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)

The polymorphism of bee acetylcholinesterase was studied by sucrose-gradient-sedimentation analysis and non-denaturing electrophoretic analysis of fresh extracts. Lubrol-containing extracts exhibited only one form, which sedimented at 5 S when analysed on high-salt Lubrol-containing gradients and 6 S when analysed on low-salt Lubrol-containing gradients. The 5 S/6 S form aggregated upon removal of the detergent when sedimented on detergent-free gradients and was recovered in the detergent phase after Triton X-114 phase separation. Thus the 5 S/6 S enzyme corresponds to an amphiphilic acetylcholinesterase form. In detergent-free extracts three forms, whose apparent sedimentation coefficients are 14 S, 11 S and 7 S, were observed when sedimentations were performed on detergent-free gradients. Sedimentation analyses on detergent-containing gradients showed only a 5 S peak in high-salt detergent-free extracts and a 6 S peak, with a shoulder at about 7 S, in low-salt detergent-free extracts. Electrophoretic analysis in the presence of detergent demonstrated that the 14 S and 11 S peaks corresponded to aggregates of the 5 S/6 S form, whereas the 7 S peak corresponded to a hydrophilic acetylcholinesterase form which was recovered in the aqueous phase following Triton X-114 phase separation. The 5 S/6 S amphiphilic form could be converted into a 7.1 S hydrophilic form by phosphatidylinositol-specific phospholipase C digestion.
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PMID:Acetylcholinesterase from Apis mellifera head. Evidence for amphiphilic and hydrophilic forms characterized by Triton X-114 phase separation. 284 14

The N and C terminals and tyrosine-phosphorylating site of the middle-sized tumor antigen of polyoma virus were chemically synthesized. The sequences of these peptides were Met-Asp-Arg-Val-Leu-Ser-Arg-Ala-Asp-Lys (N-MT), Met-Leu-Phe-Ile-Leu-Ile-Lys-Arg-Ser-Arg-His-Phe (C-MT), and Glu-Glu-Glu-Glu-Tyr-Met-Pro-Met-Glu (MT-Tyr), respectively. Among these peptides, the C-MT peptide inhibited phospholipase A2 (EC 3.1.1.4), phospholipase C (EC 3.1.4.3), and phospholipase D (EC 3.1.4.4). In addition, phosphatidylinositol-specific phospholipase C (EC 3.1.4.10) was also inhibited by this peptide. To study the mechanism of the inhibition, kinetic analysis was performed using phospholipase A2 from porcine pancreas. The degree of inhibition of phospholipase was dose dependent, and maximal inhibition was observed at pH 8.8. This peptide inhibited phospholipase A2 in a competitive manner for low-affinity sites of Ca2+, and in a noncompetitive manner for phospholipid substrates. When a fatty acid in the 2 position of the glycerol moiety of phosphatidylcholine was replaced by palmitic acid (C16:0), oleic acid (C18:1), linoleic acid (C18:2), eicosatrienoic acid (C20:3), or arachidonic acid (C20:4), the degree of inhibition of phosphatidylcholine hydrolysis by the C-MT peptide decreased. Inhibition of phospholipase A2 by the C-MT peptide was reversed by low concentrations of sodium deoxycholate but not by Triton X-100 or Nonidet P40, nonionic detergents. These detergents and the modification of acyl groups altered the micellar state of phospholipids. These results, taken together, suggest that the binding of the C-MT peptide near the low-affinity Ca2+ binding sites modifies the interaction of phospholipid substrates with the active center of phospholipase A2.
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PMID:Inhibition of phospholipases by Met-Leu-Phe-Ile-Leu-Ile-Lys-Arg-Ser-Arg-His-Phe, C terminus of middle-sized tumor antigen. 285 79

Delipidation of carp liver mitochondria by treatment with methyl ethyl ketone (MEK) or Triton X-100 and then perchlorate greatly reduced MAO activities. Treatment with only Triton X-100 resulted in less reduction in activity. The Km values of the remaining activities were similar regardless of these treatments. The sensitivities towards clorgyline and l-deprenyl of the remaining activity in the Triton X-100-treated residue and the phospholipase C-treated carp brain mitochondria were found to be unchanged, but those of the activity remaining in the MEK-treated residue were similarly decreased. No evidence was obtained suggesting conversion of carp MAO to either MAO-A or MAO-B by the modification of the mitochondrial lipid environment by the treatments employed.
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PMID:Membrane lipid environment of carp brain and liver mitochondrial monoamine oxidase. 286 Oct 3

Earlier reports suggested that the adenosine monophosphate (AMP)- and the p-nitrophenyl phosphate (pNPP)-hydrolyzing activities of Dictyostelium discoideum membrane preparations are due to different proteins. These results have been apparently contradicted by the recent purification to homogeneity of the two activities from culmination phase cells as a single protein [D. R. Armant and C. L. Rutherford (1981) J. Biol. Chem. 256, 12710-12718]. Results presented here from studies on the activities of vegetative cells support the concept of a single protein. Nondenaturing sodium dodecyl sulfate-polyacrylamide gel electrophoresis of Triton X-100 extracts of cell membrane preparations of D. discoideum showed identical migration of pNPPase and AMPase activities. Furthermore, the previously reported different pH optima of the two activities was due to the fact that pH optima are dependent upon the substrate concentration, and the selective solubilization of AMPase from membrane preparations by phospholipase C can probably be accounted for by the finding that phospholipase C preparations from the same commercial source contain 5'-nucleotidase activity. Moreover, there are alterations in the Km and the stability of both AMPase and pNPPase in a strain with a mutationally altered alkaline phosphatase, further supporting the concept that the two activities are due to a single protein. Both substrates serve as transphosphorylation donors demonstrating that the enzyme activity is mechanistically an alkaline phosphatase.
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PMID:The membrane-bound alkaline phosphatase and 5'-nucleotidase activities of vegetative cells of Dictyostelium discoideum. 298 13

Previous studies demonstrated that hen erythrocytes have an inoperative, latent sphingomyelinase which is activated when the cells are hemolyzed in a hypotonic medium. Within minutes after hemolysis about 60-80% of the sphingomyelin (SPM) of the RBC "ghost" membrane was hydrolyzed. In this paper, expression of sphingomyelinase activity was further investigated. The percentage of total SPM hydrolyzed depended on the volume of the hypotonic hemolyzing buffer. Thus, suspending the erythrocytes in 4 vol of the buffer resulted in clumping of the hemolyzed "ghosts" and no hydrolysis of SPM. In comparison, suspension in 19 vol of the hypotonic buffer showed no clumping and sphingomyelinase activity was fully expressed. But centrifugation of the latter or, alternatively, addition of concanavalin A induced clumping and elimination of sphingomyelinase activity. Hen RBC could also be hemolyzed in an isotonic medium in the presence of Triton X-100, mellitin, halothane, and phospholipase C. Activation of the latent sphingomyelinase occurred at concentrations of these reagents which caused cell lysis. Hen RBC were dispersed in an isotonic medium containing glutaraldehyde (0.1%) or formaldehyde (10%). This rendered the cells resistant to hemolysis, even when subsequently dispersed in a hypotonic medium or water. But incubation of the "fixed" cells in a hypotonic or isotonic medium activated the enzyme, resulting in hydrolysis of 60% of the cellular SPM. In contrast, when glutaraldehyde was included in the hypotonic buffer, hemolysis occurred but sphingomyelinase activity was eliminated.
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PMID:Utilization of membranous lipid substrates by membranous enzymes: activation of the latent sphingomyelinase of hen erythrocyte membrane. 300 52

Trehalase (EC 3.2.1.28) associated with renal and intestinal brush-border membranes was solubilized by highly purified phosphatidylinositol-specific phospholipase C (EC 3.1.4.10) from Bacillus thuringiensis, but not by phosphatidylcholine-hydrolyzing phospholipase C (EC 3.1.4.3) from Clostridium welchii or phospholipase D (EC 3.1.4.4) from cabbage. The solubilized trehalase was not adsorbed on phenyl-Sepharose, indicating that it was hydrophilic. Phosphatidylinositol-specific phospholipase C also converted Triton X-100-solubilized amphipathic trehalase into a hydrophilic form. These results suggest that trehalase is bound to the membrane through a direct and specific interaction with phosphatidylinositol.
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PMID:Solubilization of trehalase from rabbit renal and intestinal brush-border membranes by a phosphatidylinositol-specific phospholipase C. 301 6

Endogenous lipid droplets were prepared by subjecting fat cells to hypotonic shock and Triton X-100 treatment. The endogenous lipid droplets were found to show lipolysis in response to epinephrine, but not to show lipogenesis from glucose in response to insulin. These results indicated that the preparation of endogenous lipid droplets did not contain any intact fat cells capable of insulin-stimulated lipogenesis. Results with these endogenous lipid droplets showed that protein kinase inhibitor inhibited protein kinase-mediated hormone-sensitive lipase activity but did not reduce epinephrine-induced lipolysis. Cyclic AMP and dibutyryl cyclic AMP induced lipolytic activity in the presence of 80 mM KCl and their activities were not inhibited by protein kinase inhibitor. Phospholipase C inhibited epinephrine, cyclic AMP and dibutyryl cyclic AMP-induced lipolysis, but did not affect the lipolytic activity of either the activated or non-activated form of hormone-sensitive lipase. These results indicate the existence of a protein kinase inhibitor-insensitive and phospholipase C-sensitive lipolytic pathway in rat adipocytes.
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PMID:Studies on a protein kinase inhibitor-insensitive, phospholipase C-sensitive pathway of lipolysis in rat adipocytes. 302 21

Alkaline phosphatase in a wide range of tissues has been shown to be anchored in the membrane by a specific interaction with the polar head group of phosphatidylinositol. It has previously been suggested that the production of low Mr alkaline phosphatase during the commonly used butanol extraction procedure may result from the activation of an endogenous phosphoinositide-specific phospholipase C which removes the 1,2-diacylglycerol responsible for membrane anchoring. This conversion process was investigated in greater detail with human placenta used as the source of alkaline phosphatase. Mr and hydrophobicity of the alkaline phosphatase were determined by gel filtration on TSK-250 and partitioning in Triton X-114, respectively. Alkaline phosphatase extracted from human placental particulate fraction with butanol at pH 5.4 or released by incubation with Staphylococcus aureus phosphatidylinositol-specific phospholipase C produced a form of alkaline phosphatase of Mr approx. 170,000 and relatively low hydrophobicity. By contrast, the butanol extract prepared at pH 8.3 was an aggregated form of Mr approx. 600,000 and was relatively hydrophobic. The effect of a variety of inhibitors and activators on the amount of low Mr alkaline phosphatase produced during butanol extraction revealed that it was a Ca2+- and thiol-dependent process. Proteinase inhibitors had no effect. [3H]Phosphatidylinositol hydrolysis by the particulate fraction, unlike low Mr alkaline phosphatase production, was relatively sensitive to heat inactivation, indicating that the phosphoinositide-specific phospholipases C from cytosol and lysosomes were unlikely to be responsible for conversion. A butanol-stimulated activity which removed the [3H]myristic acid from the variant surface glycoprotein ( [3H]mfVSG) of Trypanosoma brucei was detectable in the human placental particulate fraction. Since this activity was acid active, Ca2+- and thiol-dependent and relatively heat stable, it may be the same as that responsible for production of low Mr alkaline phosphatase. The only 3H-labelled product identified was phosphatidic acid, suggesting that the [3H]mfVSG-cleaving activity is a phospholipase D. These data strongly support the proposal that production of low Mr alkaline phosphatase during butanol extraction is an autolytic process occurring as the result of an endogenous phospholipase. However, they also suggest that the lysosomal and cytosolic phosphoinositide-specific phospholipases C that have previously been described in many mammalian tissues are not responsible for this process.
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PMID:Conversion of human placental alkaline phosphatase from a high Mr form to a low Mr form during butanol extraction. An investigation of the role of endogenous phosphoinositide-specific phospholipases. 302 77

Addition of oleate, oleyl alcohol, or palmitate to HeLa cell medium resulted in a rapid stimulation of PC synthesis and activation of CTP: phosphocholine cytidylyltransferase. Stimulation was optimal with 0.35 mM oleate, 0.3 mM oleyl alcohol and 5 mM palmitate, or 1 mM palmitate if EGTA were added to the medium. The cytidylyltransferase was activated by translocation of the inactive cytosolic form to membranes. In untreated cells approx. 30% of the total cytidylyltransferase was membrane bound, while in treated cells, 80-90% was membrane associated. Addition of bovine serum albumin (10 mg/ml) to cells previously treated with oleate (0.35 mM) rapidly removed cellular fatty acid, and the membrane-bound cytidylyltransferase activity returned to approx. 30%. Similar results were obtained by extraction of membranes with albumin in vitro. Although 95% of the free fatty acid was extracted, 30-40% of the membrane cytidylyltransferase remained bound. Translocation of cytidylyltransferase between isolated cytosol and microsomal fractions was promoted by addition of oleate, palmitate, oleyl alcohol, and monoolein. Addition of diacylglycerol, lysophosphatidylcholine, lysophosphatidylethanolamine, calcium palmitate, and detergents such as Triton X-100, cholate or Zwittergent did not stimulate translocation of the enzyme. Addition of oleoyl-CoA promoited translocation, however, 40% of it was hydrolyzed releasing free oleic acid. Cytosolic cytidylyltransferase bound to microsomes pre-treated with phospholipase C, which had 7-fold elevated diacylglycerol content. Fatty acid-promoted translocation was blocked by Triton X-100, but not by 1 M KCl. These results suggest that a variety of compounds with differing head group size and charge, and number of hydrocarbon chains can function as translocators, and that hydrophobic rather than ionic interactions mediate the binding of cytidylyltransferase to membranes.
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PMID:Translocation of CTP: phosphocholine cytidylyltransferase from cytosol to membranes in HeLa cells: stimulation by fatty acid, fatty alcohol, mono- and diacylglycerol. 303 68

To clarify the signal transduction mechanism of the erbB gene (virus oncogene) products leading to cell growth and transformation, the alteration of signal transduction induced by enhanced inositol phospholipid metabolism was studied in chick embryo fibroblast cells (CEF cells) transformed by gag-fused erbB gene-carrying virus (GEV cells). The incorporations of 32P into phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bisphosphate were markedly increased in GEV cells. In GEV cells, the activities of lipid kinases such as phosphatidylinositol (PI), PIP, and diacylglycerol (DG) kinases were also increased. The activities of other important enzymes involved in inositol phospholipid metabolism, such as CDP-DG:myo-inositol transferase and phospholipase C, were not changed in GEV cells. Increased inositol phospholipid metabolism might lead to the production of second messengers, such as 1,2-DG and inositol 1,4,5-trisphosphate. Indeed, the 1,2-DG content was also increased in GEV cells. Moreover, the activity of protein kinase C (the Ca2+/phospholipid-dependent enzyme), which should be stimulated by 1,2-DG, was elevated in GEV cells; the protein kinase C activity in the membrane fraction of GEV cells was especially high. When CEF cells were treated with tetradecanoylphorbol acetate, protein kinase C activator, plus Ca2+ ionophore, [3H]thymidine incorporation was markedly stimulated, and maximal stimulation was observed with 1 nM Ca2+ ionophore A23187 plus 100 nM TPA. On the other hand, when GEV cells were treated with TPA plus Ca2+ ionophore A23187, [3H]thymidine incorporation was consistently inhibited. Next, studies were made to determine whether the erbB gene product itself had kinase activity on PI, PIP, and DG after membranes were mildly solubilized with Triton X-100 to prevent inactivation of these kinases. Immunoprecipitates of a GEV cell lysate with antisera that reacted with the erbB gene product had PI kinase activity, whereas no activity was detected in those of lysates of uninfected CEF cells. However, the activity was very weak compared with the total cellular activity. No difference in the PIP and DG kinase activities of immunoprecipitates of cell lysates of uninfected CEF cells and GEV cells was observed. These results suggest that the erbB gene product enhances inositol phospholipid metabolism and subsequent signal transduction, but that the erbB gene product is not involved directly in lipid kinases, although it is closely associated with lipid kinase.
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PMID:Altered signal transduction in erbB-transformed cells. Implication of enhanced inositol phospholipid metabolism in erbB-induced transformation. 303 42

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