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)

1. Lysosomes from rat liver contain two enzymic systems for hydrolysing phosphatidyl-inositol: a deacylation via lysophosphatidylinositol producing glycerophosphoinositol and non-esterified fatty acid, and a phospholipase C-like cleavage into inositol 1-phosphate and diaclygycerol. 2. The separate enzyme systems involved can be distinguished by gel filtration, differential temperature-stability and the inhibitory action of detergents. 3. The enzyme systems both have pH optima at 4.8 and their attack on a pure phosphatidylinositol substrate is inhibited by many bivalent metals including Ca2+ and Mg2+, and cationic drugs. 4. Whereas the deacylation system will attack other glycerophospholipids, the phospholipase C shows a marked specificity towards phosphatidylinositol, although it will also slowly attach phosphatidylcholine with the liberation of phosphocholine. 5. Gel filtration and temperature-stability distinguish the phospholipase C from lysosomal phosphatidic acid phosphatase, but not from sphingomyelinase. 6. Evidence is presented that an EDTA-insensitive phospholipase C degrading phosphatidylinositol is present in rat brain.
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PMID:The hydrolysis of phosphatidylinositol by lysosomal enzymes of rat liver and brain. 74 53

1. The zinc content and metal ion dependence of phospholipase C(phosphatidylcholine cholinephosphohydrolase, EC 3.1.4.3) from Bacillus cereus have been examined. 2. The native enzyme contained about 2 atoms of tightly bound zinc/molecule. 3. Incubation of the enzyme with EDTA or with o-phenanthroline caused inactivation. The inactivation was accompanied by the removal of one zinc atom from the enzyme and could be fully reversed by the addition of Zn2+ or Co2+ to the enzyme and partly reversed by Mn2+ or Mg2+. 4. Prolonged exposure to o-phenanthroline removed the second zinc atom also and produced an enzyme species which was reactivated by Zn2+ only. Full reactivation was accompanied by the binding of about two zinc atoms to the enzyme. 5. The results are consistent with the view that phospholipase C is a zinc metalloenzyme.
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PMID:The metal ion dependence of phospholipase C from Bacillus cereus. 80 46

Clonal line NN hamster astroblasts and clonal line N18 neuroblasts were treated with phospholipase C-free, protease-free, and hemolysin-free Clostridium perfringens sialidase, at a low level (5 X 10(-3) units/ml) so as to maintain cell intactness and to avoid spurious protein effects. A rapid, regular release of sialic acid was achieved. An approximately 9-fold increase in ecto-pyrophosphatase activity could be brought about by action of C. perfringens sialidase for 10 min. Since the sialidase preparations were employed at a level which gave a very low concentration of extraneous protein, and the preparations were free of demonstrable phospholipase C and protease activities, these effects appear to relate specifically to removal of cell surface sialic acid. Neutral p-nitrophenyl phosphatase was activated under the same conditions, but activity remained low compared with pyrophosphatase. Progress curves for activation of the two enzymes were dissimilar. Ecto-pyrophosphatase of NN and N18 cells had an absolute requirement for Mg2+ both before and after removal of cell surface sialic acid. In the presence of near optimum Mg2+ (5 mM), other divalent cations were inhibitory at a low level (10(-1)mM). The effect of Mg2+ concentration, as well as inorganic pyrophosphate concentration, upon ecto-pyrophosphatase activity was shown to obey Michaelis-Menten kinetics for the control activity and for the sialidase-enhanced activity of both cell types. Km for Mg2+ and for pyrophosphate remained constant upon ecto-pyrophosphatase enhancement by sialic acid removal; increase in enzymatic activity was accounted for entirely by an increase in Vmax.
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PMID:Properties of ecto-(inoganic) pyrophosphatase of nervous system cells in culture. Activation upon partial release of sialic acid from the cell surface. 124 85

Prior studies demonstrated that ceramide was phosphorylated by a novel Ca(2+)-dependent kinase distinct from diacylglycerol (DG) kinase in human myelogenous leukemia (HL-60) cells (Kolesnick, R. N., and Hemer, M. R. (1990) J. Biol. Chem. 265, 10900-10904). The present studies were initiated to determine whether mammalian DG kinase purified to homogeneity possessed phosphotransferase activity toward ceramide. A high molecular weight rat brain DG kinase demonstrated Mg(2+)-(but not Ca(2+)-) dependent DG kinase activity and did not phosphorylate ceramide in the presence of either cation. In contrast, ceramide served as a competitive inhibitor with an inhibition constant (Ki) 2-6-fold greater than the Km for DG. Inhibition was noncompetitive with respect to ATP and Mg2+. A cell-permeable ceramide, N-octanoyl sphingosine (C8-cer), was used to study effects of ceramide on DG kinase in intact HL-60 cells. C8-cer induced dose- and time-dependent increases in cellular DG levels. As little as 1 microM C8-cer increased DG from a basal level of 103 to 177 pmol.10(6) cells-1, and a maximal 2.9-fold elevation to 292 pmol.10(6) cells-1 occurred with 10 microM C8-cer. DG elevation was detected after 1 min, maximal by 7.5 min, and sustained for 30 min. The DG elevation was accompanied by a reduction in 32P incorporation in phosphatidic acid in cells short term-labeled with [32P]orthophosphoric acid, consistent with inhibition of DG kinase. In contrast, a similar elevation in the DG level induced by exogenous phospholipase C increased 32P incorporation into phosphatidic acid. C8-cer was not metabolized to sphingomyelin, indicating that DG was not generated through the phosphatidylcholine:ceramide cholinephosphotransferase reaction. DG elevation after C8-cer or phospholipase C treatment was sufficient to redistribute protein kinase C from cytosol to membrane. These findings provide evidence that ceramide may serve as a competitive inhibitor of DG kinase.
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PMID:Ceramide is a competitive inhibitor of diacylglycerol kinase in vitro and in intact human leukemia (HL-60) cells. 130 77

The effect of various detergents on polyphosphoinositide-specific phospholipase C activity in highly purified wheat root plasma membrane vesicles was examined. The plasma membrane-bound enzyme was solubilized in octylglucoside and purified 25-fold by hydroxylapatite and ion-exchange chromatography. The purified enzyme catalyzed the hydrolysis of phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bisphosphate (PIP2) with specific activities of 5 and 10 mumol/min per mg protein, respectively. Phosphatidylinositol (PI) was not a substrate. Optimum activity was between pH 6-7 (PIP) and pH 6-6.5 (PIP2). The enzyme was dependent on micromolar concentrations of Ca2+ for activity, and millimolar Mg2+ further increased the activity. Other divalent cations (4 mM Ca2+, Mn2+ and Co2+) inhibited (PIP2 as substrate) or enhanced (PIP as substrate) phospholipase C activity.
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PMID:Polyphosphoinositide phospholipase C in wheat root plasma membranes. Partial purification and characterization. 131 Aug 75

Profilin was originally discovered in a tight complex with monomeric actin from bovine spleen, leading to its description as an actin monomer sequestering protein that maintains a pool of unpolymerized actin in cells. Subsequent purifications of profilin using different methods from diverse cells have consistently yielded preparations that affect the kinetics of actin assembly but do not efficiently maintain actin monomeric at steady state in solutions containing mM magnesium. Recent evidence that profilin inhibits phospholipase C and enhances nucleotide exchange of actin has led some to question whether profilin is ever truly an actin monomer sequestering agent. Here we report that the extraction of bovine spleen with fluoride- and pyrophosphate-containing solutions facilitates isolation of monomeric actin that is bound to profilin and does not polymerize in mM magnesium ion. The integrity of this complex depends on the presence of ATP. Phosphatidylinositol 4-monophosphate (PIP), previously shown to dissociate the low-affinity profilin-actin complex (Kd = 0.4 microM in mM Mg2+), also dissociates the high-affinity profilin-actin complex (Kd less than 0.02 microM in mM Mg2+) yielding actin that is polymerization competent and profilin that functions like profilins purified by conventional methods. Although the chemical basis of these results is not known, they indicate that profilin can tightly sequester actin monomers and support the earlier suggestion that the affinity of profilin for actin may be under metabolic control.
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PMID:Isolation of the phosphatidylinositol 4-monophosphate dissociable high-affinity profilin-actin complex. 132 1

The hydrolysis of phosphatidylinositol-4,5-bisphosphate (PIP2) by rat sciatic nerve cytosolic phosphoinositidase C [phosphoinositide-specific phospholipase C (PIC)] was studied at neutral pH and at ionic concentrations that approximate intracellular conditions. The principal water-soluble product formed was shown to be inositol trisphosphate by anion exchange chromatography. The maximum hydrolysis rate (2.5 nmol/min/mg protein) was achieved at less than 100 nM Ca2+. Hydrolysis was markedly increased to 15 nmol/min/mg protein by inclusion of K+ in the reaction mixture. In the presence of 200 mM K+, the optimum Ca2+ was increased to approximately 600 nM. Higher Ca2+ concentrations progressively inhibited PIP2 hydrolysis. Mg2+ also inhibited the reaction, but the presence of equimolar amounts of ATP and Mg2+ had no effect. Appreciable degradation of phosphatidylinositol-4-phosphate (PIP) also occurred in the nanomolar Ca2+ range, whereas breakdown of phosphatidylinositol (PI) required millimolar Ca2+. The presence of PIP but not PI inhibited PIP2 hydrolysis. Upon subcellular fractionation of nerve, more than 50% of recovered PIC activity was in the cytosol and about 20% was located in a myelin-enriched fraction. Using PIP2 as substrate, PIC activities in nerves from normal and streptozotocin-induced diabetic animals were not different. However, the myelin-associated enzyme from diabetic animals was more labile to freezing and thawing.
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PMID:Activity and distribution of phosphoinositidase C in rat sciatic nerve. 133 36

In rat cardiac sarcolemmal membranes a phosphoinositide-specific phospholipase C (PLC) was found to be present. The enzyme hydrolysed exogenous [3H-]phosphatidylinositol 4,5-biphosphate ([3H-]PtdIns(4,5)P2) in an optimized assay mixture containing 15 micrograms SL protein, 100 mM NaCl, 1 mM free Ca2+, 14 mM Na-cholate and 20 microM [3H-]PtdIns-(4,5)P2 (400-500 dpm/microliter) in 30 mM HEPES-Tris buffer (pH 7.0). The average specific activity was 9.14 +/- 0.55 nmol.mg-1.2.5 min-1. The addition of Mg2+ to the assay mixture did not change PLC activity but increased the relative amounts of dephosphorylated inositol products. In the absence of Na+ and at a low Ca2+ concentration (0.3 microM), Mg2+ also enhanced the intraSL levels of PtdIns4P and PtdIns, and, moreover, inhibited PLC activity (IC50-0.07 mM). PtdIns4P seemed to be a good substrate for th rat SL PLC (23.07 +/- 1.57 nmol.mg-1.2.5 min-1) whereas PtdIns was hydrolysed at a very low rate (0.36 +/- 0.08 nmol.mg-1.2.5 min-1). Unlike PtdIns(4,5)P2, PLC-dependent PtdIns4P and PtdIns hydrolysis was not inhibited by Ca2+ concentrations over 1 mM. The possibility of distinct isozymes being responsible for the different hydrolytic activities is discussed.
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PMID:The substrate specificity of phosphoinositide-phospholipase C in rat heart sarcolemma. 133 20

Phosphatidylinositol (PtdIns) kinase and phosphatidylinositol 4-phosphate (PtdIns4P) kinase have been studied in a purified sarcolemmal fraction isolated from rat heart. Both enzymes were Mg(2+)-dependent and their activities were maximal at 2.5 mM Mg2+ and pH 7.5. Kinetic analysis of endogenous substrate phosphorylation by ATP showed that the apparent Km and Vmax values for PtdIns kinase were 292 +/- 17 microM and 1390 +/- 80 pmol.mg-1.min-1, respectively, while the apparent Km and Vmax values for PtdIns4P kinase were 398 +/- 25 microM and 382 +/- 24 pmol.mg-1.min-1. Under normal conditions, the activity of PtdIns4P kinase was lower than that of PtdIns kinase; however, the former activity increased several fold in the presence of PtdIns4P as an exogenous substrate. The enzymatic synthesis of intramembranal PtdIns4P and phosphatidylinositol 4,5-bisphosphate (PtdIns (4,5)P2) was maximally enhanced by 0.1% Triton X-100 and inhibited by micromolar concentrations of Ca2+. Inhibition of PtdIns and PtdIns4P kinase showed IC50 values for Ca2+ of 20 and 6 microM, respectively, and was independent of either Ca(2+)-induced activation of phospholipase C and polyphosphoinositide monophosphoesterases or low ATP concentrations. The results indicate that purified rat heart sarcolemmal membranes contain a very active phosphoinositide phosphorylation system which is regulated by micromolar levels of Ca2+. The Ca2+ effect may contribute to the feedback inhibition of the receptor-activated formation of inositol 1,4,5-trisphosphate.
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PMID:Phosphoinositide kinases in rat heart sarcolemma: biochemical properties and regulation by calcium. 133 11

Calcium ionophore exposure generates diglycerides (DAG) from phosphatidylcholine (PC) hydrolysis in Madin-Darby canine kidney (MDCK) epithelial cells. This study compares calcium ionophore-activated PC hydrolysis with the previously described phorbol ester-stimulated PC hydrolysis pathway using MDCK cells labeled with [14C]-linoleic acid. Lipid species were measured using thin-layer chromatography. DAG resulted in part from PC hydrolysis because DAG increased in cells labeled with [palmitoyl-2-14C]phosphatidylcholine. Neither protein kinase C (PKC) inhibitors nor PKC depletion affected the ionomycin (IONO)-induced increase in DAG. Ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid prevented the increased DAG after IONO but not after phorbol 12,13-dibutyrate (PDBu) exposure. The EGTA effect was reversed by adding excess calcium but was not reversed by adding excess Mg2+. IONO exposure also increased phosphatidic acid (PA) production. The PA was produced by phospholipase D (PLD) because phosphatidylethanol was produced when IONO was added to the cells in the presence of ethanol. Although increasing concentrations of ethanol resulted in progressively less PA, it had no effect on increased DAG after IONO exposure at any time point tested. These data are consistent with both increased phospholipase C (PLC) and increased PLD activity following ionomycin. In contrast to IONO exposure, ethanol completely prevented the increase in DAG after PDBu exposure, consistent with DAG produced by PLD activation. These results demonstrate that calcium activates both PC-specific PLC and PLD in MDCK cells and that the calcium-activated pathway is independent of the previously described PKC activation pathways.
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PMID:Calcium-activated phosphatidylcholine-specific phospholipase C and D in MDCK epithelial cells. 147 64

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