamma induced a rapid activation of phospholipase C, leading to a breakdown of phosphoinositoldiphosphate (PIP2) into diacyglycerol (DAG) and inositoltriphosphate (IP3). DAG is a natural activator of the protein kinase C pathway. We were able to show that the effect induced by IFN-gamma could be inhibited by a protein kinase C inhibitor, H7, in a dose-dependent manner and mimicked by PMA, which stimulates protein kinase C. IFN-gamma induced a 5-fold translocation (activation) of protein kinase C from the cytosol into the endothelial cell membrane. Elevation of the IP3 levels led to activation of the calcium-dependent pathway. An inhibitor of calcium calmodulin, W7, decreased the IFN-gamma induced ICAM-1 expression, and addition of calcium ionophore to endothelial cells could replace IFN-gamma in the up-regulation of ICAM-1. Finally, IFN-gamma caused a significant increase in the calcium flux of endothelial cells. cAMP and cGMP had no effect on the regulation of ICAM-1 expression on cultured human endothelial cells.
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PMID:Activation of protein kinase C is crucial in the regulation of ICAM-1 expression on endothelial cells by interferon-gamma. 198 67

Macrophages cultured with IL-2 and IFN-gamma before exposure to microorganisms developed the ability to resist infection with the obligate intracellular parasite, Leishmania major. The induction of this macrophage effector response was maximal by 6 to 8 h after lymphokine addition, and was independent of lymphokine treatment sequence. Activation of macrophages for resistance to infection was the result of the direct action of IL-2 and IFN-gamma on macrophages: the effector reaction was demonstrated in both resident peritoneal macrophages depleted of T cells and bone marrow-derived cells, a homogeneous macrophage population. Radiolabeled murine rIFN-gamma, human rIL-2, and mAb to the IL-2R (7D4), each bound to murine bone marrow-derived macrophages in a specific and saturable manner, which suggested that unstimulated macrophages have receptors for both lymphokines. Treatment of macrophages with IFN-gamma increased the specific binding of IL-2; treatment of cells with IL-2, however, did not up-regulate the IFN-gamma-R. Addition of protein or RNA synthesis inhibitors (cycloheximide, emetine, actinomycin D) during exposure to rIL-2 and rIFN-gamma totally abrogated the ability of macrophages to express this effector reaction; inhibitors of protein kinase C, PG, or calcium redistribution had no effect. Soluble polyclonal anti-TNF-alpha antibodies in culture fluids after activation of macrophages with IL-2 and IFN-gamma totally abrogated the expression of resistance to infection. The T cell growth hormone IL-2 acts as cofactor with IFN-gamma for induction of a macrophage antimicrobial activity, and TNF-alpha may be the effector molecule for resistance to infection regulated by these two lymphokines.
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PMID:IL-2. A cofactor for induction of activated macrophage resistance to infection. 211 43

The level of Ca2+, phospholipid-dependent, protein kinase C (PKC) activity in murine peritoneal macrophages treated with swainsonine, an indolizidine alkaloid, has been investigated. The present studies are based on our recent report that murine peritoneal macrophages are activated by swainsonine (Grzegorzewski, K.; Newton, S.A.; Akiyama, S.K.; Sharrow, S.; Olden, K.; White, S.L., Cancer Commun. 1:373-379, 1989). Presently, we have demonstrated that macrophages treated with swainsonine exhibited a substantial increase in PKC activity. The activity was enhanced as much as 4- to 5-fold over that obtained in untreated macrophages and was inhibited by H-7 (1-[5-isoquinoline sulphonyl]-2-methylpiperazine), D-sphingosine, or a monoclonal antibody specific for the active site of PKC. This represents the first report to demonstrate an effect of swainsonine on a second messenger system known to be involved in tumor promotion and macrophage activation. Elevation of PKC activity occurred much more slowly in swainsonine-treated cells than in cells treated with agents known to activate PKC directly, e.g., PMA (4-beta-phorbol-12-beta-myristate-13-gamma-acetate) or gamma-interferon (IFN-gamma). Furthermore the increase in PKC activity was inhibited by alpha-amanitine and cycloheximide, inhibitors of RNA and protein synthesis, respectively. These results suggest that swainsonine enhancement of PKC activity occurred by an indirect and possibly protein-synthesis-dependent mechanism. Whatever its precise mechanism of action, swainsonine provides a potentially important new probe to evaluate PKC mediated events. Selective enhancement of PKC activity may be important not only in elucidating the role of PKC in tumor promotion or macrophage activation but, also, in contributing to development of therapeutic regimens.
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PMID:Swainsonine modulation of protein kinase C activity in murine peritoneal macrophages. 211 76

Increasing interest is being focused on the role of protein kinase C (PKC) in the mode of action of interferons (IFNs). Here we report that IFN-alpha induced a transient translocation of PKC from the cytosol to the particulate fraction of U937 cells. In contrast, after IFN-gamma treatment, no significant change in PKC activity could be observed. IFN-induced changes in membrane potential were also examined by means of a potential sensitive oxonal dye and flow cytometry. Hyperpolarization was induced by both IFN-alpha and IFN-gamma. The protein kinase inhibitor H-7 blocked the hyperpolarization induced by IFN-alpha but not by IFN-gamma. These concordant results suggest that PKC is involved in the early signals of IFN-alpha but not of IFN-gamma in U937 cells.
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PMID:Protein kinase C is involved in the early signals of interferon-alpha but not of interferon-gamma in U937 cells. 212 3

IFN-gamma enhances many monocyte functions, including oxidative metabolism and Ag presentation. IFN-gamma has been reported to increase the intracellular concentration of calcium ([Ca2+]i) and modulate protein kinase C activity in murine macrophages, but the signal transduction pathways induced by IFN-gamma in human cells and their functional significance are poorly understood. Our study examined the hypothesis that an increases in [Ca2+]i and protein kinase C activation are required for functional responses to IFN-gamma. The U937 cell line was used as a model of an IFN-gamma responsive cell. IFN-gamma caused a rapid and concentration-dependent increase in [Ca2+]i, which was partly inhibited by calcium-free medium, diltiazem, and TMB-8. IFN-gamma induced a fourfold increase in the concentration of inositol 1,4,5-trisphosphate. Induction of HLA-DR, Fc gamma R, CR3, and Mo3e Ag expression by IFN-gamma was blocked by concentrations of TMB-8 that inhibited an increase in [Ca2+]i, but not by protein kinase C inhibition by H-7 or inhibition of calmodulin with W-7. Ionomycin did not enhance Ag expression and PMA induced the expression of only the Mo3e Ag. We conclude that IFN-gamma induces antigenic expression on human U937 cells by a mechanism dependent on, but not limited to, an increase in intracellular calcium, which is likely due to inositol 1,4,5-trisphosphate generation.
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PMID:Role of intracellular calcium concentration and protein kinase C activation in IFN-gamma stimulation of U937 cells. 214 Mar 94

Expression of the human (hu) IFN-gamma-R has been studied in Raji and IM9 cells (two B lymphoblastoid cell lines) and in THP-1 cells (a monocytic cell line) with respect to IFN-gamma binding sites, receptor protein and mRNA levels. Although, in these three cell lines, the hu-IFN-gamma-R mRNA was expressed to the same extent, the high affinity receptor was expressed differently both in cell surface receptor binding and amount of receptor protein. Various ligands are able to modulate the expression of their own receptor. We investigated the modulation of the hu-IFN-gamma-R by its ligand. Hu-IFN-gamma induced a rapid and dose-dependent decrease of its cell surface receptor number without alteration of receptor affinity, amounts of receptor protein or hu-IFN-gamma-R mRNA accumulation and stability. Thus, in Raji, IM9, and THP-1 cells, the hu-IFN-gamma had no effect on its receptor gene expression and the cell surface decrease was simply due to ligand blocking and receptor internalization rather than true down-regulation. The second messenger in the hu-IFN-gamma signal transduction pathway is not well characterized, but activation of protein kinase C has been reported in some cases. Therefore, the modulation of the hu-IFN-gamma-R expression by PMA, a potent activator of protein kinase C and a modulator of other receptor expression, has been investigated. In Raji and IM9 cells, PMA had no or few effects on the cell surface receptor number and no detectable effect on the receptor protein or on mRNA levels. In contrast, in THP-1 cells, PMA treatment induced a time and dose-dependent five- to sixfold increase of the cell surface receptors due to a rapid and persistent increase of the hu-IFN-gamma-R gene expression in THP-1 cells was specifically inhibited or reversed by hu-IFN-gamma treatment. The modulation of the hu-IFN-gamma-R expression by PMA in THP-1 cells and by hu-IFN-gamma in PMA-treated THP-1 cells seems associated with their effect on monocyte-macrophage differentiation and/or macrophage activation.
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PMID:Differential regulation of the human IFN-gamma receptor expression in Raji and IM9 lymphoblastoid cells versus THP-1 monocytic cells by IFN-gamma and phorbol myristate acetate. 214 Oct 42

Various cell surface receptors are phosphorylated upon binding of their ligand, and this phosphorylation seems to be involved in the signal transduction or in the feedback regulation of this signal. The possibility of a phosphorylation of the human IFN-gamma receptor (hu-IFN-gamma-R) has been investigated with 32P-labeled whole Raji cells and receptor purification either by immunoprecipitation with an anti-hu-IFN-gamma-R polyclonal antiserum or by affinity chromatography. The hu-IFN-gamma-R was found to be phosphorylated at a basal level. Upon incubation of the cells with recombinant hu-IFN-gamma, a dose-dependent two-fold increase of this phosphorylation was observed. Phosphoamino acid analysis by TLC showed that the same amino acids, serine and threonine, are phosphorylated at a basal level and after incubation with hu-IFN-gamma. Protein kinase C and Ca2+/calmodulin-dependent kinase pathways have been reported in some cases to be involved in the signal transduction pathway of hu-IFN-gamma. Both pathways involved the activation of a serine/threonine kinase and therefore we have investigated the possibility of hu-IFN-gamma-R phosphorylation by these kinases. PMA, an activator of protein kinase C, induced a rapid increase of the receptor phosphorylation in Raji cells, whereas the Ca2+ ionophore A23187 did not. PMA-induced hu-IFN-gamma-R phosphorylation was not associated with any effect on expression or inactivation of the receptor. PMA alone did not mimic the hu-IFN-gamma effect in Raji cells as measured by induction of IP-10 gene expression, a high specific marker of hu-IFN-gamma response. But the protein kinase C inhibitors, 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) and staurosporine, reduced this IFN-gamma-induced expression. However, H7 and staurosporine treatment as well as protein kinase C depletion suppressed PMA-induced receptor phosphorylation, whereas constitutive and hu-IFN-gamma-induced phosphorylation remained unchanged. Our results suggest that the serine/threonine kinase involved in the hu-IFN-gamma-R phosphorylation induced by IFN-gamma is different from protein kinase C.
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PMID:Rapid increase of the human IFN-gamma receptor phosphorylation in response to human IFN-gamma and phorbol myristate acetate. Involvement of different serine/threonine kinases. 214 39

Activation of mononuclear phagocytes for a variety of functional responses is potentiated by prior exposure to IFN-gamma. Inasmuch as protein kinase C has been suggested to mediate several of these responses, we have examined the effects of IFN-gamma exposure on subsequent accumulation of sn-1,2-diacylglycerol (DAG). Exposure of murine macrophages to IFN-gamma (greater than 4 h) results in an increase in basal DAG as well as potentiating DAG accumulation in response to the macrophage chemoattractant, platelet-activating factor (PAF). An increased DAG accumulation was similarly observed in response to PMA and ionomycin. Our results further indicate that the increased DAG accumulation during activation of macrophages is unlikely to involve alterations in phosphatidylinositol metabolism. PAF-stimulated production of [3H]inositol phosphates was not altered by the prior exposure of macrophages to IFN-gamma. Similarly, IFN-gamma did not potentiate the ability of PAF to cause an increase in cytosolic calcium. Our data indicate that phosphatidylcholine metabolism may be involved in IFN-gamma-regulated DAG accumulation. Exposure of [3H]choline-labeled macrophages to IFN-gamma resulted in an increase in the basal level of aqueous [3H]choline metabolites as well as potentiating the production of [3H]choline in response to PAF, PMA, and ionomycin. Our results thus suggest that the potentiated protein kinase C-mediated responses occurring during macrophage activation may be due to potentiated DAG accumulation independent of potentiated phosphatidylinositol metabolism.
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PMID:IFN-gamma potentiates the accumulation of diacylglycerol in murine macrophages. 216 68

We examined the signal transduction mechanism responsible for the IFN-gamma-induced HLA class II molecule expressions on glioblastoma cell lines, T98G and A172. A series of experiments demonstrated that the activation of protein kinase C (PKC) is involved in the DR and DP molecule expressions on T98G cells. In addition to the activation of PKC, calcium influx appeared to be involved in the DR and DP molecule expressions on T98G. Northern blot analyses with actinomycin D or cycloheximide revealed that these second messengers induce the transcription of DRA and B and DPA and B genes without de novo protein synthesis. Furthermore, we examined the region of the DPB gene that is responsible for IFN-gamma-induced gene transcription by gene transfer of a series of 5' and 3' deletion mutants in which the upstream region of the DPB was linked to a reporter gene, chloramphenicol acetyltransferase. By using these deletion mutants, it appeared that the region between -152 and -126 bp contains a critical IFN-gamma-responsive element. Taken together, these results suggest that IFN-gamma activates PKC and stimulates calcium influx, resulting in the induction of transcription of DRA and B and DPA and B genes without de novo protein synthesis. In DPB gene, we speculate that preexiting protein(s) phosphorylated by PKC in the presence of Ca2+ might directly bind or indirectly interact with the region between -152 and -126 bp of the upstream sequence, leading to the induction of the transcription (possibly in concert with other nuclear protein(s) bound to the promoter sequences).
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PMID:Regulation of HLA class II molecule expressions by IFN-gamma. The signal transduction mechanism in glioblastoma cell lines. 221 76

We have studied the ability of human peripheral blood mononuclear cells (PBMC) to produce interferon-alpha (IFN-alpha) and IFN-gamma in the presence of pharmacologic agents known to influence calcium transport or calcium-dependent processes. We have found that the production of human (Hu) IFN-gamma is affected significantly by alterations in calcium flux; however, this influence is dependent upon the nature of the compound used to induce IFN. Inhibitors of protein kinase C decreased yields of IFN-gamma but inhibition of calmodulin did not. The presence of vitamin D3 reduced IFN-gamma titers when PHA and IL-2 were used to induce IFN, but not when ionomycin was used as the inducer. The production of IFN-gamma by PBMC was reduced by diminished concentrations in extracellular calcium but not extracellular magnesium. In contrast, neither the presence of any of the pharmacological agents tested above nor the reduction of the calcium concentration influenced the production of HuIFN-alpha by PBMC.
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PMID:Calcium and the production of interferon by human peripheral blood mononuclear cells. 246 90


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