Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We demonstrated that phosphatidylinositide-specific phospholipase C (PLC) activity was greater in cardiomyopathic hamster hearts (BIO 14.6 and BIO 53.58) then in hamster controls (F1b). Inositol trisphosphate (IP3) production was markedly greater in both of the cardiomyopathic hamsters, BIO 14.6 and BIO 53.58. We have also determined the sarcoplasmic reticulum (SR) function of heart. Calcium uptake into SR markedly increased in BIO 14.6. On the other hand, it significantly decreased in BIO 53.58 compared with F1b. It is well known that IP3 stimulates calcium release from SR. In BIO 14.6, calcium release from SR stimulated by IP3 increased, but its effect decreased in BIO 53.58 compared with F1b. These results suggest that PI response may produce high intracellular calcium levels in both BIO 14.6 and BIO 53.58 myocytes. In addition, in the BIO 53.58 hamster the sarcoplasmic reticulum deteriorate in function. It was concluded from these results that a prolonged high intracellular calcium level may lead to the death of BIO 53.58 myocytes. The expression of angiotensinogen mRNA was observed in the hamster heart. There was no differences in its expression level between F1b, BIO 14.6 and BIO 53.58. There was no effect of ages on its expression in these hamster hearts. We have also determined the distribution of angiotensinogen in these hamsters. At 4 weeks of age, the immunohistochemical study revealed that angiotensinogen was widely distributed in subendocardium in these hamsters. There was no difference in its distribution between F1b, BIO 14.6 and BIO 53.58. But at 20 weeks old of age its immunoreactivity decreased in BIO 53.58.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The studies of cell damaging and cell growth factors which induce cardiomyopathy. 143 20

We have developed an experimental model to study in vivo inositol lipid metabolism in frog retinal pigment epithelial (RPE) cells, including the effect of light on phospholipase C-mediated hydrolysis of phosphatidylinositol 4,5-bisphosphate. RPE cells were rapidly isolated after either brief light or dark periods. Light and electron microscopy showed complete detachment of the retina from the RPE cells, and that the RPE cell suspensions were devoid of photoreceptor cell outer segments. Frog tissues were labeled in vivo for 20 hr by intravitreal injection of [3H]inositol (4 microCi, 4 microliters per eye) within a 24-hr constant illumination period. Following 1 hr of darkness (priming period), frogs were intravitreally injected with LiCl (0.5 M, 4 microliters per eye) 15 min before the onset of either 30-min light stimulation or an additional 30 min of darkness (controls). In order to preserve endogenous inositol phosphate pools present after dark and light exposure, the RPE cells were harvested in the shortest time possible, at low temperatures (18-20 degrees C), and in the presence of 10 mM LiCl. Total [3H]inositol-labeled water-soluble products (inositol plus inositol phosphates) were increased by 86% after 30 min of light. Inositol trisphosphate (IP3) showed the highest accumulation (a 5.5-fold increase), followed by inositol bisphosphate (1.9-fold increase) and inositol monophosphate (1.4-fold increase). Free [3H]inositol also accumulated (2.8-fold increase), reflecting only a partial inhibition of phosphomonoesterase by LiCl. These changes were paralleled by a 12% decrease in 3H-labeled phosphatidylinositol with no significant difference in the labeling of polyphosphoinositides.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Light stimulates in vivo inositol lipid turnover in frog retinal pigment epithelial cells at the onset of shedding and phagocytosis of photoreceptor membranes. 147 81

Agonists-induced platelet shape change, inositol metabolism, and Ca mobilization were investigated in patients with various platelet dysfunctions. The platelet shape change determined by our method revealed that arachidonate-induced platelet shape change was completely defective in patients with cyclo-oxygenase (CO) deficiency (A). STA2-induced platelet shape change was also defective in one of five patients with impaired aggregation to STA2 (B). Thrombin-induced platelet shape change was weak in patients with Bernard-Soulier syndrome. In patient with Hermansky-Pudlak syndrome, the platelets did not respond normally to STA2, arachidonate or PMA. These findings suggested that the determinations of platelet shape change by our method was useful in diagnosing platelet dysfunctions. Inositol metabolism and Ca mobilization in response to thrombin, STA2, or NaF were also investigated in patient A,B, and impaired aggregation to A23187 in patient C. The responses were normal in patient A, suggested that CO activity did not affect them. Inositol metabolism was also normal in patient C, although Ca mobilization in response to A23187 was delayed, and that in response to thrombin was defective in the absence of extracellular Ca2+. This suggests that the patient's platelets have a defective IP3-induced Ca mobilization pathway. STA2 selectively failed to induce IP3 formation and Ca mobilization in patient B, although 3H-labelled thromboxane ligand (3H-U46619) bound to the patient's platelets, normally. These findings suggested that the patient's platelets have a defect in postreceptor signal transduction, especially thromboxane receptor-mediated phospholipase C activation pathway.
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PMID:[Analysis of platelet shape change, inositol metabolism, and Ca mobilization in patients with platelet dysfunction]. 151 80

When membrane Ig (mIg) on the surface of B lymphocytes is cross-linked using anti-Ig antibodies, the enzyme phospholipase C (PLC) is activated to cleave inositol phospholipids. Tyrosine kinase inhibitors have been reported to inhibit this event. Therefore, we investigated the effect of cross-linking of mIg on the state of tyrosine phosphorylation of PLC activity in two murine B cell lines and in normal resting mouse B cells. Proteins from lysates of stimulated or unstimulated cells were immunoprecipitated with an antiphosphotyrosine antibody and subsequently assayed for PLC activity. Treatment of the B cell line WEHI-231 with anti-IgM led within 15 to 30 s to a 10- to 20-fold increase in tyrosine-phosphorylated PLC activity. Inositol trisphosphate generation by WEHI-231 cells stimulated under the same conditions demonstrated similar kinetics. Normal resting B cells treated with anti-IgM or anti-IgD demonstrated 2.5- and 4-fold increases, respectively, of tyrosine-phosphorylated PLC activity. To identify the isozyme of PLC that was phosphorylated, we immunoprecipitated PLC-gamma 1 or PLC-gamma 2 with specific antibodies and assessed the amount of tyrosine phosphorylation of these proteins by antiphosphotyrosine immunoblotting. Treatment of WEHI-231 or Bal17 cells with anti-IgM induced an increase in PLC-gamma 2 tyrosine phosphorylation over background levels. There was no detectable tyrosine phosphorylation of PLC-gamma 1 in treated or untreated WEHI-231 cells, whereas anti-IgM-treated Bal17 cells did exhibit low but detectable levels of tyrosine phosphorylation of PLC-gamma 1. In normal resting mouse B cells, there was no detectable PLC-gamma 1, but PLC-gamma 2 was abundant. These observations suggest that PLC-gamma 2 is a significant substrate for the mIg-activated protein tyrosine kinase and may be responsible for mediating mIg stimulation of inositol phospholipid hydrolysis in murine B cells.
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PMID:Tyrosine phosphorylation of phospholipase C-gamma 2 upon cross-linking of membrane Ig on murine B lymphocytes. 157 27

Human preimplantation embryos secrete platelet-activating factor (PAF), which stimulates prostaglandin E2 synthesis from secretory endometrium. This study investigated the action of PAF on phosphatidylinositol 4,5-bisphosphate (PtdIns(4,5)P2)-specific phospholipase C activity in human endometrium. Slices of normal endometrium were incubated with 5 microCi/ml myo-[2-3H] inositol for 3 h at 37 degrees C in 95% O2 and 5% CO2 to label tissue phosphoinositides. Inositol phosphates were extracted using trichloroacetic acid precipitation and diethylether neutralization and production was measured using Dowex 1-X8 anion-exchange column chromatography. PAF induced rapid and concentration-dependent accumulation of inositol phosphates (IP) from secretory endometrium, but had no effect on endometrium removed in the proliferative phase of the menstrual cycle. The IP3 fraction was significantly elevated from a median value of 14.0 c.p.m. mg-1 dry wt [range: 8-41 c.p.m. mg-1 dry wt] to 28.0 c.p.m. mg-1 dry wt [range: 11-87 c.p.m. mg-1 dry wt, P less than 0.002] following 1 min exposure of secretory endometrium to PAF-acether, in the presence of 10 mM LiCl. PAF-induced hydrolysis of PtdIns(4,5)P2 was inhibited by the specific PAF receptor antagonist WEB 2086, in a dose-dependent manner (P less than 0.02), indicating that in human endometrium PtdIns(4,5)P2 hydrolysis is mediated via a PAF receptor. These results indicate that PAF receptor coupling activates endometrial PtdIns(4,5)P2-specific phospholipase C only in the secretory phase of the menstrual cycle, suggesting that the PAF response may be under ovarian steroid regulation. It is proposed that the ability of the endometrium to respond to PAF appears to be a feature of the preparation of this tissue for implantation and that the second messengers generated may play a role in cellular processes involved in the maternal recognition of very early human pregnancy.
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PMID:Platelet-activating factor stimulates phospholipase C activity in human endometrium. 161 19

We have previously demonstrated that platelet-activating factor (PAF) binds specifically on cell membranes isolated from U937 cells. We now describe biological evidence showing that the effect of PAF on U937 cells is a receptor-mediated event. myo-[3H]Inositol-labeled U937 cells were used to investigate the possible role of phosphoinositide metabolism in these cells after binding of PAF. Formation of inositol phosphates (IP1, IP2, and IP3) in response to PAF was increased two- to threefold more than in vehicle control in U937 cells. The effect of PAF on endogenous protein phosphorylation was also studied by using 32PO4-labeled cells. PAF stimulates the phosphorylation of a 45-kDa protein in a time-dependent and dose-related fashion. Since the phospholipase C-generated diglyceride is an important activator of protein kinase C, the phosphorylated 45-kDa protein could be the substrate of protein kinase C. In this regard, we were able to demonstrate that phorbol ester enhances the phosphorylation of the same 45-kDa protein band. In addition, sphingosine, a protein kinase C inhibitor, inhibits the phosphorylation of the same 45-kDa protein band. Down-regulation of the protein kinase C also inhibits the 45-kDa protein phosphorylation. These results suggest that protein kinase C is involved in the PAF-U937 cell interaction.
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PMID:Activation mechanisms of platelet-activating factor in U937 cells: possible involvement of protein kinase C. 165 12

We have assessed the effect of somatostatin on the phospholipase C activity in isolated rat pancreatic islets. The phospholipase C activity was measured as the generation of inositol 1,4,5-trisphosphate and its metabolite inositol 1,3,4-trisphosphate from the hydrolysis of polyphosphoinositides. Inositol phosphates were measured using anion-exchange fast protein liquid chromatography analysis of extracts from islets prelabelled with myo-[3H]inositol. Somatostatin (1-1000 nmol l-1) significantly inhibited the glucose-induced (12 mmol l-1) phospholipase C activity in a concentration-dependent manner. The Ca2+ channel blocker verapamil (25 mumol l-1) also inhibited the glucose-induced (12 mmol l-1) phospholipase C, whereas the combination of somatostatin and verapamil did not induce any additional inhibition. At 3.3 mmol l-1 glucose, the hypoglycaemic sulphonylurea, tolbutamide (1 mmol l-1), increased the phospholipase C activity. This effect was reversed by somatostatin (100 nmol l-1). Tolbutamide did not further increase the glucose-induced (12 mmol l-1) phospholipase C activity. However, the somatostatin inhibition of glucose-induced (12 mmol l-1) phospholipase C was reversed by tolbutamide. The activator of adenylyl cyclase, forskolin (20 mumol l-1), did not exert any effect on the PLC-inhibition of somatostatin, whereas forskolin alone inhibited the phospholipase C activation at 12 mmol l-1 glucose. Our study demonstrates that somatostatin inhibits the hydrolysis of polyphosphoinositides in pancreatic islets, apparently via a mechanism dependent on Ca2+ and not on cAMP.
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PMID:Somatostatin inhibition of phospholipase C activity in isolated rat pancreatic islets. 168 20

Kinins elicit prostaglandin and inositol phosphate production in 3T3 fibroblasts through stimulation of B2 receptors. Prostaglandin synthesis is maximum by 5 min, whereas inositol phosphate production continues for longer than 30 min. Prostaglandin synthesis is stimulated by phospholipase A2, which releases arachidonate from phospholipids, whereas a phosphatidylinositol-specific phospholipase C catalyzes formation of equimolar amounts of inositol phosphate and diacylglycerol. Stimulation of these two second-messenger systems occurs through independent pathways: (a) dexamethasone inhibits prostaglandin formation by inhibiting phospholipase A2, and, to a lesser degree, cyclooxygenase, but is without effect on inositol phosphate production; (b) neomycin inhibits inositol phosphate production without affecting prostaglandin synthesis; (c) phorbol esters inhibit inositol phosphate production while augmenting prostaglandin synthesis; and (d) indomethacin inhibits prostaglandin synthesis but does not affect inositol phosphate production. At later times (greater than 10 min), the two pathways interact. Stimulation with one agonist to increase diacylglycerol results in augmentation of prostaglandin synthesis in response to a second agonist. Inositol phosphates cause release of calcium from intracellular stores. Prostaglandins stimulate (by binding to their own receptors) adenylate cyclase to increase cAMP. Additionally, prostaglandins increase intracellular free calcium by increasing influx of extracellular calcium. Both inositol phosphates and prostaglandins play roles in mitogenesis in these cells.
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PMID:Kinin signal transduction: role of phosphoinositides and eicosanoids. 169 60

myo-Inositol uptake in prisms of rat parotid glands was investigated by measuring both the accumulation of free myo-[3H] inositol into the cytosol and its incorporation into phospholipids. Total myo-[3H]inositol uptake involved two distinct processes, a prominent one which is saturable and sodium-dependent (Km, 95 microM; Vmax, 8 pmol/mg of protein per min) and a minor one, nonsaturable and sodium-independent. Phloretin and cytochalasin B, two inhibitors of hexose transport, and D-glucose, but only at high concentrations (greater than 10 mM), inhibited myo-[3H]inositol uptake. Dixon plots of the data indicated that D-glucose inhibition was noncompetitive suggesting that myo-inositol and D-glucose are transported by different carriers. Electrogenic cotransport of sodium and myo-inositol, rather than energy derived from mitochondrial oxidative metabolism, seems to be involved in the transport process. Thus, ouabain, monensin or veratridine, all of which increase intracellular sodium concentrations, reduced myo-[3H]inositol uptake, whereas dinitrophenol, potassium cyanide and carbonyl cyanide m-chlorophenyl hydrazone were without effect. Substance P affected only the sodium-dependent uptake process of myo-[3H]inositol, this inhibitory effect requiring extracellular calcium. Similar observations were made with the muscarinic agonist carbachol. From these results, an increase in intracellular sodium concentration linked to the activation of calcium-sensitive cation-permeant channels appears to be responsible for the inhibitory effects of substance P and carbachol on myo-[3H]inositol uptake, these effects being mediated respectively by NK1 and muscarinic receptors coupled to a phospholipase C.
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PMID:Inhibitory effects of substance P and carbachol on the saturable sodium-dependent uptake process of myo-inositol in rat parotid gland. 171 64

In this report we present data on the ability of murine eosinophils to generate inositol phosphate derivatives, and their relationship with the activation of 5'-lipoxygenase by a Fc-gamma R-dependent mechanism. The addition of anti-IgG F(ab')2 to mouse eosinophils, previously sensitized with IgG, induces inositol phosphate generation after 2 min and after 10 min of stimulation. Maximal generation of inositol tris and inositol tetrakis phosphate has been detected after 15 min of stimulation, and the optimal concentration of anti-IgG F(ab')2 was found to be 25 micrograms. Inositol tris phosphate formation is also observed at 5 min after the addition of the calcium ionophore A23187 (5 microM). We also report that neomycin, an inhibitor of phosphoinositide-phospholipase C, inhibits Fc-gamma R-mediated phosphoinositide breakdown in a dose-dependent manner (88% inhibition at 150 microM of neomycin). The possible involvement of phosphoinositide breakdown in the activation of 5'-lipoxygenase has been investigated. Using streptolysin-O permeabilized cells and different doses of neomycin that inhibit phosphoinositide breakdown, we have demonstrated a parallel decrease in LTC4 released by these cells, using either A23187 (86% inhibition at 200 microM of neomycin) or anti-IgG F(ab')2 (82.4% inhibition at 100 microM of neomycin). [Ca2+]i elevation has been observed by loading the cells with the fluorescent calcium indicator Fura-2 penta-acetoxy methyl ester and after stimulating with the anti-Fc-gamma RII mAb (2.4G2). It is likely that the activation of murine eosinophils by a Fc-gamma R mechanism stimulates phosphoinositide breakdown as a primary step that leads to the activation of murine 5'-lipoxygenase, producing the formation of leukotriene C4.
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PMID:Phosphoinositide breakdown is associated with Fc-gamma RII-mediated activation of 5'-lipoxygenase in murine eosinophils. 184 65


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