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

Thrombin, the key regulatory protein of hemostasis, has been implicated in a variety of important endothelial cell processes closely linked to endothelial signal transduction mechanisms. An initial event, following receptor binding by catalytically active alpha-thrombin, appears to be the activation of a G-protein-coupled, PI-specific PLC, with resultant generation of IP3 and DAG, with increases in [Ca2+]i, and activation and translocation of PKC (Fig. 9). PKC activation results in down-regulation of PLC, as demonstrated by inhibition of agonist-induced increases in [Ca2+]i, whereas PLA2 activity is up-regulated, with a resultant increase in endothelial PGI2 synthesis. Recently, we have demonstrated that activity of membrane-bound, endothelial PLD, is also up-regulated by PKC activation. In addition to its modulatory role in endothelial cell phospholipase activities, PKC activation appears to play a critical role in thrombin-mediated endothelial barrier dysfunction, likely via specific cytoskeletal protein phosphorylation. A temporal relationship between alpha-thrombin-mediated signal transduction and specific cellular responses, such as PGI2 synthesis and barrier dysfunction, can be established (Fig. 2). Further investigations are ongoing to identify more clearly the precise biochemical intermediates involved in the endothelial cell response to thrombin, as well as the role of differential phosphorylation by various protein kinase systems in thrombin-mediated signal transduction in vascular endothelium.
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PMID:The role of protein kinase C in alpha-thrombin-mediated endothelial cell activation. 157 13

Although the translocation of protein kinase C and phospholipase A2 are well documented, no information is available about the possible down-modulation of transmembrane phospholipase C. We found that TPA induced a dose-dependent (10-200 nM) and time-dependent (15 min-6 h) down-modulation of transmembrane phosphoinositidase C (PLC-PI) on lymphoid cells (CEM-CM3 and WIL2-NS) and epitheloid carcinoma cells (HeLa S3) but not on human fibroblasts (MRC-5). Cell-surface expression of PLC-PI on intact cells was assayed by flow cytometry using saturating concentrations of polyclonal anti-PLC-PI antibodies and phycoerythrin-conjugate. A control phorbol-ester which does not activate protein kinase C (PKC) had no internalization effect on PLC-PI. PKC inhibitors staurosporine (2.5 nM) and H-7 (10 microM) partially inhibited the TPA effect. Cytochalasin B (40 micrograms/ml) did not modify the TPA-induced PLC-PI down-modulation. The effect of TPA on PLC-PI seems quite specific since no internalization was induced by TPA on transmembrane phosphatidylcholine-preferring PLC expression. These results show that TPA can translocate the membrane-bound PLC-PI, probably by PKC activation.
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PMID:Topological regulation of cell-membrane phosphoinositidase C. 165 Jan 98

Phosphoinositide-specific phospholipase C (PI-PLC) activity in whole homogenates of mouse pancreatic islets decreased 60-85% when the homogenates were incubated at 37 degrees C for 1 h in the presence of down to micromolar concentrations of Ca2+. Ca(2+)-induced inactivation was augmented by calmodulin, the phorbol ester 12-O-tetradecanoylphorbol 13-acetate in the presence of ATP-Mg, and by Mg2+. Inactivation was inhibited when ATP was removed and completely abolished by trifluoperazine and EGTA. Inactivation was not affected by the non-phosphorylating ATP analogue, AMP-PCP, GMP-PNP, glucose, Zn2+ or a series of protease inhibitors. These observations suggest that PI-PLC in broken cell preparations of pancreatic islets may be inactivated via phosphorylation by Ca(2+)-calmodulin-stimulated protein kinase and/or protein kinase C. Inactivation of PI-PLC was reversible. Reactivation started after approx. 2 h incubation, when the concentration of ATP in the homogenate was below 0.15 x 10(-6) M. PI-PLC activity returned to values approx. 25% higher than the initial values. PI-PLC inactivation via phosphorylation by the mentioned protein kinases may constitute a feedback control on the phosphoinositide response, attenuating subsequent diacylglycerol formation and/or Ca2+ mobilization by inositol trisphosphate.
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PMID:Ca(2+)- and ATP-dependent reversible inactivation of pancreatic islet phosphoinositide-specific phospholipase C activity. 166 65

Fluoride elicited in liver macrophages a release of arachidonic acid and prostaglandins but not formation of inositol phosphates or superoxide. The effects of fluoride required extracellular calcium and were inhibited by staurosporine and by phorbol ester treatment of the cells. Furthermore, fluoride led to a translocation of protein kinase C from the cytosol to membranes. This indicates that the calcium-dependent protein kinase C is involved in the action of fluoride. Cholera toxin decreased the zymosan-induced release of arachidonic acid and prostaglandins but not of inositol phosphates or superoxide. Pertussis toxin ADP-ribosylated a 41,000 molecular weight membrane protein; enhanced specifically the zymosan-induced formation of prostaglandin(PG)E2 but did not affect the zymosan-induced release of arachidonic acid, PGD2, inositol phosphates or superoxide. These data suggest that activation of phospholipase (PL)A2, phosphoinositide (PI)-specific PLC and NADPH oxidase in liver macrophages is most probably not mediated by activation of guanine nucleotide binding (G)-proteins coupled directly to these enzymes.
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PMID:Effect of fluoride, pertussis and cholera toxin on the release of arachidonic acid and the formation of prostaglandin E2, D2, superoxide and inositol phosphates in rat liver macrophages. 166 39

Many of the concepts presented in this paper are summarized in Fig. 7. Some aspects are well supported while others are speculative. The operation of PLC in VSM is well established, and in some hypertensive models (AHR, SHRSP) PLC assays exhibited altered activation. Currently this pathway leading to the production of IP3 and DAG is considered to be the major regulator of Ca release from sarcoplasmic reticulum (SR) and Ca entry by channels (CaC). Regulation of PKC by [Ca]i and DAG is thought to play a major role in controlling Ca entry. PKC has also been proposed to regulate PLA2 as well as PLD in conjunction with elevated [Ca]i. An important issue to be resolved is whether receptor regulation of other lipases occurs independently of the PLC-[Ca]i-PKC axis. Currently information supporting receptor regulation is lacking for VSM, but few studies have been conducted. Our observation that NE stimulation of PLD activity occurs in VSM indicates that the control of VSM by biochemical messengers is much more complicated than previously proposed. This seemingly redundant pathway may allow VSM to use alternate substrates for producing PA and DAG than are readily available to PLC. It also allows PA to be produced directly without phosphorylation of DAG. Although the role of PA in the regulation of Ca entry was proposed earlier, definitive studies establishing this linkage are still required. Any PLD activity on PIP2 would produce biochemical messengers (PA, DAG) which could stimulate Ca entry without producing the messenger, IP3, associated with Ca release (inactive IP2 would be produced). If PLC and PLD were independently regulated by receptor-guanine nucleotide-regulatory protein (G-protein) complexes, this would offer the potential for some agonists to excite VSM by Ca release and Ca entry mechanisms while others may excite by Ca entry alone. This system would also circumvent the problem of limited substrate for cellular regulation of [Ca]i if PIP2 were the primary substrate. This limitation does not exist with other phospholipids such as phosphatidylcholine which is a preferred substrate for PLD. The presence of multiple phospholipases under separate receptor regulation allows for a wider range of tissue responses to various agonists, than a system which is linked only through the PLC-[Ca]i-PKC axis. The presence of a PLD pathway also reopens the interpretation of previous studies which demonstrated a resetting between receptor occupancy and production of second messengers by PLC.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Altered phospholipase activities related to alpha 1-adrenergic receptor supersensitivity of aortas from aldosterone-salt hypertensive rats. 166 67

A number of cell-surface proteins are anchored by a phosphatidylinositol (PI)-glycan moiety. These proteins can be released by PI-specific phospholipases C (PI-PLC). Decay-accelerating factor (DAF) is such a cell-surface protein that protects cells from inadvertent complement attack by binding to and inactivating C3 and C5 convertases. We have studied the regulation of DAF synthesis in human umbilical vein endothelial cells (HUVEC), a cell that has the highest level of surface DAF among those human cells that have been studied. HUVEC DAF was measured by immunoradiometric assay of detergent extracts and of cell supernatants after treatment of cells with a bacterial (Bacillus thuringiensis) PI-PLC. Eighty percent of the HUVEC DAF (4 to 8 x 10(5) molecules/cell) was released by exogenously added PI-PLC, indicating that it is predominantly PI-anchored. The level of PI-PLC-sensitive HUVEC DAF was increased three- to fourfold by overnight treatment of cultures with the protein kinase C activators, PMA (1 to 10 nM), phorbol-12,13-dibutyrate (10 to 100 nM), and teleocidin A (1 to 10 nM) under conditions where cell number, protein, and lactate dehydrogenase remain unchanged. This DAF synthesis was blocked by the protein kinase C inhibitor K-252a in a dose-dependent manner (ED50 = 0.06 microM). The biologically inactive phorbols, 4-alpha-phorbol-12 myristate-13-acetate (1 microM) and 4-alpha-phorbol-12, 13-didecanoate (1 microM) did not increase DAF levels. The newly expressed DAF in PMA-stimulated cells was still largely PI-anchored. In contrast, another PI-anchored protein, alkaline phosphatase, was not altered by PMA treatment, demonstrating that the PMA effect is not uniform among all surface proteins. The increased expression of DAF only was evident 8 h after PMA addition and was blocked by the RNA and protein synthesis inhibitors, actinomycin D and cycloheximide, indicating that both transcription and translation are required for DAF synthesis induced by phorbol esters. It is concluded that protein kinase C activators cause selective induction of endothelial cell DAF and that DAF synthesis involves protein kinase C activation.
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PMID:Phorbol esters increase synthesis of decay-accelerating factor, a phosphatidylinositol-anchored surface protein, in human endothelial cells. 168 81

Recent studies have shown that the receptor for epidermal growth factor (EGF) can associate with and tyrosine-phosphorylate the gamma-isozyme of phosphoinositide (PtdIns)-specific phospholipase C (PLC gamma), suggesting a possible mechanism for activation of PtdIns hydrolysis by EGF. In the present study, the coupling between PtdIns hydrolysis and PLC gamma tyrosine phosphorylation in WB liver epithelial cells was examined. Peak levels of [P-Tyr]PLC gamma, measured by anti-P-Tyr immunoblotting, occurred at 0.5-2 min of EGF treatment and coincided with the onset of [3H]inositol phosphate production. The termination of PtdIns hydrolysis after EGF stimulation was accompanied by return of [P-Tyr]PLC gamma to near-basal levels. Activation of protein kinase C (PKC) with a phorbol ester inhibited (IC50 = 3-10 nM) both EGF-dependent PtdIns hydrolysis and PLC gamma phosphorylation by more than 90%. Both EGF-stimulated responses were potentiated in cells depleted of PKC by prolonged phorbol ester treatment. At physiological ionic strength, monoclonal antibodies to PLC gamma specifically precipitated (in addition to PLC gamma) the EGF receptor and at least six other [P-Tyr]proteins from extracts of EGF-treated cells. PKC activation had differential effects on the tyrosine phosphorylation of these coprecipitating proteins, i.e. the relative abundance of certain [P-Tyr] proteins decreased, whereas that of another protein increased. In conclusion, EGF-stimulated tyrosine phosphorylation of PLC gamma is broadly correlated with stimulation of PtdIns hydrolysis, consistent with a role for tyrosine phosphorylation in PLC activation. The attendant diacylglycerol release and activation of PKC may terminate PLC gamma activation, in part by inhibiting PLC gamma phosphorylation by the EGF receptor. Our results suggest further that PKC may exert regulatory effects by altering the relationship of PLC gamma to its associated [P-Tyr]proteins.
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PMID:Protein kinase C inhibits epidermal growth factor-dependent tyrosine phosphorylation of phospholipase C gamma and activation of phosphoinositide hydrolysis. 169 45

Platelet activation by the prostaglandin endoperoxide (PGH2)/thromboxane (Tx) A2 analog, U46619, involves stimulation of phospholipase (PL) C and an increase in intracellular calcium via distinct receptor subtypes. Agents which stimulate adenylate cyclase inhibit platelet function. We demonstrate that PGH2/TxA2 receptor desensitization is associated with enhanced stimulation of platelet cyclic AMP by the prostacyclin analog, iloprost and by forskolin. Sensitization of adenylate cyclase is mediated via the PGH2/TxA2 receptor subtype which activates PLC, as it is blocked by the specific antagonist, GR32191 (Takahara, K., Murray, R., FitzGerald, G. A., and Fitzgerald, D. J. (1990) J. Biol. Chem. 265, 6838-6844). This effect is not observed in platelets desensitized with thrombin or platelet activating factor and is not mediated by protein kinase C. Prior exposure of platelets to platelet activating factor results in much greater desensitization of PGH2/TxA2-induced aggregation (mean 64%) compared with calcium stimulation (mean 18%), consistent with selective heterologous desensitization of the PLC-linked PGH2/TxA2 receptor subtype. Platelet activation by PGH2/TxA2 is a tightly regulated process, involving both homologous desensitization of at least two receptor subtypes and sensitization of the platelet adenylase cyclase system.
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PMID:Prostaglandin endoperoxide/thromboxane A2 receptor desensitization. Cross-talk with adenylate cyclase in human platelets. 170 35

PLC/PRF/5 human hepatoma cells cultured with teleocidin reduced the rate of cell proliferation and were transformed into large cells with many vacuole-like subcellular structures. In these vacuolated cells, the protein content per cell increased without changing the total cellular protein synthesis. Cytokeratin was one of the proteins which increased quantitatively. This intermediate filament formed fibrous network structures throughout the enlarged cytoplasm. The assembly of other cytoskeletal proteins such as actin, tubulin, and vimentin was not altered remarkably, suggesting that teleocidin morphologically transformed the hepatoma cells by changing the assembly of cytokeratin protein selectively. On the other hand, the alterations of cell proliferation, cell morphology, and cytokeratin assembly induced by teleocidin were not associated with either down-regulation of protein kinase C or reduced number of epidermal growth factor receptors. In addition, these teleocidin effects were not mimicked by the protein kinase C agonist 1-oleoyl-2-acetylglycerol or inhibited by the protein kinase C inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine. From these results it can be speculated that the morphological transformation and reduced cell proliferation induced by teleocidin may be mediated by still unknown mechanisms unrelated to protein kinase C.
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PMID:Vacuole formation and cytokeratin rearrangement of hepatoma cells induced by teleocidin are not associated with down-regulation of protein kinase C. 170 98

We have previously shown that two ectoenzymes, acetylcholinesterase (AChE) and alkaline phosphatase, are released from the surface and from particulate fractions of the parasite Schistosoma mansoni, by a phosphatidylinositol-specific phospholipase C (PtdIns-PLC) of bacterial origin. Exposure to PtdIns-PLC not only removes large amounts of AChE from the surface of intact, viable Schistosoma in culture, but is accompanied by a concomitant increase in overall levels of AChE in the parasite. The same phenomenon is observed with PtdIns-PLC from two different bacterial sources; Staphylococcus aureus and Bacillus thuringiensis. The increase in AChE levels may be ascribed to de novo synthesis since exposure to PtdIns-PLC, in the presence of the protein-synthesis inhibitor cycloheximide, totally blocked the increase in AChE activity. Furthermore, PtdIns-PLC induced an increased incorporation of [35S]methionine into the AChE immunoprecipitated by a specific anti-AChE serum. This increase is selective for AChE, since total protein synthesis remained almost unchanged after PtdIns-PLC addition, and little or no effect was observed on the enzymatic activity of alkaline phosphatase, which is also glycophosphatidylinositol anchored. Since cleavage of the phosphatidylinositol anchor by PtdIns-PLC should liberate diacylglycerol, which may act as second messenger, we investigated the effect of exogenous diacylglycerols on the synthesis of AChE in S. mansoni. Three different diacylglycerols were tested as possible inducers of AChE activity in the parasite. Both 1-oleoyl-2-acetyl-sn-glycerol and 1,2-dimyristoyl-sn-glycerol were able to increase AChE activity by 35-40% at concentrations of 25 micrograms/ml. A higher concentration of 1,2-dioctanoyl-sn-glycerol (70 micrograms/ml) was needed to produce an equivalent effect. Moreover, addition of phorbol-12-myristate-13-acetate, together with the calcium ionophore A23187, produced a similar increase in AChE activity. Finally, polymixin B, a specific inhibitor of protein kinase C, partially blocked the increase in AChE activity induced by PtdIns-PLC. Our results suggest the involvement of glycophosphatidyl membrane-anchor breakdown products as putative second messengers in the parasite S. mansoni.
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PMID:Phosphatidylinositol-specific phospholipase C induces biosynthesis of acetylcholinesterase via diacylglycerol in Schistosoma mansoni. 184 73


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