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)

Fly photoreceptor membranes were used to test the effect on defined biochemical reactions of light and of compounds causing photoreceptor excitation. Complementary electrophysiological studies examined whether putative second messengers excite the fly photoreceptor cells. This analysis revealed the following sequence of events: photoexcited rhodopsin activates a G protein by facilitating GTP binding. The G protein then activates a phospholipase C that generates inositol trisphosphate, which in turn acts as an internal messenger to bring about depolarization of the photoreceptor cell. Binding assays of GTP analogs and measurements of GTPase activity showed that there are 1.6 million copies of G protein per photoreceptor cell. The GTP binding component is a 41-kDa protein, and the light-activated GTPase is dependent on photoconversion of rhodopsin to metarhodopsin. Analysis of phospholipase C activity revealed that this enzyme is under stringent control of the G protein, that the major product formed is inositol trisphosphate, and that this product is rapidly hydrolyzed by a specific phosphomonoesterase. Introduction of inositol trisphosphate to the intact photoreceptor cell mimics the effect of light, and bisphosphoglycerate, which inhibits inositol trisphosphate hydrolysis, enhances the effects of inositol trisphosphate and of dim light. The interaction of photoexcited rhodopsin with a G protein is thus similar in both vertebrate and invertebrate photoreceptors. These G proteins, however, activate different photoreceptor enzymes: phospholipase C in invertebrates and cGMP phosphodiesterase in vertebrates.
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PMID:Coupling of photoexcited rhodopsin to inositol phospholipid hydrolysis in fly photoreceptors. 311 47

The existence of a bovine brain-derived endothelial cell growth factor has recently been reported, but its mode of action is unknown. We show that the endothelial cell growth factor is a potent stimulant of inositol monophosphate release in porcine aorta endothelial cells. Although the activation of phospholipase C by this factor does not appear to be dependent on Ca2+, the Ca2+ ionophore A23187 stimulates release of inositol phosphates. It is suggested that the inositol 1,4,5-trisphosphate 3-kinase/5-phosphomonoesterase pathway could account for the ionophore-induced changes in inositol 1,3,4-triphosphate.
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PMID:Endothelial cell growth factor and ionophore A23187 stimulation of production of inositol phosphates in porcine aorta endothelial cells. 312 9

Alkaline phosphatase (orthophosphoric-monoester phosphohydrolase [alkaline optimum], EC 3.1.3.1) expressed in two human osteosarcoma cell lines (Saos-2 and KTOO5) in culture was the tissue nonspecific type and was released from the plasma membrane by phosphatidylinositol (PI) phospholipase C. Despite a difference of 10-fold between the two cell lines in the amount of alkaline phosphatase expressed, the phospholipase solubilized nearly all of the phosphatase from resuspended cells of the two lines. Alkaline phosphatase released with Nonidet-P40 from Saos-2 cells had a Mr of 445,000 by gradient gel electrophoresis in the absence of detergent; that released by PI-phospholipase C was 200,000. The subunit Mr of both solubilized forms was 86,000. Thus, tetrameric alkaline phosphatase in the membrane is attached by a PI-glycan moiety and is converted to dimers when released by PI-phospholipase C. Tunicamycin treatment of Saos-2 cells in culture affected the release of alkaline phosphatase by a high concentration of PI-phospholipase C, but not by a low concentration; both the rate and extent of release were lower from treated cells. However, the enzyme released from the treated cells was in two forms with different molecular weights; it seems that both glycosylated and nonglycosylated dimers were transported to the cell surface and incorporated into the plasma membrane. Glycosylation does not appear to be necessary for alkaline phosphatase to be anchored in the membrane via PI.
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PMID:Release of alkaline phosphatase from human osteosarcoma cells by phosphatidylinositol phospholipase C: effect of tunicamycin. 316 62

The large apical segments of guinea pig sperm acrosomes were mechanically separated from the spermatozoa and subsequently isolated by density gradient centrifugation. The isolated acrosomal caps were very stable and maintained their crescent morphology when suspended in sucrose-based medium buffered at pH 5.6, with or without the acrosin inhibitor p-aminobenzamidine (pAB). Examination under the electron microscope showed that the acrosomal caps were free of plasma membrane and were bound by an outer acrosomal membrane which was discontinuous. Enzymatic analysis after lysis of the caps indicated that acrosin and hyaluronidase were present with high specific activity, while only a trace amount of acid phosphatase activity and no arylsulphatase, phospholipase A2, or phospholipase C activities were present. Significant particulate acrosin activity, but only trace amounts of soluble acrosin activity, could be detected in the isolated acrosomal caps if assayed immediately after isolation in the absence of pAB. However, soluble acrosin activity of high specific activity was obtained after the acrosomal caps were extracted by 10% glycerol buffered at low pH (pH 3.0). The new procedures provide a means to isolate and purify guinea pig sperm apical acrosomal segments rapidly.
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PMID:Isolation of a stable apical segment of the guinea pig sperm acrosome. 350 56

Treatment of human promyelocytic leukemia cells (HL-60 cells) with 12-O-tetradecanoylphorbol 13-acetate (TPA) results in terminal differentiation of the cells to macrophage-like cells. Treatment of the cells with TPA induced marked enhancement of the phosphorylation of 28- and 67-kDa proteins and a decrease in that of a 75-kDa protein. When the cells were treated with diacylglycerol, i.e. 50 micrograms/ml 1-oleoyl-2-acetylglycerol (OAG), similar changes in the phosphorylation of 28-, 67-, and 75-kDa proteins were likewise observed, indicating that OAG actually stimulates protein kinase C in intact HL-60 cells. OAG (1-100 micrograms/ml), which we used, activated partially purified mouse brain protein kinase C in a concentration-dependent manner. Treatment of HL-60 cells with 10 nM TPA for 48 h caused an increase by about 8-fold in cellular acid phosphatase activity. Although a significant increase in acid phosphatase activity was induced by OAG, the effect was scant compared to that of TPA (less than 7% that of TPA). After 48-h exposure to 10 nM TPA, about 95% of the HL-60 cells adhered to culture dishes. On the contrary, treatment of the cells either with OAG (2-100 micrograms/ml) or phospholipase C failed to induce HL-60 cell adhesion. Ca2+ ionophore A23187 failed to act synergistically with OAG. In addition, hourly or bi-hourly cumulative addition of OAG for 24 h also proved ineffective to induce HL-60 cell adhesion. Our present results do not imply that protein kinase C activation is nonessential for TPA-induced HL-60 cell differentiation, but do demonstrate that protein kinase C activation is not the sole event sufficient to induce HL-60 cell differentiation by means of this agent.
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PMID:Failure of 1-oleoyl-2-acetylglycerol to mimic the cell-differentiating action of 12-O-tetradecanoylphorbol 13-acetate in HL-60 cells. 393 52

Bernheimer, Alan W. (New York University School of Medicine, New York), and Lois L. Schwartz. Lysosomal disruption by bacterial toxins. J. Bacteriol. 87:1100-1104. 1964.-Seventeen bacterial toxins were examined for capacity (i) to disrupt rabbit leukocyte lysosomes as indicated by decrease in turbidity of lysosomal suspensions, and (ii) to alter rabbit liver lysosomes as measured by release of beta-glucuronidase and acid phosphatase. Staphylococcal alpha-toxin, Clostridium perfringens alpha-toxin, and streptolysins O and S affected lysosomes in both systems. Staphylococcal beta-toxin, leucocidin and enterotoxin, Shiga neurotoxin, Serratia endotoxin, diphtheria toxin, tetanus neurotoxin, C. botulinum type A toxin, and C. perfringens epsilon-toxin were not active in either system. Staphylococcal delta-toxin, C. histolyticum collagenase, crude C. perfringens beta-toxin, and crude anthrax toxin caused lysosomal damage in only one of the test systems. There is a substantial correlation between the hemolytic property of a toxin and its capacity to disrupt lysosomes, lending support to the concept that erythrocytes and lysosomes are bounded by similar membranes.
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PMID:Lysosomal disruption by bacterial toxins. 587 34

Cultures of embryonic chick muscle cells grown in medium containing phospholipase C from Clostridium perfringens incorporated [3H]choline into lipid at a rate 3- to 5-fold higher than control cultures. To determine the mechanism by which stimulation of phosphatidylcholine synthesis occurred in phospholipase C-treated cells, activities of enzymes and levels of intermediates in the biosynthetic pathway for phosphatidylcholine were examined. Activities of choline kinase, choline phosphotransferase, glycerol-3-phosphate dehydrogenase, glycerol-3-phosphate acyltransferase, acylglycerol-3-phosphate acyltransferase, and phosphatidic acid phosphatase in phospholipase C-treated cells were the same or only slightly higher than in control cells. CTP:phosphocholine cytidylyltransferase, on the other hand, was 3 times as active in homogenates from phospholipase C-treated cells. Levels of phosphocholine decreased and levels of CDP-choline increased in phospholipase C-treated cells, and a calculation of the disequilibrium ratio indicated that the cytidylyltransferase reaction was not at equilibrium. The cytidylyltransferase was, thus, identified as the regulatory enzyme for choline flux in these cells. The cytidylyltransferase was located in both the cytosolic and particulate fractions from cultured muscle cells and a much larger portion of enzyme activity was associated with the particulate fraction in cells treated with phospholipase C. Sonicated preparations of total chick lipids, phosphatidylethanolamine, and phosphatidylserine greatly stimulated the cytosolic cytidylyltransferase activity but had no effect on the particulate enzyme. Neither stimulation of incorporation of [3H]choline into lipid nor activation of the cytidylyltransferase was dependent on protein synthesis. A model for the mechanism of regulation of phosphatidylcholine synthesis in embryonic chick muscle is presented.
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PMID:Regulation of phosphatidylcholine biosynthesis in cultured chick embryonic muscle treated with phospholipase C. 625 83

Stimulated human platelets are known to undergo marked and rapid changes in phosphoinositide metabolism consistent with the activation of phospholipase C. Such changes may promote a Ca2+ flux after platelets are exposed to agonists. I have examined this enzymatic activity by using disrupted platelets. When human platelets are sonicated and then incubated with phosphatidylinositol 4,5-bisphosphate (PtdIns4,5P2) or phosphatidylinositol 4-monophosphate (PtdIns4P) in the presence of Ca2+ and deoxycholate, marked hydrolysis of these substrates occurs. Characterization of the hydrolysis products by anion exchange and thin-layer chromatography indicates that the bulk of this activity is enzymatic and attributable to phospholipase C. In the absence of Ca2+ or deoxycholate, only phosphomonoesterase activity is observed. I partially purified the soluble phospholipase C on DEAE-cellulose in order to minimize phosphomonoesterase activity. Fractions eluting at low salt concentrations contain the highest phospholipase C activity with respect to PtdIns4,5P2 and PtdIns4P and the lowest phosphomonoesterase activity. The enzyme(s) in these fractions is (are) maximally active in the presence of 0.1 mM Ca2+ and deoxycholate (1 mg/ml) and display(s) substrate affinities in the order PtdIns greater than PtdIns4P greater than PtdIns4,5P2 and maximum rates in the order PtdIns4P greater than PtdIns4,5P2 greater than PtdIns. This order of substrate preference appears to differ from that observed for physiologically stimulated cells. Possible reasons for such a discrepancy are discussed.
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PMID:Human platelets contain phospholipase C that hydrolyzes polyphosphoinositides. 631 May 76

32P-Labelled washed rabbit platelets were incubated with 0.6 nM platelet activating factor (PAF-acether), giving a full aggregation and release response within 30-60 s. The major phospholipid changes observed under these conditions were: (1) An increased labelling of phosphatidic acid (PA) within 10 s and of phosphatidylinositol (MPI) at 30 s, reflecting the activation of the MPI cycle via the cytosolic phospholipase C; (2) an enhancement of phosphatidylinositol-4-phosphate (DPI) and phosphatidylinositol-4,5-bisphosphate (TPI) labelling at later incubation times; (3) an early degradation of TPI with a counterbalancing formation of DPI. The latter changes suggest a receptor-mediated stimulation of TPI-phosphomonoesterase, the role of which in the mechanism of platelet activation is discussed.
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PMID:Platelet activating factor (PAF-acether) promotes an early degradation of phosphatidylinositol-4,5-biphosphate in rabbit platelets. 631 20

The cytotoxic action of leukocidin from Pseudomonas aeruginosa was supported by the following observations. (i) The destruction of rabbit leukocytes by the toxin was reduced in the absence of Ca2+ and stimulated by the addition of calcium ionophore A23187 but inhibited by EDTA, EGTA, and TMB-8, an antagonist of intracellular Ca2+ transport. (ii) Uptake of 45Ca into leukocytes exposed to the toxin was enhanced about threefold the rate of uptake into untreated cells. The increased 45Ca uptake into the cells was slightly inhibited by trifluoperazine, an inhibitor of Ca2+-calmodulin activity, but not by ruthenium red. (iii) Pseudomonal leukocidin enhanced rapidly the labeling of phosphatidylinositol, polyphosphoinositides, phosphatidic acid, and lysophosphatidic acid from [32P]phosphate. The time course experiments of the labeling and breakdown of these phospholipids suggested that the initial action of this toxin was to stimulate phosphatidic acid production, presumably causing a rapid metabolic change of phosphatidylinositol correlating with the activities of phosphatidylinositol-specific phospholipase C and 1,2-diacylglycerol kinase. It was considered that a rapid formation of phosphatidic acid and degradation of polyphosphoinositides might be related to a Ca2+ movement from extra- and intracellular space. (iv) In leukocytes exposed to the toxin, acid phosphatase activity as a marker enzyme of lysosome was activated up to 75% of the lysosomal enzyme before cell destruction. The leakage of lysosomal enzyme from the cells occurred at the almost same time as leukocyte destruction. The mode of cytotoxic action of pseudomonal leukocidin is discussed.
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PMID:Mode of cytotoxic action of pseudomonal leukocidin on phosphatidylinositol metabolism and activation of lysosomal enzyme in rabbit leukocytes. 641 58

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