EC:2.7.11.13 - FACTA Search

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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)

Human interferon-gamma (IFN-gamma) is an important immunomodulatory protein produced predominantly by T cells and large granular lymphocytes (LGLs). Whereas large amounts of data have been accumulated regarding IFN gamma gene expression in these two cell types, little information about IFN gamma expression in other cell types exists. In this study, we have analyzed the production of IFN gamma by the Epstein-Barr virus (EBV)-positive B-cell line, JLP(c), derived from a patient with Burkitt's lymphoma, and another human B-cell line, PA682BM-1, which was derived from an acquired immunodeficiency syndrome patient. Southern blot analysis indicates the presence of an Ig heavy chain gene rearrangement, but no rearrangement of the T-cell receptor beta chain gene or IFN gamma gene in these B-cell lines. Both cell lines were found to express surface IgD and other B-cell surface markers, thus confirming their B-cell lineage. Analysis for surface Ig, cytoplasmic Ig, and secreted Ig indicates that the two cell lines are in relatively early stages of the B-cell differentiation pathway. We now report that PA682BM-1 can be triggered by the protein kinase C (PKC) activators, phorbol 12-myristate 13-acetate (PMA) and (-)Indolactam-v, to secrete IFN gamma, whereas JLP(c) cells spontaneously produce low levels of IFN gamma that can be enhanced by PKC activators and interleukin-2 (IL-2). After activation of the cell lines with IL-2, (-)Indolactam-v, and PMA, increases in cytoplasmic messenger RNAs (mRNAs) of IFN gamma and the IL-2 receptor chains were also observed. The induction of IFN gamma mRNA and protein by IL-2 was completely blocked by a monoclonal antibody to IL-2 receptor p75 (beta chain), but not by the monoclonal antibody to p55 (alpha chain). Analysis of IFN gamma genomic DNA indicates that the gene is not amplified, but that hypomethylation in the 5' noncoding region of the IFN gamma gene has occurred in the B-cell line from the Burkitt's lymphoma patient that spontaneously produces IFN gamma. This finding suggests that the methylation state of the promoter region may play an important role in the control of IFN gamma gene expression in B cells.
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PMID:Interferon-gamma gene expression in human B-cell lines: induction by interleukin-2, protein kinase C activators, and possible effect of hypomethylation on gene regulation. 132 3

The numerous biological activities of tumor necrosis factor (TNF) appear mediated by two types of receptors of 55 kDa (TR55) and 75 kDa (TR75) molecular mass. To test TR55 for its individual role in signaling across the membrane, a cDNA coding for the human TR55 was stably expressed in murine 70Z/3 pre-B cells, which lack binding sites for, and proved nonresponsive to human TNF. The transfected TR55 showed high affinity ligand binding and active internalization. It is demonstrated that the TNF signaling cascade, i.e. stimulation of protein kinase C, sphingomyelinase, and phospholipase A2, production of the second messengers diacylglycerol and ceramide, can occur completely through exclusive binding of TNF to TR55. The p55 TNF-binding site functions as an autonomous TNF receptor that mediates key signal transduction pathways, which may control the majority of TNF actions.
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PMID:Human 55-kDa receptor for tumor necrosis factor coupled to signal transduction cascades. 132 55

Okadaic acid is a potent tumor promoter and an inhibitor of serine/threonine-specific protein phosphatases. We studied the effect of okadaic acid in human T cell activation and phosphorylation of internal substrates. Okadaic acid at up to 4 nM enhanced phorbol myristate acetate (PMA)-induced proliferation and CD25 (IL-2 receptor, p55) expression, although it showed no activation by itself. Okadaic acid induced hyperphosphorylation of a 60 kDa protein in T cells as well as non-T cells, as reported in fibroblasts and keratinocytes. Preincubation with 4 nM okadaic acid enhanced PMA induced phosphorylation of the 80 kDa protein, an internal substrate of protein kinase C in T cells. These results suggest that okadaic acid inhibited dephosphorylation of protein kinase C specific substrates, and as a result, enhanced T cell activation mediated by protein kinase C pathway.
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PMID:Okadaic acid enhances human T cell activation and phosphorylation of an internal substrate induced by phorbol myristate acetate. 133 55

Anti-lymphocyte and anti-thymocyte globulins (ATG) are currently used as immunosuppressive agents in organ transplantation. Their administration in vivo may induce not only lymphocyte depletion but also functional effects which were investigated in the present study. In vitro ATG inhibited T-cell proliferation induced by monocyte-dependent T-cell mitogens, like CD3 antibodies, phytohaemagglutinin (PHA) and concanavalin A (Con A), by monocyte-independent mitogens, like CD2 antibodies, or by protein kinase C activators (phorbol esters) associated with a calcium ionophore. The inhibitory effect of ATG was therefore not solely accounted for by a suppression of co-stimulatory signals delivered by monocytes, but rather implied a direct action on T cells. Addition of recombinant human interleukin-2 (rIL-2) did not overcome the inhibition. Suppression of T-cell proliferation by ATG was characterized by normal RNA synthesis and IL-2 secretion contrasting with markedly reduced expression of the CD25 protein [p55, the alpha-chain of interleukin-2 receptor (IL-2R)] both in cytoplasm and on T-cell membrane, as well as a decreased secretion of interferon-gamma (IFN-gamma). Northern blot analysis revealed increased levels of CD25 and IFN-gamma mRNA, suggesting a post-transcriptional inhibition of these molecules, whereas IL-2 mRNA levels were unchanged. These data demonstrate that inhibition of T-cell proliferation by ATG can be attributed primarily to a post-transcriptional defect of CD25 expression, implying a novel mechanism different from those described with other immunosuppressive agents. Blocking of T-cell proliferation in the late G1 phase of the cell cycle may contribute to the immunosuppressive activity of ATG in prophylactic treatment of allograft rejection.
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PMID:Inhibition of CD25 (IL-2R alpha) expression and T-cell proliferation by polyclonal anti-thymocyte globulins. 139 65

Murine thymocytes were stimulated with the protein kinase C activating agents Phorbol-12-myristate-13-acetate (PMA) or a more physiological membrane permeant diacylglycerol (dioctanoyl-sn-glycerol, DiC8) in the presence or absence of exogenous lymphokines (rIL-1 beta, rIL-2). Whereas PMA directly induced reactivity to rIL-2, DiC8 did not but had to synergize with the calcium ionophore Ionomycin. Expression of the p55 chain of the IL-2 receptor behaved similarly. In the absence of exogenous rIL-2, thymocytes proliferated in response to a combination of Ionomycin and PMA; however, replacing PMA by a single addition of DiC8 did not result in proliferation. Stimulation with Ionomycin plus repeated addition of DiC8 induced a low level of thymocyte proliferation and further addition of rIL-1 beta resulted in a significant increase. Purified immature (L3T4-Lyt2-) thymocytes behaved similarly, but showed an increased sensitivity to rIL-1 beta. Taken together, the data support the idea that PMA and the more physiological diacylglycerols do not possess totally equivalent activities in lymphocyte stimulation.
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PMID:Distinct effects of phorbol esters and exogenous diacylglycerols in the induction of murine thymocyte proliferation. 156 51

We examined the effects of phorbol esters on the expression of interleukin 2 receptors (IL-2R) in T cell clones. By flow cytometric analysis, we found that phorbol esters up-regulated IL-2R p55 expression, while they down-regulated p75 expression. The expression of IL-2R p55 in T cell clones treated with phorbol esters showed an initial transient and marginal decrease, which was followed by a progressive increase after 6 h of incubation. On the other hand, the expression of IL-2R p75 progressively decreased to a minimum plateau level. Down-regulation of p75 was also revealed in cells treated with diacylglycerols instead of phorbol esters, but there was no up-regulation of p55 in these cells. Moreover, in the presence of cycloheximide, phorbol esters down-regulated p75 expression but did not up-regulate p55 expression. Therefore, it seems that a transient activation of protein kinase C (PKC) is sufficient to down-regulate p75, but not to up-regulate p55, and that a novel protein synthesis is required to increase p55 expression.
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PMID:Phorbol esters up-regulate p55 and down-regulate p75 expression of interleukin-2 receptors in human T cells. 158 84

Tumor necrosis factor (TNF) is a proinflammatory polypeptide that is able to induce a great diversity of cellular responses via modulating the expression of a number of different genes. One major pathway by which TNF receptors communicate signals from the membrane to the cell nucleus involves protein kinase C (PKC). In the present study, we have addressed the molecular mechanism of TNF-induced PKC activation. To this, membrane lipids of the human histiocytic cell line U937 were labeled by incubation with various radioactive precursors, and TNF-induced changes in phospholipid, neutral lipid, and water-soluble metabolites were analyzed by thin layer chromatography. TNF treatment of U937 cells resulted in a rapid and transient increase of 1'2'diacylglycerol (DAG), a well-known activator of PKC. The increase in DAG was detectable as early as 15 s after TNF treatment and peaked at 60 s. DAG increments were most pronounced (approximately 360% of basal levels) when cells were preincubated with [14C]lysophosphatidylcholine, which was predominantly incorporated into the phosphatidylcholine (PC) pool of the plasma-membranes. Further extensive examination of changes in metabolically labeled phospholipids indicated that TNF-stimulated hydrolysis of PC is accompanied by the generation of phosphorylcholine and DAG. These results suggest the operation of a PC-specific phospholipase C. Since no changes in phosphatidic acid (PA) and choline were observed and the production of DAG by TNF could not be blocked by either propranolol or ethanol, a combined activation of phospholipase D and PA-phosphohydrolase in DAG production appears unlikely. TNF-stimulated DAG production as well as PKC activation could be blocked by the phospholipase inhibitor p-bromophenacylbromide (BPB). Since BPB did not inactivate PKC directly, these findings underscore that TNF activates PKC via formation of DAG. TNF stimulation of DAG production could be inhibited by preincubation of cells with a monoclonal anti-TNF receptor (p55-60) antibody, indicating that activation of a PC-specific phospholipase C is a TNF receptor-mediated event.
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PMID:Tumor necrosis factor induces rapid production of 1'2'diacylglycerol by a phosphatidylcholine-specific phospholipase C. 165 88

Monoclonal antibodies (mAb) identifying the CD5 antigen were used to stimulate human peripheral blood T lymphocytes. Three out of three anti-CD5 mAb, 10.2, OKT1 and anti-Leu-1 induced vigorous proliferation of purified T cells in the presence of 1.6 nM phorbol 12-myristate 13-acetate (PMA). Immobilization of anti-CD5 mAb on a solid support was necessary for the induction of a proliferative response. Neither 1.6 nM PMA, nor immobilized anti-CD5 mAb were mitogenic as a sole stimulus. mAb identifying CD4, CD7, CD11a, CD18, and major histocompatibility complex class I molecules were not comitogenic with PMA. Anti-CD5/PMA-induced cell proliferation proceeded by an interleukin 2 (IL 2)-dependent mechanism, as was demonstrated by the cell surface expression of the p55 chain of the IL 2 receptor (IL 2R), the production of IL 2 and the inhibition of the proliferative response by anti-IL 2R mAb anti-Tac. There was no strict requirement for detectable numbers of monocytes, although cell proliferation could be enhanced by the monocyte-derived cytokines IL 1 and IL 6. Phorbol 12,13-dibutyrate and mezerein could substitute for PMA in this activation pathway, but synthetic diacylglycerols and phorbol esters that do not activate protein kinase C (PKC) could not, indicating a need for prolonged activation of PKC. T cells activated by anti-CD5/PMA are sensitive to inhibition by cyclosporin A (CsA) and by prostaglandin E2 (PGE2). This contrasts with anti-CD28/PMA-induced T cell proliferation, which is resistant to CsA and PGE2. Cell surface expression of CD5 was strongly up-regulated by PMA, whereas CD3 expression was down-regulated. We conclude that T cell activation can be triggered by engagement of CD5 by immobilized anti-CD5 mAb, combined with prolonged activation of PKC. These data support a role for CD5 as an independent signal transducing molecule.
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PMID:Immobilized anti-CD5 together with prolonged activation of protein kinase C induce interleukin 2-dependent T cell growth: evidence for signal transduction through CD5. 170 9

We have studied the effects of phorbol-dibutyrate (PBu2), a protein kinase C (PKC) activator, on the proliferation of peripheral human T cells and thymocyte subpopulations selected by treatment with monoclonal antibodies and complement: pre-thymocytes (CD1a-CD3-CD4-CD8-), cortical thymocytes (CD3-, class I- antigens) and medullary thymocytes (enriched as CD1a- cells). PBu2 induces a dose-dependent proliferative response in human peripheral blood T cells at concentrations greater than 6 ng/ml, this proliferation being mediated by the autocrine interleukin 2 (IL2)/IL2 receptor (IL2R) pathway. Pre-thymocytes respond to PBu2 in a way similar to T cells, being able to secrete IL2 in significant amounts and express the p55 chain of IL2R. On the other hand, cortical thymocytes are not induced to proliferate after PKC activation and neither expression of the p55 chain of IL2R nor IL2 secretion is observed. Human medullary thymocytes, phenotypically identical to peripheral blood T cells, show no proliferation in response to PBu2 at any concentration tested unless IL2 is supplied to the cultures. The activation of PKC induces the expression of IL2R in these cells, but not IL2 secretion. The implications of PKC activation in thymic maturation, the role of IL2 and the relevance of the differences between medullary thymocytes and peripheral blood T cells are discussed.
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PMID:Proliferative responses induced by the activation of protein kinase C during the development of human T lymphocytes. 199 83

A human T-leukaemic cell line, HSB.2-C5B2, which produces high levels of interleukin-2 (IL-2) and interferon-gamma (IFN-gamma) when stimulated with phytohaemagglutinin (PHA) plus IL-1, was recloned to obtain spontaneous variants in IL-2 production in response to the stimuli. In these subclones, the ability of one clone to produce IL-2 correlated well with that to produce IFN-gamma. Three C5B2 subclones: clone no. 28, a high IL-2 producer, clone no. 61, an intermediate IL-2 producer, and clone no. 40, a non-producer, were selected and examined for differences in signal transduction mechanisms. Since the three subclones were shown to express about the same number of IL-1 binding sites with similar affinities, the loss of ability to produce IL-2 was not due to decreased cell-surface receptor or changes in receptor property. In support of this, IL-1 induced expression of the IL-2 receptor (Tac/p55 antigen) to the same extent on the three subclones. The levels of conventional intracellular second messengers were compared and it was revealed that loss of responsiveness was closely related to the subclones' degree of (poly)phosphoinositide (PI) turnover, protein kinase C (PKC) activation and cyclic AMP formation in response to PHA. Moreover, resting intracellular cyclic AMP concentrations were found to be increased in subclones with attenuated IL-2 production. These results indicate that the variation of IL-1-induced production of IL-2 and IFN-gamma in this T-cell line is attributed to the difference in the PHA-mediated signal transduction pathway and, presumably, to the different regulation of intracellular cyclic AMP.
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PMID:IL-1-induced production of IL-2 and IFN-gamma in subclones of human T-cell derived leukaemia HSB.2 cells: regulation by phytohaemagglutinin-mediated (poly)phosphoinositide breakdown and cyclic AMP. 217 58

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