EC:3.1.4.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elastin peptides were shown to act on a cell membrane receptor coupled to a G-protein, phospholipase C, and its activation increases IP3 and DAG and opens receptor-dependent Ca(++)-channels. As some growth factors also produce similar modifications in intracellular Ca++, we wanted to explore the effect of elastin peptides on cell proliferation using 3H-thymidine incorporation and cell counting. The concentration of peptides needed for the stimulation of cell proliferation varied between large limits (1 microgram/ml to 10 mg/ml) according to the origin of the cells and the nature of the peptides. The proliferation of CCL 39 chinese hamster lung fibroblasts was enhanced in a dose-dependent fashion in the concentration range of 3 to 10 mg/ml. The proliferation of human skin fibroblasts was enhanced in the concentration range of 0.5 to 3.3 mg/ml and inhibited at higher concentrations. This effect depended little on the average molecular weight (MW) of the peptide preparation, high MW peptides (average 75 kDa) and lower MW peptides (average MW 10 kDa) were both efficient approximately to the same extent. It appears probable that only a small fraction of these peptides possesses this growth promoting property; other sequences might have the opposite effect. The conformation of the peptides may also play an important role. Human sera contain circulating elastin peptides in the concentration range of 1.0 to 10 micrograms/ml, increasing in obstructive arteriopathies and in some hyperlipidemias. It appears therefore that the above findings may have physiopathological significance in the regulation of cell proliferation in normal and pathological conditions.
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PMID:[Effect of elastin peptides on cell proliferation]. 129 24

Rat pancreatic acinar cells prelabeled with [14C]palmitic acid and then exposed to carbachol (CCh) exhibited a time-dependent increase in 1,2-[14C]diacylglycerol ([14C]DAG) levels, which was first detected at 2 min and then continued to rise in a linear manner. There was a concomitant increase in [14C]phosphatidic acid, which plateaued after 2 min and then remained at steady-state levels. CCh also promoted the release of phosphocholine, but not choline, within 60 s and caused a decrease in [14C]phosphatidylcholine in cells prelabeled with [14C]glycerol after 15 min. The inability to detect a rise in [14C]phosphatidylethanol accumulation and a fall in [14C]phosphatidate levels in [14C]palmitate prelabeled cells after exposure to CCh plus ethanol documented the absence of a phospholipase D-mediated pathway. The rapid phosphorylation of diglyceride in homogenates from unstimulated and carbachol-treated cells increased with increasing concentrations of exogenous substrate, thereby affirming that carbachol stimulates the phosphorylation of DAG by promoting the accumulation of the diglyceride. These collective findings provide evidence for the existence of an integrative control mechanism for regulating endogenous DAG levels during pancreatic acinar cell activation involving phosphatidylcholine-specific phospholipase C and DAG kinase.
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PMID:Regulation of diacylglycerol levels in carbachol-stimulated pancreatic acinar cells: relationship to the breakdown of phosphatidylcholine and metabolism to phosphatidic acid. 131 48

The activation of membrane-bound phospholipase D (PLD) resulting in the generation of phosphatidic acid (PA) is increasingly recognized as an integral event in the initiation of a variety of cellular responses. We explored whether alpha-thrombin is a physiologic agonist for PLD activation in human umbilical vein endothelial cells (HUVEC). HUVEC monolayers were labeled with [32Pi] and PLD activity determined by formation of the PLD metabolite [32P] phosphatidylethanol (PEt) in the presence of 5 g/L ethanol by thin-layer chromatography. alpha-Thrombin rapidly (1 minute) increased PA and PEt formation in a dose-dependent manner (10(-6) to 10(-10)) with maximal PLD stimulation achieved with 10 nmol/L alpha-thrombin producing a threefold to fourfold increase in PA and a sixfold to eightfold increase in PEt over controls at 15 minutes. Esterolytically active zeta-thrombin (10 nmol/L) and gamma-thrombin (1 mumol/L), but not inactive DIP-alpha-thrombin (1 mumol/L) also increased PLD activity. The role of Ca2+ flux in human endothelial cell PLD activation was investigated and PEt formation was significantly enhanced by Ca2+ ionophores A23187 and ionomycin (1 mumol/L, three-fold to fourfold increase in PEt). Alpha-Thrombin-stimulated PEt formation was abolished (greater than 90% inhibition) with chelation of intracellular calcium (Ca2+i) by pretreatment with BAPTA-AM (25 mumol/L, 30 minutes) but only mildly attenuated (30% inhibition) by removal of extracellular calcium (Ca2+E) with EGTA (5 mmol/L). The protein kinase C (PKC) inhibitor staurosporine reduced alpha-thrombin-induced PEt formation in a dose-dependent manner (10 mumol/L, 78% inhibition) and PKC downregulation with chronic PMA treatment (18 hours) also resulted in marked inhibition of alpha-thrombin-induced PEt formation. Neither pertussis nor botulinum C bacterial toxins significantly altered alpha-thrombin-induced PLD responses. In contrast, similar pretreatment with cholera toxin (1 microgram/mL, 60 minutes) consistently augmented alpha-thrombin-stimulated PLD activity by 50% to 90%. Comparable results were observed with agents which increased cAMP such as forskolin, 8-bromo cAMP, or dibutyryl cAMP and cholera toxin augmentation was abolished by 2-dideoxyadenosine, a competitive inhibitor of adenylyl cyclase activity. These studies demonstrate that alpha-thrombin is a potent stimulus for human PLD-mediated PA formation and that cyclic adenosine nucleotides modulate agonist-induced cellular PLD activity. In this model of PLD activation, alpha-thrombin receptor occupancy leads to the breakdown of phosphatidylinositol 4,5-bisphosphate catalyzed by phospholipase C producing the Ca2+ secretagogue IP3 and DAG.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Thrombin stimulation of human endothelial cell phospholipase D activity. Regulation by phospholipase C, protein kinase C, and cyclic adenosine 3'5'-monophosphate. 131 12

We have used one activator and two inhibitors of protein kinase C (PKC) to examine the role of this enzyme in the induction of meiotic cell division. At 1 U/ml, phosphatidylcholine-specific phospholipase C increases DAG, alters intracellular pH and inhibits the induction of meiosis by insulin or progesterone. However, when added about 1.6 h after progesterone, the enzyme speeds the induction of cell division. Microinjection of inhibitor peptide (19-36) of PKC has little effect on progesterone action but stimulates the induction of meiosis by insulin. When the inhibitor peptide is injected about 2h after insulin addition, the peptide inhibits. A second PKC inhibitor, staurosporine, decreases PKC-dependent intracellular pH and in vitro oocyte PKC activity. At similar concentrations, staurosporine stimulates insulin or progesterone action, but, when added after about 2 h, the drug inhibits induction by insulin. We conclude that PKC is initially inhibitory to the induction of meiotic cell division but then may become synergistic.
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PMID:Protein kinase C initially inhibits the induction of meiotic cell division in Xenopus oocytes. 141 82

Calcium ionophore exposure generates diglycerides (DAG) from phosphatidylcholine (PC) hydrolysis in Madin-Darby canine kidney (MDCK) epithelial cells. This study compares calcium ionophore-activated PC hydrolysis with the previously described phorbol ester-stimulated PC hydrolysis pathway using MDCK cells labeled with [14C]-linoleic acid. Lipid species were measured using thin-layer chromatography. DAG resulted in part from PC hydrolysis because DAG increased in cells labeled with [palmitoyl-2-14C]phosphatidylcholine. Neither protein kinase C (PKC) inhibitors nor PKC depletion affected the ionomycin (IONO)-induced increase in DAG. Ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid prevented the increased DAG after IONO but not after phorbol 12,13-dibutyrate (PDBu) exposure. The EGTA effect was reversed by adding excess calcium but was not reversed by adding excess Mg2+. IONO exposure also increased phosphatidic acid (PA) production. The PA was produced by phospholipase D (PLD) because phosphatidylethanol was produced when IONO was added to the cells in the presence of ethanol. Although increasing concentrations of ethanol resulted in progressively less PA, it had no effect on increased DAG after IONO exposure at any time point tested. These data are consistent with both increased phospholipase C (PLC) and increased PLD activity following ionomycin. In contrast to IONO exposure, ethanol completely prevented the increase in DAG after PDBu exposure, consistent with DAG produced by PLD activation. These results demonstrate that calcium activates both PC-specific PLC and PLD in MDCK cells and that the calcium-activated pathway is independent of the previously described PKC activation pathways.
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PMID:Calcium-activated phosphatidylcholine-specific phospholipase C and D in MDCK epithelial cells. 147 64

Production of [3H]1,2-dipalmitoylglycerol ([3H]DAG) from 1-palmitoyl-2-[9,10-3H]palmitoyl-sn-glycero-3-phosphocholine and [3H]phosphorylcholine from 1,2-dipalmitoyl-sn-glycero-3-[Me-3H]phosphocholine was studied using sonicated rat platelets. The formation of [3H]DAG and [3H]phosphorylcholine occurred at a comparable rate. [3H]Phosphorylcholine formation was dependent on the concentration of the substrate, platelet sonicates and calcium in the incubation medium. The [3H]phosphorylcholine formation increased in presence of 0.01% deoxycholate and 0.01% Triton X-100. The phosphatidylcholine-phospholipase C (PC-PLC) in the platelet sonicates was recovered in both the supernatant and particulate fractions obtained after ultracentrifugation at 105,000 x g for 1 h. The PC-PLC activity in both fractions was inhibited by 2 mM EDTA. In the presence of 0.01% deoxycholate and 0.01% Triton X-100 the activity in the particulate fraction increased compared to the activity in the supernatant, which was inhibited by 0.01% Triton X-100. The pH optima for PC-PLC in both fractions was between pH 7.2 and 7.6. PC-PLC activity was also found in rabbit and human platelet sonicates, but the activity was significantly lower than in rat platelet sonicates. There was no evidence to suggest presence of phosphatidylcholine-specific phospholipase D activity in rat sonicated platelets. This data, therefore, provides direct evidence for the presence of PC-PLC activity in rat platelets.
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PMID:Evidence for phosphatidylcholine hydrolysis by phospholipase C in rat platelets. 157 68

The role of lipid-bound second messengers in the regulation of neurotransmitter secretion is an important but poorly understood subject. Both bovine adrenal chromaffin cells and rat phoeochromocytoma (PC12) cells, two widely studied models of neuronal function, respond to bradykinin by generating phosphatidic acid (PA). This putative second messenger may be produced by two receptor-linked pathways: sequential action of phospholipase C (PLC) and diacylglycerol kinase (DAG kinase), or directly by phospholipase D (PLD). Here we show that bradykinin stimulation of chromaffin cells prelabelled (24 h) with 32Pi leads to production of [32P]PA which is not affected by 50 mM butanol. However, bradykinin stimulation of PC12 cells leads to [32P]PA formation, all of which is converted to phosphatidylbutanol in the presence of butanol. When chromaffin cells prelabelled with [3H]choline were stimulated with bradykinin there was no enhancement of formation of water soluble products of phosphatidylcholine hydrolysis. When chromaffin cells were permeabilised with pneumolysin and incubated in the presence of [gamma-32P]ATP, the formation of [32P]PA was still stimulated by bradykinin. These results show that, although both neuronal models synthesize PA in response to bradykinin, they do so by quite different routes: PLC/DAG kinase for chromaffin cells and PLD for PC12 cells. The observation that neither bradykinin nor tetradecanoyl phorbol acetate stimulate PLD in chromaffin cells suggests that these cells lack PLD activity. The conservation of PA formation, albeit by different routes, may indicate an essential role of PA in the regulation of cellular events by bradykinin.
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PMID:Lack of phospholipase D activity in chromaffin cells: bradykinin-stimulated phosphatidic acid formation involves phospholipase C in chromaffin cells but phospholipase D in PC12 cells. 171 14

The phagocytosis of beta-glucan particles by human neutrophils and the associated activation of NADPH O2- forming oxidase were accompanied by an increased hydrolysis of phosphoinositides by phospholipase C, hydrolysis of phosphatidylcholine by phospholipase D, accumulation of diglyceride (DG) mass, and [Ca2+]i rise. The reaction of phospholipid hydrolysis played a minor role in the formation of DG, which was mainly formed by de novo synthesis from glucose. The activation of this pathway was shown by the stimulation of the incorporation of [U-14C]glucose into DG, which occurred very rapidly after the challenge of neutrophils with beta-glucan particles. This DG derived from glucose was found almost completely as 1-acyl-2-acyl-glycerol (DAG). On the basis of the finding that phosphatidic acid was the precursor of DAG, an increase in the incorporation of [U-14C]acetate into DAG did not occur, and the [14C]radioactivity was in the glycerol backbone, the synthesis of DAG from [U-14C]glucose occurred very likely via dihydroxyacetone phosphate and glycerol 3-phosphate, stepwise acylation to phosphatidic acid, and dephosphorylation by phosphatidate phosphatase.
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PMID:De novo synthesis of diacylglycerol from glucose. A new pathway of signal transduction in human neutrophils stimulated during phagocytosis of beta-glucan particles. 185 Jul 33

Thrombin stimulation of human platelets is known to result in phosphatidylinositol turnover (PI response), the activation of protein kinase C (C-kinase), and the release of arachidonic acid (AA). The authors studied the effects of chlorpromazine (CPZ) on these responses. At a concentration of 100 microM, CPZ inhibited the phosphorylation of 40,000-dalton protein through C-kinase activation. CPZ failed to inhibit initial transient synthesis of 1,2-diacylglycerol (1,2-DAG) through the PI response, although it slowed the concurrent decreasing process. CPZ inhibited promotion of compensatory synthesis of phosphatidylinositol 4,5-bisphosphate (PIP2), and also inhibited the synthesis of phosphatidic acid (PA). These results suggest that phosphatidylinositol 4-monophosphate kinase and diacylglycerol kinase (DAG-kinase) may be inhibited by CPZ. CPZ also intensified the accumulation of inositol phosphates caused by the PI response, indicating possible inhibition of the phosphatases that metabolize these phosphates. Thus, CPZ partially inhibited the PI response. However, it appears likely that the inhibition of C-kinase activity by CPZ was not due to inhibition of 1,2-DAG production nor to direct inhibition of phospholipase C. CPZ also inhibited AA release. This action might be partially a result of the inhibitory effect of CPZ on PA production.
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PMID:Effects of chlorpromazine on phosphatidylinositol turnover following thrombin stimulation of human platelets. 190 65

Synaptoneurosomes obtained from the cortex of rat brain prelabeled with [14C]arachidonic acid [( 14C]AA) were used as a source of substrate and enzyme in studies on the regulation of AA release. A significant amount of AA is liberated in the presence of 2 mM EGTA, independently of Ca2+, primarily from phosphatidic acid and polyphosphoinositides (poly-PI). Quinacrine, an inhibitor of phospholipase A2 (PLA2), suppressed AA release by about 60% and neomycin, a putative inhibitor of phospholipase C (PLC), reduced AA release by about 30%. An additive effect was exhibited when both inhibitors were given together. Ca2+ activated AA release. The level of Ca2+ present in the synaptoneurosomal preparation (endogenous level) and 5 microM CaCl2 enhance AA liberation by approximately 25%, whereas 2 mM CaCl2 resulted in a 50% increase in AA release relative to EGTA. The source for Ca(2+)-dependent AA release is predominantly phosphatidylinositol (PI); however, a small pool may also be liberated from neutral lipids. Carbachol, an agonist of the cholinergic receptor, stimulated Ca(2+)-dependent AA release by about 17%. Bradykinin enhanced the effect of carbachol by about 10-15%. This agonist-mediated AA release occurs specifically from phosphoinositides (PI + poly-PI). Quinacrine almost completely suppresses calcium-and carbachol-mediated AA release. Neomycin inhibits this process by about 30% and totally suppresses the effect of bradykinin. Our results indicate that both phospholipases PLA2 and PLC with subsequent action of DAG lipase are responsible for Ca(2+)-independent AA release. Ca(2+)-dependent and carbachol-mediated AA liberation occurs mainly as the result of PLA2 action. A small pool of AA is probably also released by PLC, which seems to be exclusively responsible for the effect of bradykinin.
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PMID:Ca(2+)-independent, Ca(2+)-dependent, and carbachol-mediated arachidonic acid release from rat brain cortex membrane. 191 75

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