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)

In previous studies we demonstrated the triggering of the phospholipase C (PLC) pathway during the activation of an Ag-specific human CD4+ T lymphocyte clone by a mitogenic pair of CD2 (X11,D66) mAb. Similar conditions were applied to investigate a possible involvement of a phospholipase A2 (PLA2) acting as an additional alternative pathway during human T cell activation. Our results show that arachidonic acid or its derivatives are released after CD2 triggering. This release is largely independent of PLC activation and is mediated by a PLA2 because: 1) phosphatidylcholine is the preferential source of [3H]arachidonate release; 2) [3H]arachidonic acid release and phosphatidylcholine hydrolysis are blocked by two inhibitors of solubilized PLA2, mepacrine, and 4-p-bromophenacylbromide; and 3) we evidenced a PLA2 activity in cell homogenates. Extracellular calcium appears to play a critical role because the effects of CD2 mAb were inhibited in a Ca2(+)-depleted medium. In contrast, protein kinase C is not implicated since PMA, a protein kinase C activator, neither stimulated arachidonic acid release nor modulated CD2-induced arachidonic acid release. Cyclic AMP which has been proved to regulate the activity of the PLC in T lymphocytes does not appear to play an important role in the regulation of PLA2 activity since PGE2 has only a minimal effect on [3H]-arachidonate release. Altogether, these findings suggest that CD2 triggering stimulates a PLA2 activity in T lymphocytes via an extracellular Ca2(+)-dependent PLC protein kinase C independent mechanism.
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PMID:CD2 triggering stimulates a phospholipase A2 activity beside the phospholipase C pathway in human T lymphocytes. 196 28

We have identified two distinct cellular responses that occur in human astrocytes in the presence of angiotensin (Ang) peptides and are linked to specific receptor subtypes. Ang II and the N-terminal heptapeptide Ang-(1-7) stimulated release of prostaglandin (PG) E2 and PGI2 (measured as the stable metabolite 6-keto-PGF1 alpha). In contrast, only Ang II but not Ang-(1-7) activated phosphoinositide-specific phospholipase C, leading to mobilization of intracellular calcium. The Ang II-induced PGE2 and PGI2 syntheses were attenuated by [Sar1,Ile8]Ang II but not by [Sar1,Thr8]Ang II. Ang-(1-7)-induced PGE2 and PGI2 syntheses were not inhibited by either of these two classical antagonists. DuP 753, a subtype 1-selective Ang receptor antagonist, blocked the Ang II-induced release of PGE2 but not PGI2. In contrast, CGP 42112A, the subtype 2-selective antagonist, totally blocked the Ang II-induced PGI2 release and partially attenuated the PGE2 release. Ang-(1-7)-induced PGE2 and PGI2 release was not altered by DuP 753; however, CGP 42112A totally blocked the effects of Ang-(1-7) on PG stimulation. Calcium mobilization in response to Ang II was blocked by [Sar1,Thr8]Ang II, [Sar1,Ile8]Ang II, and DuP 753 but not by CGP 42112A. These data suggest that human astrocytes contain both Ang receptor subtypes. The subtype 1 Ang receptor participates both in the release of PGs and in the mobilization of calcium, whereas the subtype 2 receptor is coupled to the release of PGs only. In addition, PG release coupled to subtype 2 Ang II receptors occurs through a calcium-independent mechanism and responds uniquely to Ang-(1-7).
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PMID:Subtype 2 angiotensin receptors mediate prostaglandin synthesis in human astrocytes. 204 58

The newly isolated peptide, endothelin-1 (ET-1), is a potent pressor agent that reduces GFR and the glomerular ultrafiltration coefficient. Recent evidence demonstrates that ET-1 mobilizes intracellular Ca2+ [( Ca2+]i) in glomerular mesangial cells by activating the phosphoinositide cascade. The present experiments were designed to examine whether ET-1 stimulates mesangial cell contraction and regulates the synthesis of PGE2 and cAMP, which dampen vasoconstrictor-induced mesangial contraction. ET-1 (greater than or equal to 1 nM) reduced the cross-sectional area of rat mesangial cells cultured on three-dimensional gels of collagen type I. ET-1 also caused complex rearrangements of F-actin microfilaments consistent with a motile response. Contraction in response to ET-1 occurred only at concentrations that activate phospholipase C, and contraction was unaffected by blockade of dihydropyridine-sensitive Ca2+ channels. Elevation of [Ca2+]i with ionomycin, to equivalent concentrations of [Ca2+]i achieved with ET-1, also reduced mesangial cell cross-sectional area. ET-1 (0.1 microM) also evoked [3H]arachidonate release and a fivefold increase in PGE2 synthesis as well as increased synthesis of PGF2 alpha and small changes of TXB2. ET-1 caused a minor increase in intracellular cAMP accumulation only in the presence of 3-isobutyl-1-methylxanthine. ET-1 also amplified cAMP production in response to isoproterenol. TPA and ionomycin, alone and in combination, failed to mimic the potentiating effect of ET-1; however, indomethacin blocked ET-1-induced potentiation of isoproterenol-stimulated cAMP, which was restored by addition of exogenous 10 nM PGE2. Thus the present data demonstrate that ET-1 stimulates mesangial cell contraction via pharmacomechanical coupling and activates phospholipase A2 to produce PGE2, PGF2 alpha, and TXB2. ET-1 also amplified beta adrenergic-stimulated cAMP accumulation by a PGE2-dependent mechanism.
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PMID:Endothelin-1 stimulates contraction of rat glomerular mesangial cells and potentiates beta-adrenergic-mediated cyclic adenosine monophosphate accumulation. 215 27

Mouse peritoneal macrophages synthesize large amounts of prostaglandins and leukotrienes in response to certain inflammatory stimuli. Lipopolysaccharide and phorbol esters stimulate prostaglandin formation but not leukotriene synthesis. Zymosan and the calcium ionophore, A23187, stimulate the formation of both prostaglandins and leukotrienes, as well as the phospholipase C-catalyzed breakdown of phosphoinositides. We have examined the interrelationships among phosphoinositide breakdown and prostaglandin and leukotriene synthesis in resident mouse peritoneal macrophages. We demonstrate that macrophages synthesize basally prostaglandin (PG)E2 and PGI2 and that these products begin to accumulate from the time of initial plating of the macrophages. The presence of these prostaglandins imparts a downward modulation of zymosan-stimulated phosphoinositide breakdown and, as a result, a downward modulation on leukotriene formation. Inhibition of the basal release of prostaglandin by indomethacin resulted in enhanced zymosan-stimulated phosphoinositide breakdown and an exactly corresponding enhancement of leukotriene release. This enhancement, resulting from the inclusion of indomethacin at the time of plating, was reversed by also including PGE2, PGI2, or dibutyryl cAMP. Dibutyryl cAMP, when added in the presence of zymosan and in the absence of indomethacin treatment, inhibited phosphoinositide breakdown and leukotriene synthesis in a parallel fashion, with no effect on prostaglandin release. These data demonstrate that phospholipase C activation is regulated in part by prostaglandin tone and that leukotriene synthesis, unlike prostaglandin synthesis, is dependent on phosphoinositide breakdown.
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PMID:Regulation of phosphatidylinositol breakdown and leukotriene synthesis by endogenous prostaglandins in resident mouse peritoneal macrophages. 216 Sep 63

Eicosanoids are important mediators of the inflammatory response to monosodium urate crystals (MSUC) that results in gout. Phospholipase enzymes cleave fatty acids from membrane phospholipids, and this is thought to be the rate-limiting step in eicosanoid production. To understand better the mechanism of eicosanoid production in this disease, we stimulated human peripheral blood neutrophils and monocytes with MSUC and measured phospholipase enzyme activities. MSUC stimulated both intracellular and secretory phospholipase A2 enzyme activities in a time and concentration-dependent manner. Specificity was observed, as phospholipase C activities were not affected. Pretreatment with colchicine, but not aspirin, indomethacin, allopurinol, or islet activating protein, abrogated the enhanced phospholipase A2 activities. We have recently isolated and characterized a phospholipase A2 activating protein termed PLAP from synovial fluid from patients with rheumatoid arthritis, and from murine and bovine cell lines. PLAP was detected in gouty synovial fluid by immunodot blotting and ELISA assays and expressed the same characteristics as PLAP identified from other sources. To examine the role of PLAP in MSUC-induced phospholipase A2 stimulation, we treated cells with MSUC and observed an increase in immunoreactive PLAP. This response also could be blunted by colchicine, but not other drugs. Both phospholipase A2 and PLAP induced production by human monocytes of PGE2 and leukotriene B4 by neutrophils. These findings suggest that phospholipase A2 activation in response to MSUC requires an intact microtubule structure, and that phospholipase A2 and PLAP may be important modulators of at least a portion of the gouty inflammatory response.
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PMID:Monosodium urate crystals stimulate phospholipase A2 enzyme activities and the synthesis of a phospholipase A2-activating protein. 223 Jan 25

The effect of prostaglandin (PG) E2 on the intracellular free calcium concentration ([Ca2+]i) in mouse osteoblastic clone, MC3T3E-1 cells, was investigated with the fluorescent probe fura-2. In the growing phase of MC3T3E-1, PGE2 evoked a transient rise of [Ca2+]i in a dose-dependent manner in the range from 0.28 microM to 5.6 microM of PGE2. The elevation of [Ca2+]i induced by PGE2 was not affected by the presence of EGTA. Moreover, PGE2 (5.6 microM) evoked an acute accumulation of intracellular inositol-1,4,5-trisphosphate (InsP3). The absolute content of InsP3 increased from 5.8 pmole/10(6) cells to 19.2 pmole/10(6) cells within 30 sec after the PGE2 treatment. The degree of [Ca2+]i elevation induced by PGE2 was dependent on the day after subculturing. At day 3, the response to PGE2 was the most pronounced during the 8-day experimental periods. These data suggest that PGE2 evoked a [Ca2+]i rise via a phospholipase C-InsP3 pathway in osteoblasts, particularly in the growing phase.
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PMID:Prostaglandin E2 evokes intracellular calcium rise in mouse osteoblastic cell line, MC3T3E-1. 224 73

We recently reported that prostaglandin (PG) E2 stimulated phosphoinositide metabolism in cultured bovine adrenal chromaffin cells and that PGE2 and ouabain induced a gradual secretion of catecholamines from the cells (Yokohama, H., Tanaka, T., Ito, S., Negishi, M., Hayashi, H., and Hayaishi, O. (1988) J. Biol. Chem. 263, 1119-1122). Here we examined the involvement of two signal pathways, Ca2+ mobilization and protein kinase C activation resulting from phosphoinositide metabolism, in the PGE2-induced catecholamine release. Either the Ca2+ ionophore ionomycin or 12-O-tetradecanoylphorbol 13-acetate (TPA) could enhance the release in the presence of ouabain, and ionomycin-induced release was additive to PGE2-induced release, but TPA-induced release was not additive. PGE2 dose-dependently stimulated the formation of diacylglycerol and caused the translocation of 4% of the total protein kinase C activity to become membrane-bound within 5 min. These effects were specific for PGE2 and PGE1 among PGs tested (PGE2 = PGE1 greater than PGF2 alpha greater than PGD2). Furthermore, the phosphoinositide-specific phospholipase C inhibitor neomycin inhibited PGE2-induced accumulation of inositol phosphates, diacylglycerol formation, translocation of protein kinase C, and also stimulation of catecholamine release. Both PGE2- and TPA-induced release were inhibited by the depletion of protein kinase C caused by prolonged exposure to TPA, but ionomycin-induced release was not inhibited. We recently found that the amiloride-sensitive Na+, H+-antiport participates in PGE2-evoked catecholamine release (Tanaka, T., Yokohama, H., Negishi, M., Hayashi, H., Ito, S., and Hayaishi, O. (1990) J. Neurochem. 54, 86-95). In agreement with our recent report, PGE2 and TPA induced a sustained increase in intracellular pH that was abolished by the protein kinase C inhibitor staurosporine but not by the calmodulin inhibitor W-7. Ionomycin also induced a marked increase in intracellular pH, but this increase was abolished by W-7 but not by staurosporine. These results demonstrate that PGE2-induced activation of the Na+, H(+)-antiport and catecholamine release in the presence of ouabain are mediated by activation of protein kinase C, rather than by Ca2+ mobilization, resulting from phosphoinositide metabolism.
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PMID:Involvement of protein kinase C in prostaglandin E2-induced catecholamine release from cultured bovine adrenal chromaffin cells. 231 53

By employing early-passaged rabbit kidney epithelial cells in tissue culture, we demonstrated that angiotensin II (AII) has unique mechanisms of signal transduction. First, unlike its action in other target tissues, micromolar concentrations of AII are required to induce small rises in cytosolic calcium, [Ca2+]i, an action which is not accompanied by the release of inositol phosphates (IP). In contrast, nanomolar bradykinin (BK) mobilizes [Ca2+]i through activation of phospholipase C and release of IP. Neither of these stimulated calcium responses exhibits pertussis toxin (PTx) sensitivity. Secondly, AII and BK at 10(-9) to 10(-7) M stimulate cAMP indirectly through PGE2 production in distal cells. AII- and BK-stimulated PGE2 release is PTx inhibitible, suggestive of the presence of a GTP binding protein mediating the response. By contrast, arginine vasopressin fails to elicit rises in [Ca2+]i but exerts its primary effect on cAMP production in distal cells via direct coupling to a stimulatory GTP binding protein, as evidenced by uncoupling with cholera toxin. Regulation of PGE2 synthesis appears to occur via phospholipase A2, not C, by all three peptides.
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PMID:Relationship between phospholipase C activation and prostaglandin E2 and cyclic adenosine monophosphate production in rabbit tubular epithelial cells. Effects of angiotensin, bradykinin, and arginine vasopressin. 244 59

We evaluated the role of GTP-binding proteins in the activation of phospholipase C, release of arachidonic acid, and synthesis of prostaglandin (PG) E2 in response to platelet-activating factor (PAF) and angiotensin II (ANG II) in cultured rat mesangial cells. Pretreatment with pertussis toxin (PT) decreased PGE2 formation and arachidonic acid release in response to PAF and ANG II but not that to A 23187. PT pretreatment also inhibited formation of inositol trisphosphate (IP3) in response to ANG II or PAF but did not significantly alter the rise in intracellular calcium detected by fura-2. PT catalyzed ADP ribosylation of two proteins of molecular mass approximately 40 and 41 kDa. Further evidence for involvement of GTP-binding protein in phospholipase C activation was that GTP-gamma S stimulated IP3 generation. Immunoblots with antibodies directed against different inhibitory alpha subunits of GTP-binding proteins showed that the major 40-kDa PT substrate reacted with an antibody directed against a decapeptide of the G protein subunit alpha i2 that is also found in leukocytes. This was further confirmed by Northern blot that showed the existence of mRNA in mesangial cells that hybridized with a cDNA probe for G alpha i2. In addition lesser amounts of mRNA hybridized with a restriction fragment cDNA probe for G alpha i3, which corresponds to the 41-kDa substrate for PT ribosylation. These results show that phospholipase C activation by PAF and ANG II in mesangial cells involves a specific G protein, most likely G alpha i2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relationship of GTP-binding proteins, phospholipase C, and PGE2 synthesis in rat glomerular mesangial cells. 249 60

The effect of prolactin on phospholipid metabolism in the prolactin-dependent rat lymphoma cell line Nb2 was investigated in cells prelabeled with [3H]arachidonic acid or [3H]ethanolamine. Prolactin (20 ng/ml) caused (a) a 20-60% loss of radiolabeled phosphatidylethanolamine within 0.5 to 2 min, (b) a loss of [3H]ethanolamine-labeled phosphatidylethanolamine from crude membranes, (c) a rapid accumulation of [3H]phosphoethanolamine and [3H]ethanolamine, and (d) a transient increase (15 s to 2 min) in prostaglandin F2 alpha and E2. Arachidonic acid (1-2 micrograms/ml) induced Nb2 cell growth but prostaglandin F2 alpha, E2, ethanolamine, and phosphoethanolamine did not. Prostaglandin E2 inhibited while prostaglandin F2 alpha enhanced growth in the presence of prolactin or arachidonic acid. These results suggest that stimulation of Nb2 cell growth by prolactin is linked to activation of a phosphatidylethanolamine-specific phospholipase C. Arachidonic acid and prostaglandin F2 alpha may participate in regulating the mitogenic action of prolactin.
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PMID:Phosphatidylethanolamine turnover is an early event in the response of NB2 lymphoma cells to prolactin. 250 37

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