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)

The surface of amastigotes of Trypanosoma cruzi is covered by Ssp-4, a major stage-specific glycoprotein. Ssp-4 is anchored to the cell membrane by GPI. It can be metabolically labeled with [3H]myristic acid, and is converted into a hydrophilic form by treatment with the glycan-specific phospholipase C of T. brucei, or after lysis of the parasites in non-ionic detergents. The hydrophilic form of Ssp-4 is recognized by antibodies to the cross-reactive determinant of the variant surface glycoprotein of African trypanosomes. Ssp-4 is progressively shed during the intra- or extracellular development of amastigotes preceding their transformation into epi- and trypomastigotes. We show here that T. cruzi contains a phospholipase C and that most shed Ssp-4 is hydrophilic, does not contain myristic acid, and reacts with anti-CRD. These observations provide strong evidence that phospholipase C mediates the release of this glycosyl-phosphatidylinositol-anchored protein under physiological conditions, as the parasite undergoes differentiation.
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PMID:Developmentally regulated, phospholipase C-mediated release of the major surface glycoprotein of amastigotes of Trypanosoma cruzi. 327 52

Trypanosoma brucei variant surface glycoproteins are apparently synthesized with a hydrophobic carboxyl-terminal peptide that is cleaved and replaced by a complex glycosylphosphatidylinositol membrane anchor within 1 min of the completion of polypeptide synthesis. The rapidity of this carboxyl-terminal modification suggests the existence of a prefabricated core glycolipid that would be transferred en bloc to the variant surface glycoprotein polypeptide. We report the purification and chemical characterization of a glycolipid from T. brucei that has properties consistent with a role as a variant surface glycoprotein glycolipid donor. This candidate glycolipid precursor has been defined by thin-layer chromatography of extracts of trypanosomes metabolically labeled with radioactive myristic acid, ethanolamine, glucosamine, mannose, and phosphate and by enzymatic, chemical, and gas chromatographic-mass spectrometric analysis. Mild alkali released 100% of the myristic acid, and reaction with phospholipase A2 released 50%. Nitrous acid deamination generated dimyristylphosphatidylinositol, and periodate oxidation released phosphatidic acid. Treatment of purified glycolipid with phosphatidylinositol-specific phospholipase C released dimyristylglycerol and a water-soluble glycan that was sized on Bio-Gel P-4 columns. The candidate precursor contained mannose, myristic acid, phosphate, and ethanolamine with an unsubstituted amino group, but not galactose.
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PMID:Candidate glycophospholipid precursor for the glycosylphosphatidylinositol membrane anchor of Trypanosoma brucei variant surface glycoproteins. 333

We recently described the insulin-dependent release of a carbohydrate substance from plasma membranes which regulated certain intracellular enzymes (Saltiel, A. R., and Cuatrecasas, P. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 5793-5797). This enzyme-modulating substance appeared to arise from the phosphodiesterase hydrolysis of a novel inositol-containing glycolipid. This is supported by observations that insulin stimulated the rapid generation of [3H]myristate-labeled diacylglycerol in cultured BC3Hl myocytes. Myristoyl diacylglycerol production in these cells was unaffected by epinephrine, although arachidonate-labeled diacylglycerol was rapidly produced in response to stimulation by this alpha-1 adrenergic agent. The production of distinct species of diacylglycerol was apparently due to hormonally specific hydrolysis of different precursors. A novel glycolipid was identified on silica TLC or high pressure liquid chromatography which served as a substrate for the insulin-stimulated phosphodiesterase reaction. This glycolipid was metabolically labeled with radioactive inositol, glucosamine, and myristic acid, suggesting a phosphatidylinositol (PI)-glycan structure. Treatment of this glycolipid with a PI-specific phospholipase C resulted in the generation of two products: an inositol phosphate-glycan which modulated the activity of the low Km cAMP phosphodiesterase and myristoyl diacylglycerol. Insulin caused the rapid hydrolysis of the PI-glycan, which was then apparently resynthesized. These data further suggest that insulin stimulates the activity of a phospholipase C which selectively hydrolyzes a novel PI-glycan, releasing a carbohydrate enzyme modulator as well as a unique species of diacylglycerol.
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PMID:Insulin-stimulated diacylglycerol production results from the hydrolysis of a novel phosphatidylinositol glycan. 354 98

This study identifies and partially characterizes an insulin-sensitive glycophospholipid in H35 hepatoma cells. The incorporation of [3H]glucosamine into cell lipids was investigated. A major labeled lipid was purified by sequential thin layer chromatography using first an acid followed by a basic solvent system. After hydrochloric acid hydrolysis and sugar analysis by thin layer chromatography, 80% of the radioactivity in the purified lipid was found to comigrate with glucosamine. H35 cells were prelabeled with [3H]glucosamine for either 4 or 24 h and treated with insulin causing a dose-dependent stimulation of turnover of the glycophospholipid which was detected within 1 min. The purified glycolipid was cleaved by nitrous acid deamination indicating that the glucosamine C-1 was linked to the lipid moiety through a glycosidic bond. [14C]Ethanolamine, [3H]inositol, and [3H]sorbitol were not incorporated into the purified glycolipid. The incorporation of various fatty acids into this glycolipid was also studied. [3H]Palmitate was found to be preferentially incorporated while myristic acid, stearic acid, oleic acid, linoleic acid, linolenic acid, and arachidonic acid were either not incorporated or incorporated less than 10% of palmitate. The purified glycolipid labeled with [3H]palmitate was cleaved by treatment with phospholipase A2 but was resistant to mild alkali hydrolysis suggesting the presence of a 1-hexadecyl,2-palmitoyl-glyceryl moiety in the purified lipid. Treatment of labeled glycophospholipid with phosphatidylinositol-specific phospholipase C from Staphylococcus aureus generated a compound migrating as 1-alkyl,2-acyl-glycerol and a polar head group with a size in the range from 800 to 3500. These findings coupled with the nitrous acid deamination demonstrate that glucosamine was covalently linked through a phosphodiester bond to the glyceryl moiety of the purified glycolipid. These findings suggest that insulin acts on this glycophospholipid by stimulating an insulin-sensitive phospholipase C. This unique glycophospholipid may play an important role in insulin action by serving as precursor of insulin-generated mediators.
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PMID:Identification of a novel insulin-sensitive glycophospholipid from H35 hepatoma cells. 354 86

The temperature-specific G surface antigen of Paramecium primaurelia strain 156 was biosynthetically labeled by [3H]myristic acid in its membrane-bound form, but not in its soluble form. It could be cleaved by a phosphatidylinositol-specific phospholipase C from Trypanosoma brucei or from Bacillus cereus which released its soluble form with the unmasking of a particular glycosidic immunodeterminant called the crossreacting determinant. The Paramecium enzyme, capable of converting its membrane-bound form into the soluble one, was inhibited by a sulphydril reagent in the same way as the trypanosomal lipase. From this evidence we propose that the Paramecium temperature-specific surface antigens are anchored in the plasma membrane via a glycophospholipid, and that an endogenous phospholipase C may be involved in the antigenic variation process.
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PMID:The membrane-anchor of Paramecium temperature-specific surface antigens is a glycosylinositol phospholipid. 366 13

Promastigotes of the protozoan parasite Leishmania major were biosynthetically labeled with myristic acid. Solubilization and phase separation in the non-ionic detergent Triton X-114 shows that the label is not incorporated into soluble hydrophilic proteins, but is incorporated into a few insoluble proteins. The bulk of the incorporated fatty acid is associated with a heterogeneous phosphorylated glycolipid and a few amphiphilic integral membrane proteins. Among these, the major surface protein of Leishmania promastigotes, p63, is predominantly labeled. Upon digestion with Bacillus cereus phospholipase C, amphiphilic p63 is shown to lose its myristic acid label and to acquire concomitantly the characteristic electrophoretic mobility and solubility behavior of hydrophilic p63. These data show that the amphiphilic character of the major surface protein of Leishmania promastigotes is due to a covalently attached phospholipid. We propose that this phospholipid provides the sole hydrophobic moiety anchoring the protein to the pellicular membrane of the protozoan parasite.
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PMID:The major surface protein of Leishmania promastigotes is anchored in the membrane by a myristic acid-labeled phospholipid. 370 20

The membrane form of Trypanosoma brucei variant surface glycoprotein (mfVSG) is acylated with ester-linked tetradecanoic (myristic) acid (Ferguson, M. A. J., and Cross, G. A. M. (1984) J. Biol. Chem. 259, 3011-3015). Comparative analysis of Pronase peptides from mfVSG and soluble VSG localizes the site of mfVSG acylation to a COOH-terminal oligosaccharide structure. Chemical and enzymatic treatment of the acylated Pronase mfVSG fragment revealed that the myristic acid is present as a diglyceride (sn-1,2-dimyristin) that is probably linked to the COOH-terminal oligosaccharide via a phosphodiester bond between the sn-3-glycerol hydroxyl and a sugar hydroxyl group. The endogenous membrane-associated enzyme, which quantitatively cleaves myristic acid from mfVSG to produce soluble VSG, releases diglyceride, as would be expected of a phospholipase C.
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PMID:Trypanosoma brucei variant surface glycoprotein has a sn-1,2-dimyristyl glycerol membrane anchor at its COOH terminus. 398 41

CDP-diglyceride : inositol transferase was inhibited by unsaturated fatty acids. The inhibitory activity decreased in the following order: arachidonic acid greater than linolenic acid greater than linoleic acid greater than oleic acid greater than or equal to palmitoleic acid. Saturated fatty acids such as myristic acid, palmitic acid, and stearic acid had no effect. Calcium ion also inhibited the activity of CDP-diglyceride : inositol transferase. In rat hepatocytes, arachidonic acid inhibited 32P incorporation into phosphatidylinositol and phosphatidic acid without any significant effect on 32P incorporation into phosphatidylcholine, phosphatidylethanolamine and phosphatidylserine. Ca2+ ionophore A23187 also inhibited 32P incorporation into phosphatidylinositol. However, 32P incorporation into phosphatidic acid was stimulated with Ca2+ ionophore A23187. Phosphatidylinositol-specific phospholipase C was activated by unsaturated fatty acids. Polyunsaturated fatty acids such as arachidonic acid and linolenic acid had a stronger effect than di- and monounsaturated fatty acids. Saturated fatty acids had no effect on the phospholipase C activity. The phospholipase C required Ca2+ for activity. Arachidonic acid and Ca2+ had synergistic effects. These results suggest the reciprocal regulation of phosphatidylinositol synthesis and breakdown by unsaturated fatty acids and Ca2+.
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PMID:Effect of unsaturated fatty acids and Ca2+ on phosphatidylinositol synthesis and breakdown. 628 Dec 46

The effect of some bioflavonoids on the activation of polymorphonuclear leucocyte respiration and exocytosis was examined. At 10-5-10-4 M concentration, quercetin, but not morin and rutin, was found to inhibit the concanavalin A-induced enhancement of oxygen consumption markedly, without impairing leucocyte viability and concanavalin A binding. The inhibition could be reversed by either washing the leucocytes or adding a 10-fold molar excess of 1-anilino-8-naphthalene sulphonate. Concanavalin A-dependent cell secretion of lysozyme was also totally inhibited by 30 muM quercetin. The effect of quercetin on the activation of leucocyte respiration appeared to be stimulus specific. In fact, at a concentration of the flavonoid (75 muM) which provided a 95% inhibition of the concanavalin A-induced stimulation, the respiratory activation produced by phospholipase C was inhibited by about 50% and that caused by myristic acid and by the antibiotic Br-X537A by less than 25%. These data suggest that quercetin exerts its activity at specific sites of the plasma membrane of the leucocytes, and that this compound might be used to identify the membrane domain whereon different stimuli act to originate the initial stimulatory signal.
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PMID:Inhibition by quercetin of activation of polymorphonuclear leucocyte functions. Stimulus-specific effects. 734 82

Cross-regulation from the stimulatory phospholipase C to the adenylyl cyclase pathways was explored in neuroblastoma-glioma NG-108-15 cells in culture. Activation of protein kinase C by phorbol myristic acid resulted in a markedly attenuated activation of the inhibitory adenylyl cyclase response to delta-opiate agonists and epinephrine but not to the muscarinic agonist carbachol. The ability of okadaic acid to mimic the effects of phorbol myristic acid on the inhibitory response suggested a role for protein phosphorylation. Adenylyl cyclase activity from cells in which protein kinase C had been activated demonstrated a loss in the inhibitory adenylyl cyclase response at the level of the G-protein. Activation of protein kinase C prompted a 2-4-fold increase in phosphorylation of G1 alpha 2 in cells metabolically labeled with [32P]orthophosphate. The phosphate content of Gi alpha 2 was determined to be approximately 0.5 mol/mol subunit in the unstimulated cells and approximately 1.5 mol/mol subunit for cells in which protein kinase C was activated. The effects of okadaic acid, 4-alpha-phorbol, and calphostin C on inhibition of adenylyl cyclase in cells treated with phorbol myristic acid correlate with the effects of these agents on phosphorylation of Gi alpha 2. The time courses for attenuation of inhibitory adenylyl cyclase and that for phosphorylation of Gi alpha 2 were similar in cells challenged with phorbol myristic acid. These data argue for cross-regulation from the stimulatory protein kinase C to inhibitory adenylyl cyclase pathways at the level of Gi alpha 2 via protein phosphorylation.
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PMID:Phosphorylation of Gi alpha 2 attenuates inhibitory adenylyl cyclase in neuroblastoma/glioma hybrid (NG-108-15) cells. 751 3


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