EC:3.1.4.3 - FACTA Search

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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)

A technique has been developed for prelabelling and permeabilisation of guinea pig uterine myocytes to enable measurement of arachidonic acid release/phospholipase A2 activity in cells with intact membranes. Intact cells were prelabelled with [3H]inositol or [3H]arachidonic acid for measurement of phospholipase C and A2 respectively. In intact cells 10 nM endothelin-1 or 1 microM bradykinin stimulated both inositol polyphosphate and arachidonic acid release, whilst 1 microM oxytocin, arginine vasopressin or histamine were without effect. In Streptolysin-O permeabilised myometrial cells calcium-stimulation of inositol polyphosphate and arachidonic acid release was detected between 10 microM and 1 mM free calcium. The patterns of inositol polyphosphate and arachidonic acid release were broadly similar. Responses to 1 mM calcium were not detected in intact cells not treated with Streptolysin-O. For arachidonic acid release the K0.5 for calcium activation was about 7 microM, a level above that normally likely to be found in the uterine myocyte. Hence it is concluded that unless there are high local concentrations of calcium close to the plasma membrane, calcium is unlikely alone to be the primary regulator of arachidonic acid release and phospholipase A2.
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PMID:Measurement of arachidonic acid release from permeabilised myometrial cells of guinea pig uterus. 130 78

Two amphiphilic peptides from hymenopterid insects, melittin and mastoparan, stimulate secretion in a variety of cell types. In PC12 cells, both peptides stimulate calcium influx with melittin some 20-fold more potently than mastoparan. Melittin stimulates both breakdown of phosphoinositides (Pl) by phospholipase C to yield inositol phosphates and hydrolysis of phospholipids by phospholipase A2 to release arachidonic acid (AA). Mastoparan stimulates Pl breakdown, but has no effect on AA release. Maximal stimulation of Pl breakdown occurs at 1 to 2.5 micrograms/ml melittin and 30 micrograms/ml mastoparan, whereas maximal stimulation of AA release occurs at 2 to 5 micrograms/ml melittin. Organic calcium channel blockers (nifedipine, verapamil, diltiazem) have little or no effect on responses to the peptides. The influx of calcium elicited by melittin or mastoparan is completely or nearly completely blocked by inorganic calcium channel blockers (Co++, Mn++, Cd++). Mn++ and Cd++ inhibit melittin-induced Pl breakdown and AA release and mastoparan-induced Pl breakdown. Co++ has no effect on melittin-induced Pl breakdown and potentiates mastoparan-induced Pl breakdown. Pertussis toxin has no effect on the Pl breakdown induced by either peptide. The responses to melittin and mastoparan in PC12 cells are compared to those reported for maitotoxin.
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PMID:Effects of the amphiphilic peptides melittin and mastoparan on calcium influx, phosphoinositide breakdown and arachidonic acid release in rat pheochromocytoma PC12 cells. 130 80

Extracellular ATP and UTP caused increases in the concentration of cytoplasmic free calcium ([Ca2+]i) and the intracellular level of inositol 1,4,5-trisphosphate (IP3), a second messenger for calcium mobilization, prior to the release of prostacyclin (PGI2) from cultured bovine pulmonary artery endothelial (BPAE) cells. The agonist specificity and dose-dependence were similar for nucleotide-mediated increases in IP3 levels, [Ca2+]i and PGI2 release. An increase in [Ca2+]; and PGI2 release was observed after addition of ionomycin, a calcium ionophore, to BPAE cells incubated in a calcium-free medium. The addition of ATP to the ionomycin-treated cells caused no further increase in [Ca2+]i or PGI2 release. The inability of ATP to cause an increase in [Ca2+]i or PGI2 release in ionomycin-treated cells was apparently due to the ionomycin-dependent depletion of intracellular calcium stores since the subsequent addition of extracellular calcium caused a significant increase in both [Ca2+]i and PGI2 release. Introduction of BAPTA, a calcium buffer, into BPAE cells inhibited ATP-mediated increases in [Ca2+]i and PGI2 release, further evidence that PGI2 release is dependent upon an increase in [Ca2+]i. The increase in [Ca2+]i elicited by ATP apparently caused the activation of a calmodulin-dependent phospholipase A2 since trifluoperazine, an inhibitor of calmodulin, and quinacrine, an inhibitor of phospholipase A2, prevented the stimulation of PGI2 release by ATP. Furthermore, ATP caused the specific hydrolysis of [14C]arachidonyl-labeled phosphatidylcholine and the generation of free arachidonic acid, the rate-limiting substrate for PGI2 synthesis, prior to the release of PGI2 from BPAE cells. These findings suggest that the increase in PGI2 release elicited by ATP and UTP is at least partially dependent upon a phospholipase C-mediated increase in [Ca2+]i and the subsequent activation of a phosphatidylcholine-specific phospholipase A2. ATP analogs modified in the adenine base or phosphate moiety caused PGI2 release with a rank order of agonist potency of adenosine 5'-O-(2-thiodiphosphate) (ADP beta S) greater than 2-methylthioATP (2-MeSATP) greater than ATP, whereas alpha, beta methyleneATP and beta, gamma methyleneATP had no effect on PGI2 release.
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PMID:Mechanisms by which extracellular ATP and UTP stimulate the release of prostacyclin from bovine pulmonary artery endothelial cells. 131 59

Plasma membranes were isolated from carrot (Daucus carota L.) cells grown in suspension culture and treated with phospholipase A2 from snake or bee venom for 10 min. As a result of this treatment, phosphatidylinositol kinase activity was recovered in the soluble fraction. There was no detectable diacylglycerol kinase or phosphatidylinositol monophosphate kinase activity released from the membranes after the phospholipase A2 treatment. Treating the plasma membranes with phospholipase C or D did not release PI kinase activity. The phospholipase A2-released PI kinase was activated over 2-fold by a heat stable, soluble 70 kDa protein. The partially purified 70 kDa activator increases the Vmax but does not affect the Km of the phospholipase A2-released PI kinase.
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PMID:Release of carrot plasma membrane-associated phosphatidylinositol kinase by phospholipase A2 and activation by a 70 kDa protein. 131 60

1. Plasma membranes were treated with phospholipase A2, phospholipase C or phospholipase D. The phosphatidylethanolamine:ceramide-phosphorylethanolamine transferase was deactivated by phospholipase C treatment, whereas phospholipase A2 and phospholipase D did not affect the enzyme. 2. Incorporation of phosphatidylethanolamine and phosphatidylglycerol into partially delipidated plasma membranes resulted in significant stimulation of the transferase, whereas inclusion of sphingomyelin and phosphatidylserine suppressed the enzyme activity. Our results suggest that phosphatidylserine is a regulator of sphingomyelin level in membranes. 3. The activity of phosphatidylethanolamine:ceramide-phosphorylethanolamine transferase was not influenced by the fluidity of its lipid environment.
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PMID:Influence of phospholipid environment on the phosphatidylethanolamine: ceramide-phosphorylethanolamine transferase activity in rat liver plasma membranes. 131 55

Tumor necrosis factor (TNF) is able to induce a great diversity of cellular responses via modulating the expression of a number of different genes. The multitude of TNF activities may be explained by both structural and functional heterogeneity in TNF receptors as well as by a diversification of postreceptor signal transduction pathways. Purification of TNF receptors has revealed two major, distinct binding proteins (TR60 and TR80). TR60 seems to be an essential component for TNF signaling; the functional role of TR80 remains to be elucidated. The pathway of postreceptor signal transduction involves phospholipase A2, a phosphatidylcholine-specific phospholipase C, protein kinase C, and other serine/threonine and tyrosine-specific protein kinases with as yet unknown function. At the receiving end of TNF signaling, induction of gene expression is mediated through activation of nuclear transcription factors, such as NFkB, AP-1, IRF-1, and NF-GMa.
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PMID:Mechanisms of tumor necrosis factor action. 131 93

The receptor agonist-mediated hydrolysis of phosphoinositides and production of prostacyclin were studied in murine cerebral endothelial cells (MCEC). Of 11 neurotransmitters and neuromodulators examined, carbachol, noradrenaline (NE), bradykinin, and thrombin significantly increased 3H-inositol phosphate accumulation in the presence of LiCl (20 mM). The maximal stimulation of [3H]inositol monophosphate ([3H]IP1) reached approximately 11, 11, seven, and four times the basal levels for carbachol, NE, bradykinin, and thrombin, respectively. The EC50 values of IP1 accumulation for carbachol and NE were 34 and 0.16 microM, respectively. The muscarinic antagonists, atropine and pirenzepine, blocked the carbachol-induced IP1 accumulation with Ki values of 0.3 and 30 nM, respectively. The adrenergic antagonist, prazosin, blocked NE-induced IP1 accumulation with a Ki of 0.1 nM. The calcium ionophore A23187, histamine, glutamate, vasopressin, serotonin, platelet activating factor, and substance P did not stimulate IP1 accumulation. A23187, bradykinin, and thrombin stimulated prostacyclin release to approximately four, four, and two times the basal levels, respectively, whereas carbachol and NE had little effect upon prostacyclin release. These results suggest that the activation of phospholipase C and of phospholipase A2 in MCEC are regulated separately.
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PMID:Receptor-linked hydrolysis of phosphoinositides and production of prostacyclin in cerebral endothelial cells. 131 55

CD69 is a signal transducing disulfide-linked homodimer functionally expressed on platelets, CD3bright thymocytes, and activated lymphocytes. In an attempt to investigate early molecular events in CD69-mediated cell activation we studied the relative contribution of phospholipase A2 (PLA2) and phosphatidylinositol-specific phospholipase C-dependent pathways during platelet activation induced by CD69 stimulation. Thromboxane A2 (TXA2) synthetase inhibitor and TXA2R inhibitor R68070 were able to inhibit platelet aggregation induced by CD69 stimulation, indicating that TXA2 was the main mediator of the response. CD69-induced arachidonic acid release and TXA2 production were essentially PLA2 dependent because they could be blocked by the PLA2 inhibitor quinacrine. Inositol 1,3,4-trisphosphate generation was clearly detectable after CD69 cross-linking, but it was completely abrogated by quinacrine and R68070 and therefore secondary to TXA2 release and TXA2R engagement. Finally, direct measurement of enzymatic activity in vitro using radiolabeled phospholipid vesicles showed that CD69 cross-linking resulted in PLA2-dependent arachidonic acid and lysophosphatidylcholine generation from phosphatidylcholine, which was sensitive to quinacrine but not to R68070. By contrast, CD69-induced 1,2-diacylglycerol release from phosphatidylinositol 4,5-bisphosphate was blocked by both inhibitors. These results indicate a preferential involvement of PLA2 in CD69-dependent signal transduction in platelets and provide evidence for the unique role of PLA2-mediated activation pathways in transmembrane receptor signaling.
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PMID:Preferential involvement of a phospholipase A2-dependent pathway in CD69-mediated platelet activation. 131 60

Several reports have suggested that the activity of platelet phospholipase A2 is modulated by GTP-binding protein(s) whose nature and properties need to be defined. Fluoroaluminate is known to activate G-proteins and this leads to a number of cellular responses including the activation of phospholipases. This paper demonstrates that human platelets, prelabelled with [3H]arachidonic acid, produce free arachidonic acid when stimulated with fluoroaluminate and this effect is time- and dose-dependent. The production of arachidonic acid is not inhibited by neomycin, a PI-cycle inhibitor, but is completely abolished by mepacrine, an inhibitor of both phospholipase A2 and C. At low concentration of fluoroaluminate (10 mM NaF) phospholipase A2 but not phospholipase C is activated. In addition, fluoroaluminate treatment releases beta-thromboglobulin (beta-TG) and this effect is not inhibited by acetylsalicylic acid. Under identical conditions both neomycin and mepacrine suppress the release of arachidonic acid and beta-TG induced by thrombin. Sodium nitroprusside, which increases cGMP levels in platelets, inhibits arachidonic acid liberation and beta-TG release in thrombin-stimulated platelets but has no effect in fluoroaluminate-treated platelets; cGMP was reported to suppress phospholipase C activation. These results are consistent with the hypothesis that, in thrombin-stimulated platelets, the liberation of arachidonic acid and beta-TG are strictly dependent on the activation of phospholipase C. We have also provided evidence for the existence of a phospholipase A2 activated by a G-protein which is independent from the degradation of phosphoinositides and, contrary to phospholipase C, it is not down regulated by cGMP.
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PMID:Activation of phospholipase A2 and beta-thromboglobulin release in human platelets: comparative effects of thrombin and fluoroaluminate stimulation. 131 76

Recent studies have indicated two major mechanisms for the release of arachidonic acid (20:4) from membrane phospholipids: 1) activation of phospholipase A2 and 2) stimulated hydrolysis of poly-phosphoinositides (PI) and diacylglycerols (DG) through phospholipase C and diacylglycerol lipase, respectively. In mammalian brain both mechanisms seem to be operable, although the relative contributions by these two pathways have not been carefully assessed. In this study three experimental protocols were used to examine 20:4 release in brain due to ischemia and agonist stimulation, as well as the metabolic relationship between this release and the increase in diacylglycerols, lysophospholipids, and inositol phosphates. The preferential release of arachidonic acid during the initial phase after decapitation was attributed mainly to the sequential hydrolysis of poly-PI to DG. During the second phase, the release of 20:4 along with other free fatty acids (FFA) correlated well with the increase in labeled lysophospholipids, suggesting the involvement of phospholipase A2. Diacylglycerols in brain are enriched in 18:0 and 20:4. Decapitation induced a rapid increase in the level of DG, which remained elevated during the 30 min period under study. Between 5 sec and 5 min, the increase in FFA lagged behind that of DG. The parallel increases in 18:0 and 20:4 in the FFA pool further support the notion that, during the early phase, 20:4 could be derived from the sequential hydrolysis of poly-PI and DG. Decapitation also induced a sequential appearance of Ins(1,4,5)P3, Ins(1,4)P2, and Ins(4)P, which peaked at 30 sec, 1 min, and 2 min, respectively. The level of 20:4 in brain was also examined with respect to poly-PI turnover due to stimulation by cholinergic agonists. Administration of pilocarpine to lithium-treated mice resulted in increased accumulation of labeled inositol monophosphate (IP1) compared to the amount in controls receiving lithium alone, as well as a less obvious increase in 20:4. Both pilocarpine-mediated increases (IP1 and 20:4) could be blocked by atropine. These results point to the presence of an active mechanism for poly-PI turnover and for the recycling of 20:4 in brain.
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PMID:Contributions to arachidonic acid release in mouse cerebrum by the phosphoinositide-phospholipase C and phospholipase A2 pathways. 132 24

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