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)

We examined the effect of prostaglandin (PG) F2 alpha on phosphoinositide (PI) hydrolysis in rat cultured astrocytes. PGF2 alpha stimulated the formation of [3H]inositol phosphates in [3H]inositol-labeled astrocytes with the ED50 value of 23 nM, whereas PGD2 and PGE2 were much less effective than PGF2 alpha. Transformation of astrocytes was accompanied by an increase in the stimulatory response of PGF2 alpha. Pretreatment of the astrocytes with pertussis toxin and cholera toxin did not affect the PGF2 alpha-evoked PI hydrolysis. In the digitonin-permeabilized astrocytes, PGF2 alpha significantly enhanced the GTP gamma S-evoked PI hydrolysis in the presence of Ca2+. These results indicate that rat cultured astrocytes possess PGF2 alpha receptors coupled to phospholipase C.
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PMID:Astrocytes possess prostaglandin F2 alpha receptors coupled to phospholipase C. 165 23

In intact NIH 3T3 murine fibroblasts, prostaglandins (PGs) F2 alpha and E2 induce dose-dependent stimulation of inositol monophosphate generation. PGF2 alpha is greater than 50-fold more potent than PGE2 in eliciting this response. In streptolysin O-permeabilized NIH 3T3 cells, PGF2 alpha and PGE2 induced dose-dependent accumulations of inositol bis- and trisphosphates, which were dependent on the presence of the guanine nucleotide guanosine-5'-O-(3-thio)triphosphate (GTP gamma S) (10 microM). Pretreatment of cells for 16 hr with 100 nM PGF2 alpha resulted in a significant reduction of not only subsequent PGF2 alpha- and PGE2-induced but also GTP gamma S-induced stimulation of inositol phosphate formation in permeabilized cells. PGF2 alpha-induced accumulation of inositol phosphates was partially inhibited by pretreatment with pertussis toxin (1 microgram/ml, 4 hr). The inhibition by pertussis toxin was small but was not related to cyclic AMP formation, because forskolin, which activates adenylate cyclase, did not mimic pertussis toxin-induced inhibition. In the same cell line, PGF2 alpha and PGE2 induced a dose-dependent accumulation of cAMP and a dose-dependent potentiation of 0.5 microM forskolin-stimulated cAMP formation. PGF2 alpha and PGE2 were almost equipotent in eliciting both responses. However, PGF2 alpha was less efficacious than PGE2 and, in the presence of forskolin, PGF2 alpha at 10 microM induced an inhibitory effect on cAMP accumulation. Such inhibition may be related to PGF2 alpha-mediated phospholipase C activation and subsequent stimulation of protein kinase C, because the phorbol ester phorbol 12-myristate-13-acetate, which directly activates protein kinase C, also inhibited forskolin- and PGE2-induced cAMP accumulation. Pretreatment with PGF2 alpha for 16 hr did not reduce subsequent stimulation of cAMP accumulation by PGF2 alpha or PGE2. The results indicate that in NIH 3T3 cells two receptors for PGs are present, one that couples to adenylate cyclase, probably through Gs, and does not exhibit selectivity between PGF2 alpha and PGE2 and a second receptor that couples to phospholipase C through a guanine nucleotide-binding protein that is not sensitive to pertussis toxin pretreatment. The latter shows at least 40-fold selectivity towards PGF2 alpha over PGE2. Because long treatment with PGF2 alpha resulted in desensitization of the GTP gamma S-induced response, it is possible that long exposure to PGF2 alpha may down-regulate the guanine nucleotide-binding involved in phospholipase C signal transduction.
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PMID:Prostaglandin receptors in NIH 3T3 cells: coupling of one receptor to adenylate cyclase and of a second receptor to phospholipase C. 165 2

1. rPDGF stimulates PGE2 release in wild type, but not ras transformed NIH-3T3 cells. 2. Ras transformation blocks PGE2 release by inhibiting phospholipase C activation, IP3 synthesis, and Ca2+ mobilization. 3. rPDGF stimulation of wild type NIH-3T3 cells increases both prostaglandin H synthase (PGHS) mRNA levels and PGHS enzyme levels as measured by immunoblot. However, PGHS gene transcription is not required for PDGF-stimulated PGE2 release. 4. Ras transformed NIH-3T3 cells display elevated basal PGE2 synthesis, and very high levels of both PGHS mRNA and enzyme. rPDGF does not further stimulate PGHS gene transcription. 5. Exogenous PGE2 attenuates rPDGF-stimulated cell proliferation in both wild type and ras transformed cells. 6. These data suggest that increased PGHS gene expression and enhanced basal PGE2 synthesis may be in response to the unregulated growth of ras transformed cells.
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PMID:Elevated prostaglandin H synthase gene expression in ras-transformed cells. 182 90

Prostaglandin E2 (PGE2, 5 ng/ml to 5 micrograms/ml) induced a dose-dependent increase in cAMP accumulation, inositol phosphates (IPs) accumulation, and cytoplasmic free Ca2+ ([Ca2+]i) in a clonal osteoblast-like cell line, MOB 3-4. In contrast, prostaglandin F2 alpha (PGF2 alpha, 5 ng/ml to 5 micrograms/ml) stimulated increases in IPs accumulation and [Ca2+]i without stimulating an increase in cAMP accumulation. Both PGE2 (greater than 0.5 micrograms/ml) and PGF2 alpha (greater than or equal to 5 micrograms/ml) increased cytoplasmic pH (pHi) from approximately 7.15 to 7.35 in BCECF-loaded cells. A tumor promotor, phorbol 12-myristate 13-acetate (PMA, 0.1-100 nM) also increased pHi without effect on phosphoinositide hydrolysis. Both PGE2-(5 micrograms/ml) and PMA- (100 nM) induced cytoplasmic alkalinization was inhibited by removal of extracellular Na+, or by pretreatment of the cells with amiloride (0.5 mM), an inhibitor of Na+/H+ exchange, or H-7 (100 microM), a nonspecific inhibitor of protein kinase C. Thus, MOB 3-4 cells appeared to possess PGE2 receptors and PGF2 alpha receptors: the former are coupled to adenylate cyclase and phospholipase C, and the latter are predominantly coupled to phospholipase C. Also the cells appeared to possess an amiloride-sensitive Na+/H+ exchange activity, which increases pHi in response to PGE2 and PGF2 alpha, as well as to PMA. Long-term (48 hr) exposure of the cells to PGE2 at a high concentration (5 micrograms/ml), but not to PGF2 alpha and PMA, decreased DNA synthesis in the serum-deficient medium. Thus, cytoplasmic alkalinization appeared insufficient for cell replication. At least in MOB 3-4 cells, the inhibitory effect of PGE2 on DNA synthesis may be due to the cAMP messenger system.
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PMID:Effects of prostaglandin E2 and F2 alpha on cytoplasmic pH in a clonal osteoblast-like cell line, MOB 3-4. 184 35

Four ewes were utilized to determine the effects of prostaglandin (PG) F2 alpha, PGE2 and luteinizing hormone (LH) on activity of phospholipase C (PLC) in ovine luteal tissue. Corpora lutea were collected on d 10 post-estrus and six slices from one corpus luteum from each ewe were pre-incubated with [3H]-inositol prior to incubation with one of 6 treatments. Treatments were 1) control, 2) PGF2 alpha (100 ng/ml), 3) PGE2 (10 ng/ml), 4) LH (10 ng/ml), 5) PGF2 alpha + PGE2 and 6) PGF2 alpha + LH. Phospholipase C was determined indirectly by measuring the accumulation of [3H]-inositol mono-, bis- and tris-phosphates (IP, IP2, IP3). Effects of PGF2 alpha (0 vs. PGF2 alpha) and luteotropic treatment (0 vs. PGE2 vs. LH) and their interactions were determined by analysis of variance. There was a significant main effect of PGF2 alpha (P less than 0.01) as concentrations of IP, IP2, IP3 and total [3H]-inositol phosphates were greater in tissue slices treated with PGF2 alpha, regardless of luteotropic treatment. Within groups receiving no PGF2 alpha (1,3,4), no effect of luteotropic treatment was observed. Within groups receiving PGF2 alpha (2,5,6), LH caused a significant (P less than .05) increase in the accumulation of total [3H]-inositol phosphates. Thus, PGF2 alpha can stimulate the activity of PLC in ovine luteal tissue and LH can potentiate this effect.
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PMID:Activity of phospholipase C in ovine luteal tissue in response to PGF2 alpha, PGE2 and luteinizing hormone. 186 28

Cycloheximide produced a large increase in prostaglandin (PG) E2 output and smaller increases in PGF2 alpha and 6-keto-PGF1 alpha when superfused over the guinea-pig uterus for 20 min. This stimulation of the outputs of these 3 PGs by cycloheximide did not require extracellular calcium. TMB-8 (an intracellular calcium antagonist) had no effect on the stimulation of PGE2 output by cycloheximide, but it completely prevented the stimulation of PGF2 alpha and 6-keto-PGF1 alpha outputs. W-7 (a calmodulin antagonist) had no effect on the stimulation of PGE2 and PGF2 alpha outputs by cycloheximide, but it partially reduced and delayed the stimulation of 6-keto-PGF1 alpha output. Neomycin (a phospholipase C inhibitor) did not prevent the increases in PGE2 and 6-keto-PGF1 alpha outputs produced by cycloheximide. However, neomycin (5 and 10 mM, but not 1 mM) inhibited the small increases in PGF2 alpha caused by cycloheximide. On its own, neomycin produced a dose-dependent, transient increase in 6-keto-PGF1 alpha output without affecting the outputs of PGF2 alpha and PGE2. It is concluded that different mechanisms are involved in the processes by which cycloheximide stimulates the syntheses of PGE2, PGF2 alpha and 6-keto-PGF1 alpha in the guinea-pig uterus.
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PMID:Mechanisms involved in the stimulation by cycloheximide of prostaglandin production in the guinea-pig uterus. 187 Nov 77

We describe the enzymological regulation of the formation of prostaglandin (PG) D2, PGE2, PGF2 alpha, 9 alpha, 11 beta-PGF2, PGI2 (prostacyclin), and thromboxane (Tx) A2 from arachidonic acid. We discuss the three major steps in prostanoid formation: (a) arachidonate mobilization from monophosphatidylinositol involving phospholipase C, diglyceride lipase, and monoglyceride lipase and from phosphatidylcholine involving phospholipase A2; (b) formation of prostaglandin endoperoxides (PGG2 and PGH2) catalyzed by the cyclooxygenase and peroxidase activities of PGH synthase; and (c) synthesis of PGD2, PGE2, PGF2 alpha, 9 alpha, 11 beta-PGF2, PGI2, and TxA2 from PGH2. We also include information on the roles of aspirin and other nonsteroidal anti-inflammatory drugs, dexamethasone and other anti-inflammatory steroids, platelet-derived growth factor (PDGF), and interleukin-1 in prostaglandin metabolism.
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PMID:Prostaglandin and thromboxane biosynthesis. 190 23

Prostacyclin (PGI2) synthase is one of the key enzymes for vasodepressor PGI2 biosynthesis in the vascular wall. In this study, we attempted to define the alterations in PGI2 synthase and its role in the PGI2 generation in the vascular wall of deoxycorticosterone acetate (DOCA)-salt rats. The PGI2-generating capacity was enhanced significantly when DOCA-salt rats established hypertension, whereas the generation of other arachidonate metabolites, eg, PGE2, PGF2 alpha, and thromboxane, was unaltered. Moreover, the increase in PGI2 generation was associated with an increase in PGI2 synthase activity in the vascular wall. Indeed, the averaged PGI2 generating capacity was closely correlated to the averaged PGI2 synthase activity in DOCA-salt hypertensive rats and three lines of control rats. Incontrast, phospholipase C and phospholipase A2, both of which liberate arachidonate for PGI2 synthesis, were rather lowered in DOCA-salt hypertensive rats. These data clearly indicate that vascular PGI2 generation is increased in the development of DOCA-salt hypertension and that PGI2 synthase is mainly responsible for this enhancement. The increased PGI2 synthase may be relevant to the blood pressure elevation and is expected to have beneficial effects on the vascular protection in hypertension.
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PMID:Possible role of prostacyclin synthase in altered prostacyclin generation in DOCA-salt hypertensive rats. 193 Aug 48

Subcellular liver fractions from rats receiving a subcutaneous injection of turpentine, which causes a local inflammation, show an increased synthesis of Prostaglandin E2 and Prostaglandin F2 alpha which reaches a peak 90 minutes and 3 hours after treatment, respectively. Stimulation of phospholipase A2 activity of liver cell preparations seems to be responsible for the supply of arachidonic acid necessary to feed PG synthesis: this stimulation is accompanied by unchanged levels of diacylglycerol lipase, diacylglycerol kinase and protein kinase C activities and by an unchanged content of diacylglycerol in the liver tissue. This picture does not favour the hypothesis of an involvement of phospholipase C in the early stages after turpentine treatment. Determinations of GTP-ase activity in plasma membrane-rich liver preparations give ambiguous results, which do not allow any conclusion on the possible role of G-proteins in phospholipase A2 activation.
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PMID:Rat liver eicosanoid synthesis during turpentine-induced inflammation. 195 99

Two new potent protein kinase C inhibitors, RO 31-8220 and RO 31-7549, and staurosporine were found to inhibit dose-dependently the phorbol ester-induced formation of prostaglandin E2 and superoxide in cultured liver macrophages. Prostaglandin E2 formation from exogenously added arachidonate was not affected by these compounds. The zymosan-induced formation of inositol phosphates was decreased by simultaneous addition of phorbol ester and was enhanced by prior desensitization of protein kinase C indicating that protein kinase C negatively modulates phospholipase C activation in these cells. While staurosporine suppressed almost totally the zymosan-induced formation of inositol RO 31-8220 and RO 31-7549 inhibited the protein kinase C-mediated effect on inositol phosphate formation, only. Phagocytosis of zymosan was not affected by RO 31-8220 and RO 31-7549 but was decreased by staurosporine. These results demonstrate that two new potent protein kinase C inhibitors, RO 31-8220 and RO 31-7549, are more selective in their actions as staurosporine and are useful tools to determine an involvement of protein kinase C in cellular systems.
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PMID:RO 31-8220 and RO 31-7549 show improved selectivity for protein kinase C over staurosporine in macrophages. 195 8

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