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)

Multiple (at least seven) steps are involved in GnRH-induced gonadotropin secretion and gonadotropin gene expression. After binding to specific receptors located exclusively on pituitary gonadotrophs, GnRH stimulates a rapid phosphodiesteric hydrolysis of phosphoinositides for which no rise in [Ca2+]i is required. Activation of PLC is most likely mediated by a pertussis toxin-insensitive GTP-binding protein (Gp). In its activated state (Gp-GTP) the binding affinity of GnRH to is receptor is reduced. Rapid formation of IP3 will enhance Ca2+ release from intracellular sources most likely via a specific IP3 receptor. The transient Ca2+ rise might be responsible for a burst phase of LH release lasting for about 100 sec, which is not dependent on extracellular Ca2+. The backbone moiety of the phosphoinositides, DG, and the elevated [Ca2+]i are most likely responsible for translocation of PKC subspecies from the cytosol to the membrane. The most likely candidates are alpha- and beta II-PKC. The activated PKC subspecies phosphorylate substrate proteins which activate secretory reactions and participate in gonadotropin gene expression. In parallel Ca2(+)-influx via nifedipine-sensitive and insensitive channels further elevates [Ca2+]i, which participates in the sustained phase of gonadotropin secretion in concert with the activated PKCs. GnRH also triggers the release of AA and the formation of lipoxygenase and/or epoxygenase products of the fatty acid which are also involved in the process of the exocytosis. We predict that the continuous supply of DG and AA needed for GnRH action is also provided via activated PLD which will also supply phosphatidic acid, the role of which is as yet unclear. The interaction of the various second messengers involved in GnRH action (IP3, Ca2+, DG, AA) and their relative roles in gonadotropin secretion and gonadotropin gene expression await further investigation. In several aspects GnRH action on gonadotropin secretion is unique when compared to other Ca2(+)-mobilizing ligands: 1) At physiological concentrations GnRH up-regulates its own receptors whereas most ligands down-regulate the respective receptor; 2) PKC up-regulates GnRH receptors whereas in most cases PKC down-regulates the ligand receptor; 3) GnRH stimulation of PLC activity is most likely mediated by Gp whereas some Ca2(+)-mobilizing ligands operate via Gi; 4) Activated PKC does not exert negative feedback upon GnRH-induced inositol phosphate production as is the case with several other peptides; 5) Activated PKC might be responsible for Ca2+ influx whereas in several other systems PKC is inhibitory to Ca2+ influx.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Signal transduction mechanisms of Ca2+ mobilizing hormones: the case of gonadotropin-releasing hormone. 219 85

Studies of phosphatidylinositol signaling pathways are entering a new phase in which molecular genetic techniques are providing powerful tools to dissect the functions of various metabolites and pathways. Studies with phospholipase C are most advanced and clearly indicate that phosphatidylinositol turnover is critical for vision in Drosophila and cell proliferation in various cultured cells. Expression of cDNA constructs and microinjection of PLC or antibodies against it clearly establish a role for PtdIns signaling distinct from its role in calcium mobilization and protein kinase C activation. The importance of inositol cyclic phosphates is also beginning to be realized from the study of cyclic hydrolase using similar techniques. Elucidation of the function of the 3-phosphate inositol phospholipid pathway awaits similar studies. The recent cDNA cloning of inositol monophosphatase (Diehl et al., 1990), Ins(1,4,5)P3 3-kinase (Choi et al., 1990), and inositol polyphosphate 1-phosphatase (York and Majerus, 1991) should provide tools to define further the cell biology of the phosphatidylinositol signaling pathway.
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PMID:Recent insights in phosphatidylinositol signaling. 222 61

Cytosolic calcium is a key determinant of the contractile state of airway smooth muscle (ASM). To investigate the mechanisms by which histamine affects cytosolic calcium, we measured changes in inositol 1,4,5-trisphosphate (IP3) following the addition of histamine to cultured canine ASM cells. The effect of phorbol 12-myristate 13-acetate (PMA) on IP3 formation was investigated under conditions previously shown to abolish histamine-induced calcium release. In both intact cells and ASM membranes, histamine produced a significant increase in IP3 formation, which was inhibited by PMA. The site of this blockade was investigated by examining the effect of PMA on guanine nucleotide-stimulated IP3 formation and on phosphoinositide-specific phospholipase C (PI-PLC) activity in ASM membranes. Guanine nucleotide-stimulated IP3 formation was inhibited by PMA pretreatment. Membrane-associated PI-PLC activity was also decreased, an effect that was not due simply to a shift in the calcium sensitivity of the enzyme. We conclude that in cultured canine ASM cells, PMA blocks histamine-induced IP3 formation and that this inhibition is caused, in part, by a postreceptor site of action of protein kinase C, possibly via a direct effect on PI-PLC.
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PMID:Mechanism of phorbol ester inhibition of histamine-induced IP3 formation in cultured airway smooth muscle. 250 87

It has been hypothesized on the basis of studies on BC3H-1 myocytes that diacylglycerol generation with activation of protein kinase C (PKC) is involved in the stimulation of glucose transport in muscle by insulin (Standaert, M. L., Farese, R. V., Cooper, R. D., and Pollet, R. J. (1988) J. Biol. Chem. 263, 8696-8705). In the present study, we used the rat epitrochlearis muscle to evaluate the possibility that PKC activity mediates the stimulation of glucose transport by insulin in mammalian skeletal muscle. Phospholipase C from Clostridium perfringens (PLC-Cp), which generates diacylglycerol from membrane phospholipids, and 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) induced increases in glucose transport activity (assessed using 3-O-methylglucose transport) that were approximately 80 and approximately 20% as great, respectively, as that induced by a maximal insulin stimulus. PLC-Cp and PMA both caused a approximately 2-fold increase in membrane-associated PKC activity. In contrast, insulin did not affect PKC activity. These findings argue against a role of diacylglycerol-mediated PKC activation in the stimulation of skeletal muscle glucose transport by insulin. They also show that the BC3H-1 myocyte is not a good model for studying regulation of glucose transport in skeletal muscle. Neither the submaximal nor maximal effects of PLC-Cp and insulin on glucose transport were additive, suggesting that PLC-Cp interferes with insulin action. The maximal effects of PLC-Cp and hypoxia or muscle contractions were also not additive. However, the submaximal effects of hypoxia and PLC-Cp were completely additive. These findings raise the possibility that PLC-Cp stimulates glucose transport by the exercise/hypoxia-activated, not the insulin-activated, pathway in skeletal muscle. Exposure to PLC-Cp activated glycogen phosphorylase and potentiated twitch tension in response to electrical stimulation, providing evidence that PLC-Cp increases cytoplasmic Ca2+ concentration. Dantrolene, an inhibitor of Ca2+ release from the sarcoplasmic reticulum, completely blocked both the activation of phosphorylase and the stimulation of glucose transport by PLC-Cp. These findings provide evidence that an increase in cytoplasmic Ca2+ concentration is involved in the activation of glucose transport in skeletal muscle by PLC-Cp.
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PMID:Activation of glucose transport in skeletal muscle by phospholipase C and phorbol ester. Evaluation of the regulatory roles of protein kinase C and calcium. 260 81

Several hormones act at the cellular level to increase diacylglycerol via increased catabolism of phosphatidylinositol by phospholipase C. Diacylglycerol stimulates protein kinase C, leading to protein phosphorylation and hormone action. Since phospholipase C activity has not been well studied in man, we have established an assay for phospholipase C in human neutrophils. In this assay sonicates of neutrophils were incubated with L-3-phosphatidyl-[U 14C]-inositol and the incubation mixture extracted with chloroform/methanol. Following the additions of 2 mol/l KCl and chloroform, phospholipase C activity was determined by counting [14C] in the aqueous phase. The phospholipase C activity was linear with respect to time and the quantity of added enzyme. Optimum substrate concentration and pH were 2 mmol/l and 7.0, respectively. Optimal activity was dependent on Ca2+ (2 mmol/l) and deoxycholate (2 mmol/l). Naloxone, and PGD2, which affect various aspects of leucocyte function, had no significant effects on neutrophil PLC activity. The effects of various compounds with phospholipase A2 inhibitory activity were also tested on this enzyme. Of these, mepacrine, lidocaine and indomethacin inhibited the enzyme activity. The inhibition by indomethacin was of the noncompetitive type with an apparent Km of 0.17 X 10(-6) mol/l and apparent Ki of 3.6 X 10(-6) mol/l. From these data we conclude that indomethacin is capable of inhibiting phospholipase C activity in neutrophils at clinically significant levels and that this may be relevant in the therapeutic action of this drug.
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PMID:Phospholipase C activity in human polymorphonuclear leukocytes: partial characterization and effect of indomethacin. 263 Feb 90

A prolonged (at least 2-4 hr) elevation of [Ca2+]i accompanies early T cell activation by TCR/CD3-specific ligands. Ca2+ is generally thought to be an essential second messenger for early activation, but the precise molecular events contingent upon the Ca2+ signal remain to be determined. The Ca2+ signal can be separated into an early transient peak due to InsP3-released Ca2+ from intracellular stores, and a sustained plateau due to altered transmembrane Ca2+ flux. Patch clamp studies have identified an InsP3-activated, Ca2+ permeable channel in the plasma membrane of T lymphocytes that may be responsible for the sustained elevation of [Ca2+]i during continuous TCR/CD3 occupancy. The Ca2+ signal can be further resolved at the level of the single cell into a series of repetitive oscillations between peak and trough levels with a period of 16-20 s. The oscillations may be part of a frequency-encoded signaling system. Several nonlinear internal feedback controls may contribute to the periodic nature of the Ca2+ signal: PKC-mediated phosphorylation of the CD3 gamma subunit, which is a feedback inhibitor of TCR/CD3 function; amplification of Ca2+ release from endoplasmic reticulum by a highly cooperative step in the opening of Ca2+ channels by InsP3, and Ca2+-dependent feedback enhancement of PLC function; autoregulatory negative feedback on Ca2+ influx by Ca2+, both by a direct effect on the plasma membrane Ca2+ channel and by induction of membrane hyperpolarization secondary to Ca2+-activated K+ efflux. In addition, several other internal feedback controls on TCR/CD3 function, by CD4-induced tyrosine-specific phosphorylation of the CD3 zeta subunit, or on the Ca2+ signal, by extracellular Cl- or by GM1 gangliosides, are also postulated. The question of whether a G protein couples TCR/CD3 to PI hydrolysis and to Ca2+ mobilization is unresolved, although some indirect evidence for the involvement of GTP binding proteins in T cell activation has recently been obtained with cholera toxin. There is also preliminary evidence that TCR/CD3 may structurally conform to G protein coupled receptors, i.e., having a core structure of seven alpha helical transmembrane spanning segments, a ligand recognition site, loci for regulatory phosphorylation, and a putative nucleotide binding site.
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PMID:Calcium and T lymphocyte activation. 267 93

The possible involvement of protein kinase C activation in regulating PAF-stimulated PLC activity was studied in rabbit platelets. PAF (100 nM for 5 seconds) stimulated incorporation of 32P into proteins and caused [3H]InsP3 levels to increase about 260% of control. These responses were compared after platelets were pretreated with either PAF, phorbol 12-myristate 13-acetate (PMA) or staurosporine and also after pretreatments with staurosporine followed by PAF or PMA. Pretreating platelets with staurosporine potentiated PAF-stimulated [3H]InsP3 levels by 54% and blocked protein phosphorylation. Pretreatments with PAF and PMA caused PAF-stimulated [3H]InsP3 levels to decrease to 115 and 136%, respectively. Staurosporine pretreatment blocked the decrease caused by the PMA pretreatment but not that by PAF. This study demonstrates that PAF-stimulated PLC activity is negatively affected by protein kinase C (PKC) activation and that inhibition of PKC activity did not prevent desensitization of PLC by PAF.
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PMID:Staurosporine potentiates platelet activating factor stimulated phospholipase C activity in rabbit platelets but does not block desensitization by platelet activating factor. 276 47

Two peaks of phosphoinositide-specific phospholipase C (PI-PLC) activity were resolved when guinea pig uterus cytosolic proteins were chromatographed on a DEAE-Sepharose column. The first peak of enzyme activity eluting from the DEAE-Sepharose column (PI-PLC I) was further purified to homogeneity, whereas the second peak of enzyme activity was enriched 300-fold. PI-PLC I migrated as a 62-kDa protein on sodium dodecyl sulfate-polyacrylamide gels. Antibodies prepared against PI-PLC I failed to react with PI-PLC II. PI-PLC I hydrolyzed all three phosphoinositides, exhibiting a greater Vmax for phosphatidylinositol 4,5-bisphosphate greater than phosphatidylinositol 4-phosphate greater than phosphatidylinositol. Hydrolysis of phosphatidylinositol was calcium-dependent, whereas significant hydrolysis of phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate occurred in the presence of 2.5 mM EGTA. At physiological concentrations of calcium, phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate were the preferred substrates. Antibodies specific for PI-PLC I reacted with a 62-kDa protein in both the cytosol and membrane fractions from guinea pig uterus. Quantitation of the immunoblots revealed that 25% of the 62-kDa protein was membrane-associated, whereas only 5% of the total enzyme activity was membrane-associated. Approximately 20% of the membrane-bound phospholipase C activity and immunoreactive material were loosely bound, whereas the remainder required detergent extraction for complete solubilization. The 62-kDa protein associated with the membrane fractions did not bind lectin affinity columns, suggesting that it was not glycosylated. PI-PLC I was identified as a phosphoprotein in [32P]orthophosphate-labeled rat basophilic leukemia (RBL-1) cells by two-dimensional gel electrophoresis followed by immunoblotting. In untreated cells, 32P-labeled PI-PLC I was found in the cytosolic fraction. Treatment of RBL-1 cells with those phorbol esters which are known to activate the Ca2+/phospholipid-dependent enzyme protein kinase C, resulted in a time-dependent increase in the phosphorylation of both membrane-bound and cytosolic PI-PLC I. Thus, in RBL-1 cells, protein kinase C may play an important role in the regulation of phospholipase C through protein phosphorylation.
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PMID:Purification and characterization of a phosphoinositide-specific phospholipase C from guinea pig uterus. Phosphorylation by protein kinase C in vivo. 282 Sep 80

PLC/PRF/5 hepatoma cells cultured with a tumor promoter teleocidin showed polygonal cellular appearance with many vacuole-like structures, and reduced both c-myc mRNA level and growth rate. These teleocidin effects were partly mimicked by sodium butyrate but not by a protein kinase C stimulant 1-oleoyl-2-acetylglycerol(OAG). Protein kinase C inhibitor 1-(5-isoquinolinyl-sulfonyl)-2-methyl-piperazine(H7), calmodulin-dependent protein kinase antagonist N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide(W7) and topoisomerase II inhibitor novobiocin failed to inhibit the effects of teleocidin. These results may suggest the presence of still unknown biochemical pathways which mediate the actions of teleocidin.
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PMID:Effects of teleocidin on the morphology and c-myc expression of hepatoma cells which are not inhibited by protein kinase antagonists. 310 17

Phospholipases (PL) A-2 and C stimulated the outputs of prostaglandin (PG) F-2 alpha, PGE-2 and 6-keto-PGF-1 alpha from the Day-7 and Day-15 guinea-pig uterus superfused in vitro. PLC had a more pronounced effect than PLA-2, particularly on the output of PGE-2. The ratios of the outputs of PGF-2 alpha and PGE-2 were similar after stimulation by A23187 and PLA-2, but this ratio was lower after stimulation by PLC. It appears that the stimulation of endometrial PGF-2 alpha synthesis by Ca2+ is via activation of PLA-2 rather than via activation of PLC, although the PLC used was of bacterial origin (which uses phosphatidylcholine as substrate) rather than of mammalian origin (which uses phosphatidylcholine as substrate). Forskolin (which increased endometrial and myometrial cyclic AMP levels) and phorbol 12-myristate-13-acetate had no effect on uterine PG output, indicating that cyclic AMP and protein kinase C are not involved in the stimulation of endometrial PGF-2 alpha synthesis in the guinea-pig. Uterine PG output was not stimulated by 54 mM-KCl, which shows that the pulsatile nature of endometrial PGF-2 alpha synthesis and release is not due to an intermittent, synchronous depolarization of the endometrial cells.
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PMID:Effects of various factors on prostaglandin synthesis by the guinea-pig uterus. 311 14


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