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)

Thrombin, nucleotides, and chelators elicited a phosphatidylinositol 4,5-bisphosphate (PtdIns-P2) phospholipase C activity that was associated with human platelet membranes. Both alpha- and gamma-thrombin enhanced phospholipase C activity, whereas active site-inhibited alpha-thrombin did not stimulate PtdIns-P2 hydrolysis. PtdIns-P2 phospholipase C was also activated by nucleoside triphosphates, citrate, EDTA, and NaF. Magnesium was an inhibitor of PtdIns-P2 hydrolysis stimulated by nucleotides and chelators. Only PtdIns-P2 was degraded by the phospholipase C activated by alpha-thrombin, nucleotides, and chelators. The soluble fraction phospholipase C activity was also stimulated at low protein concentrations by nucleotides; however, soluble fraction phospholipase C activity cleaved both PtdIns-P2 and phosphatidylinositol 4-phosphate and was inhibited by chelators, suggesting the presence of a different enzyme in this compartment. The pH optimum for the membrane-associated phospholipase C in the presence of alpha-thrombin or nucleotides was 6.0, and the PtdIns-P2 phospholipase C was inhibited by neomycin and high detergent concentrations. Guanine nucleotides did not synergistically activate phospholipase C in the presence of alpha-thrombin. The characteristics of the membrane-associated PtdIns-P2 phospholipase C suggest that this enzyme is involved in platelet activation by the low-affinity alpha- or gamma-thrombin-dependent pathway.
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PMID:Thrombin- and nucleotide-activated phosphatidylinositol 4,5-bisphosphate phospholipase C in human platelet membranes. 303 33

We report the development of cell-free systems in which ligation of B cell membrane immunoglobulin leads to demonstrable mono- and polyphosphatidylinositol hydrolysis. Membranes were prepared by differential centrifugation of sonicates of normal murine B cells. Incubation of these membranes with 32P-adenosine triphosphate in the presence of Mg2+ effected the radiolabeling of phosphatidylinositol 4,5-bisphosphate (PtdInsP2) and phosphatidylinositol 4-phosphate (PtdInsP). Alternately, membranes were labeled with exogenous 3H(inositol)-PtdInsP2 in sodium cholate. Stimulation of labeled membranes with anti-immunoglobulin, but not anti-Ia or anti-H2 antibodies, resulted in hydrolysis of phosphatidylinositol, PdtInsP, PtdInsP2 and generation of inositol phosphates indicative of activation of a phospholipase C. The response was rapid, being detectable within 30 sec of stimulation, and independent of Ca2+ and guanosine 5'-triphosphate. Optimal responses were dependent on the presence of a cytosolic factor presumed to be phospholipase C. Development of these systems represents an important step towards reconstitution of membrane immunoglobulin-mediated transmembrane signaling in artificial membranes.
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PMID:B lymphocyte activation. Transmembrane signal transduction by membrane immunoglobulin in isolated cell membranes. 303 48

The main electric organ of Electrophorus electricus is particularly rich in thiamine triphosphate, which represents 87% of the total thiamine content in this tissue. The thiamine pyrophosphate concentration, however, is very low in the eel electric organ and skeletal muscle as compared with other eel or rat tissues. Furthermore, electroplax membranes contain a whole set of enzymes responsible for the dephosphorylation of thiamine tri-, pyro- and monophosphate. Thiamine triphosphatase has a pH optimum of 6.8 and is dependent on Mg2+. The real substrate of the enzyme is probably a 1:1 complex of Mg2+ and thiamine triphosphate. Thiamine pyrophosphatase is activated by Ca2+. The apparent Km for thiamine triphosphate and Vmax are found to be, respectively, 1.76 mM and 5.95 nmol/mg of protein/min. Thiamine triphosphatase activity is inhibited at physiological K+ concentrations (up to 90 mM) and increasing Na+ concentrations (50% inhibition at 300 mM). ZnCl2 (10 mM) inhibits 90% of the enzyme activity. ATP and ITP are also strongly inhibitory. No significant effect of neurotoxins is seen. Membrane-associated thiamine triphosphatase is affected differently by proteolytic enzymes and is partially inactivated by pretreatment with phospholipase C and neuraminidase. The physiological significance of thiamine triphosphatase is discussed in relation to a specific role of thiamine in the nervous system.
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PMID:Thiamine triphosphate and membrane-associated thiamine phosphatases in the electric organ of Electrophorus electricus. 303 30

Hepatocellular membranes (1000 X g) containing membrane-associated, labeled phosphatidic acid were incubated (1-30 min) with 2 mM oleate or 5 mM bromobenzene in the presence or absence of various metals and NaF. Under the appropriate incubation conditions, membranes displayed rapid and significant oleate- and bromobenzene-dependent increases in the dephosphorylation of labeled phosphatidic acid. However, oleate and bromobenzene activated the dephosphorylation of phosphatidate by phosphatidate phosphatase and phospholipase C, respectively. This conclusion is supported by the observation that the phosphatase stimulated by oleate is: (1) Mg2+ -dependent; (2) inhibited by other metals, such as Ca2+; (3) inhibited by NaF; (4) specific for phosphatidic acid; and (5) associated with a rise in liver cell triacylglycerol production. Bromobenzene, however, activated a phospholipase C that is: (1) stimulated by various metals, such as Mg2+, Ca2+ and Ba2+; (2) insensitive to NaF; (3) associated with the degradation of various membrane phospholipids; (4), associated with liver cell injury; and (5) not associated with a rise in liver cell triacylglycerol formation. These results suggest that under appropriate conditions in vitro the dephosphorylation of phosphatidic acid can be used to assess changes in phosphatidate phosphatase and/or phospholipase C activity. The distinction between these enzymes is important, since phosphatidate phosphatase and phospholipase C regulate key steps in phospholipid biosynthesis and degradation, respectively.
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PMID:A distinction in vitro between rat liver phosphatidate phosphatase and phospholipase C. 304 Jan 7

We previously reported (Ryu, S. H., Cho, K. S., Lee, K. Y., Suh, P. G., and Rhee, S. G. (1986) Biochem. Biophys. Res. Commun. 141, 137-144) that cytosolic fractions of bovine brain contain two phosphoinositide-specific phospholipase C (PLC), PLC-I and PLC-II. In this paper purification procedures and properties of these two forms of enzyme are presented. The two enzymes exhibit similar substrate specificity. Both PLC-I and PLC-II catalyze the hydrolysis of phosphatidylinositol (PI), phosphatidylinositol-4-phosphate (PIP), and phosphatidylinositol-4,5-bisphosphate (PIP2). Yet, they respond differently to activators such as Ca2+ and nucleotides and to inhibitory divalent metal ions such as Hg2+ and Cd2+. In addition, they are immunologically distinct as evidenced by the fact that monoclonal antibodies directed against either enzyme do not cross-react with the other. Their activities are Ca2+ concentration-dependent. PIP and PIP2 are better substrates than PI for both PLC-I and PLC-II when the concentration of Ca2+ is in the micromolar range. Study of the effect of nucleotides, such as GTP, guanosine 5'-(3-O-thio)triphosphate, guanyl-5'-yl imidodiphosphate, and ATP, on the activities of both isozymes with PIP2 as substrate revealed that (i) in the absence of Ca2+, PLC-I activity is enhanced by 400% by either GTP or ATP. In the presence of Ca2+ (a condition in which PLC-I exhibits much higher activity), the activation factor by nucleotides is diminished to approximately 140%. (ii) without Ca2+, PLC-II activity is too low to measure with or without added nucleotides. The effect of nucleotides on PLC-II activity is trivial in the presence of Ca2+. In addition, studies on the effect of metal ions on PI hydrolysis showed that the activities of both PLC-I and PLC-II are not affected by 50 microM of Mg2+, Mn2+, Ca2+, or Ni2+. However, Hg2+, Zn2+, and Cu2+ inhibited both PLC-I and PLC-II, with PLC-II exhibiting much higher sensitivity to these metal ions than PLC-I. For example, the value of I0.5 for Hg2+ inhibition is 0.2 microM for PLC-II and 1 microM for PLC-I. Cd2+ selectively inhibits PLC-II with a I0.5 value of 5 microM. Most of these metal ions' inhibition can be overcome by either dithiothreitol or EDTA.
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PMID:Purification and characterization of two immunologically distinct phosphoinositide-specific phospholipases C from bovine brain. 304 Jul 53

An aspartic proteinase associated with human erythrocyte membranes was shown to be responsible for autodegradation of the membrane proteins at pH values below 5.0. When the membrane was treated with phospholipase C (Bacillus cereus) or trypsin, and simply heated at 40 degrees C, the membrane-bound latent enzyme was activated, with this being accompanied by dissociation of the enzyme from the membrane. Divalent cations such as Ca2+ and Mg2+ had an inhibitory effect on the dissociation of the membrane-bound enzyme when preincubated with the membrane. The results indicate that the activation of the membrane-bound enzyme is due probably to perturbation of the normal membrane organization. When the purified enzyme was treated with 10mM 2-mercaptoethanol at 37 degrees C, the enzyme (79-82 kDa) was converted to a low molecular mass form with 42-47 kDa without any loss of activity. With the exception of treatments by thiol-reducing reagents, no conversion was observed by a variety of procedures such as exposure to 1 M NaCl and 0.1% sodium dodecyl sulfate, treatment with trypsin and incubation at pH 3.5 for up to 15 h, indicating that the enzyme consists of two polypeptide chains held together by disulfide bonds.
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PMID:An aspartic proteinase of erythrocyte membranes. Proposed mechanism for activation and further molecular properties. 306 Jan 44

We examined the effects of the divalent cations Ca2+ and Mg2+ on inositol phosphate accumulation in bovine parathyroid cells prelabelled with [3H]inositol to determine whether the high extracellular Ca2+ and Mg2+-evoked transients in cytosolic Ca2+ in these cells might result from increases in cellular IP3 levels. In the presence of Li+, both Ca2+ and Mg2+ produced rapid, 2-6-fold increases in IP3 and IP2 and a linear increase in IP of 6-8-fold at 30 min. Smaller (1.5-2-fold) increases in IP2 and IP3 were evident within 7.5-15 s upon exposure to high (3 mM) Ca2+ in the absence of Li+. The relative potencies of Ca2+ and Mg2+ (Ca2+ 3-fold more potent than Mg2+) in elevating inositol phosphates were similar to those for their effects in inhibiting PTH release. Fluoride (5 and 10 mM) also produced similar increases in inositol phosphate accumulation, presumably through activation of phospholipase C by a guanine nucleotide (G) protein-dependent process. Thus, high extracellular Ca2+ and Mg2+-induced spikes in cytosolic Ca2+ in bovine parathyroid cells may be mediated by increases in IP3, perhaps through a receptor-mediated process linked to phospholipase C by a G-protein.
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PMID:High extracellular Ca2+ and Mg2+ stimulate accumulation of inositol phosphates in bovine parathyroid cells. 310 45

Two possible cellular pathways of catecholamines from the chromaffin vesicles of PC12 cells to the surrounding medium are explored in this study. The direct one circumventing the cytoplasm can be activated in alpha-toxin-permeabilized cells with micromolar levels of free Ca2+. Catecholamine metabolites formed in the cytoplasm (i.e., 3,4-dihydroxyphenylacetic acid and 3,4-dihydroxyphenylethanol) are neither formed nor released from the cells under these conditions. However, when vesicular catecholamines were discharged into the cytoplasm by addition of the ionophore nigericin, such metabolites are formed and released into the medium independent of Ca2+. Both types of experiments provide direct evidence for the operation of Ca2+-induced exocytosis of dopamine and noradrenaline in permeabilized PC12 cells. The Ca2+ dependence of dopamine or noradrenaline release, as measured by the determination of the endogenous catecholamines using the high-performance liquid chromatography technique, exhibits two different phases. One is already activated below 1 microM free Ca2+ and plateaus at 1-5 microM free Ca2+, while a second occurs in the presence of larger amounts of free Ca2+ (10-100 microM). Ca2+-induced catecholamine release from the permeabilized cells can be modulated in different ways: It is enhanced by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate and the diacylglycerol 1-oleyl-2-acetylglycerol provided Mg2+/ATP is present, and it is inhibited by guanosine 5'-O-(3-thiotriphosphate). The latter effect is abolished by pretreatment of the cells with pertussis toxin but not by cholera toxin. Thus, it appears that Ca2+-induced exocytosis can be modulated via the protein kinase C system, as well as via GTP binding proteins.
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PMID:Ca2+-stimulated catecholamine release from alpha-toxin-permeabilized PC12 cells: biochemical evidence for exocytosis and its modulation by protein kinase C and G proteins. 332 8

Addition of Staphylococcus aureus alpha-toxin to adult bovine chromaffin cells maintained in primary culture causes permeabilization of cell membrane as shown by the release of intracellular 86Rb+. The alpha-toxin does not provoke a spontaneous release of either catecholamines or chromogranin A, a protein marker of the secretory granule, showing the integrity of the secretory vesicle membrane. However the addition of micromolar free Ca2+ concentration induced the co-release of noradrenaline and chromogranin A. In alpha-toxin-treated cells, the released chromogranin A could not be sedimented and lactate dehydrogenase was still associated within cells, which provides direct evidence that secretory product is liberated by exocytosis. By contrast, permeabilization of cells with digitonin caused a Ca2+-dependent but also a Ca2+-independent release of secretory product, a dramatic loss of lactate dehydrogenase, as well as release of secretory product in a sedimentable form. Ca2+-dependent exocytosis from alpha-toxin-permeabilized cells required Mg2+-ATP and did not occur in the presence of other nucleotides. Thus alpha-toxin is a convenient tool to permeabilize chromaffin cells, and has the advantage of keeping intracellular structures, specifically the exocytotic machinery, intact.
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PMID:Characterization of hormone and protein release from alpha-toxin-permeabilized chromaffin cells in primary culture. 348 83

Previous work has demonstrated that myocardial ischemia results in a breakdown of the excitation-contraction coupling system of cardiac muscle associated with lysosomal activation. It has been hypothesized that lysosomal activation during the course of myocardial ischemia is mediated by the production of oxygen free radicals. We have tested the hypothesis that myocardial ischemia results in the activation of lysosomal phospholipase C and disruption of calcium transport in sarcoplasmic reticulum (SR) mediated by oxygen free radicals. Three groups of dogs were studied: sham-operated controls (n = 6); normothermic global ischemia of 30-min duration (n = 6); and 30 min of normothermic global ischemia pretreated with intracoronary superoxide dismutase (SOD, 10 micrograms/ml) plus catalase (25 micrograms/ml). In vitro, isolated SR demonstrated a significant depression of calcium uptake rates and Ca2+-stimulated, Mg2+-dependent ATPase activity at both pH 7.0 and 6.4 with the depression at pH 6.4 greater than 7.0. This depression of SR function was significantly inhibited in hearts pretreated with SOD plus catalase. In sham-operated controls, acid-induced dysfunction was associated with substantial loss of phospholipid phosphorus and major changes in phospholipid composition. SR contained an extremely active, ion-independent sphingomyelinase-phospholipase C (SM-PLC) that had maximal activity at pH 4.5-5.0. This SM-PLC was activated when control SR was incubated at acid pH and the specific activity of SM-PLC was decreased 50% in SR isolated from normothermic global ischemia. Activity remained at control levels in hearts pretreated with SOD plus catalase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sarcoplasmic reticulum dysfunction: phospholipid alterations induced by lysosomal phospholipase C. 377 91

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