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 properties of phosphatidylinositol-specific phospholipase C (PI-PLC) from Bacillus thuringiensis were studied in detail. The enzyme was extremely thermostable in 0.1% bovine serum albumin and retained 73% of its activity at 100 degrees C for 10 min, while it was labile in the absence of albumin. The enzymatic activity was inhibited by HgCl2 or p-chloromercuriphenylsulfonic acid and restored by dithiothreitol. The kinetic parameters (Km and Vmax) of PI-PLC were determined for the mixed micelle of yeast phosphatidylinositol (PI)/Triton X-100 or sodium deoxycholate. Four PIs having different acyl chains: dilauroylphosphatidylinositol (DLPI), dimyristoylphosphatidylinositol (DMPI), dipalmitoylphosphatidylinositol (DPPI) and dioleoylphosphatidylinositol (DOPI) were synthesized from yeast PI through the processes of deacylation and reacylation, identified by infrared (IR) and Fourier transform nuclear magnetic resonance (FT-NMR) spectra, and subjected to the action of PI-PLC. All the synthetic PIs were hydrolyzed by this enzyme, with DLPI and DMPI being the best substrates. PI-PLC did not catalyze the hydrolysis of the phosphatidylnucleosides 5'-phosphatidylcytidine, 5'-phosphatidyluridine, 5'-phosphatidylthymidine, 5'-phosphatidyladenosine and 5'-phosphatidyl-2'-deoxyadenosine.
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PMID:The study on phosphatidylinositol-specific phospholipase C from Bacillus thuringiensis: synthesis of homogeneous substrates, substrate specificity and other properties. 142 68

Ascidian eggs release N-acetylglucosaminidase rapidly into the seawater following fertilization. This glycosidase is detected seconds after fertilization, and histochemical tests suggest the cell surface as the prefertilization storage site (Lambert, C. C. (1989). Development 105, 415-420). Living eggs of Ascidia ceratodes, A. callosa, and A. paratropa all cleave a fluorogenic substrate in seawater. Following cell surface biotinylation and activation of the eggs, enzyme activity binds to streptavidin further substantiating the cell surface localization. The released glycosidase has a molecular weight of 180 kDa by size exclusion chromatography and exhibits bands at 62 and 70 kDa by SDS-PAGE, suggesting a possibly multimeric enzyme. The enzyme is released by a glycophosphatidylinositol-specific phospholipase C and HNO2 deamination, both of which are specific indicators of linkage to the cell surface via phosphatidylinositol. The enzyme from unfertilized eggs is quite hydrophobic in Triton X-114 phase partition experiments but becomes hydrophyllic after release by activation or deamination. All of these observations are consistent with the glycosidase being anchored to the cell surface via a GPI anchor that is cleaved at fertilization to yield the soluble form of the enzyme which helps protect the egg against polyspermy. We discuss the possible role of a cell surface PLC in this release.
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PMID:Glycolipid linkage of a polyspermy blocking glycosidase to the ascidian egg surface. 142 36

Approximately 98% of turkey erythrocyte phospholipase C (PLC) is cytosolic and is released by hypotonic lysis of the cells and extensive washing of the resultant erythrocyte ghosts. Well washed turkey erythrocyte ghosts retain a fraction of tightly associated PLC, which is activated by the P2y-purinergic receptor and G-protein present in ghost membranes. The particulate PLC is sufficient to couple to all the available purinergic receptor-regulated G-protein. In contrast to ghosts, turkey erythrocyte plasma membrane preparations contain no detectable PLC. To investigate the subcellular location of the ghost-associated PLC, cytoskeletons were prepared by Triton X-100 extraction of turkey erythrocyte ghosts. The ghost-associated PLC was quantitatively recovered in cytoskeleton preparations. Cytoskeleton-associated PLC was solubilized by sodium cholate extraction, partially purified, and shown to reconstitute with PLC-free plasma membrane preparations in an agonist and guanine nucleotide-dependent fashion, indicating that the cytoskeleton-associated PLC is G-protein-regulated. Dissociation of erythrocyte ghost cytoskeletons with the actin-binding protein DNase 1 resulted in a dose-dependent inhibition of agonist and guanine nucleotide-stimulated PLC responses in ghosts and caused release of PLC from ghost or cytoskeleton preparations. These data demonstrate the specific association of a receptor and G-protein-regulated PLC with a component of the detergent-insoluble cytoskeleton and indicate that the integrity of the actin cytoskeleton is important for localization and effective coupling of PLC to the relevant G-protein.
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PMID:Association of a receptor and G-protein-regulated phospholipase C with the cytoskeleton. 142 46

Many proteins of eukaryotic cells are anchored to membranes by covalent linkage to glycosyl-phosphatidylinositol (GPI). These proteins lack a transmembrane domain, have no cytoplasmic tail, and are, therefore, located exclusively on the extracellular side of the plasma membrane. GPI-anchored proteins form a diverse family of molecules that includes membrane-associated enzymes, adhesion molecules, activation antigens, differentiation markers, protozoan coat components, and other miscellaneous glycoproteins. In the kidney, several GPI-anchored proteins have been identified, including uromodulin (Tamm-Horsfall glycoprotein), carbonic anhydrase type IV, alkaline phosphatase, Thy-1, BP-3, aminopeptidase P, and dipeptidylpeptidase. GPI-anchored proteins can be released from membranes with specific phospholipases and can be recovered from the detergent-insoluble pellet after Triton X-114 treatment of membranes. All GPI-anchored proteins are initially synthesized with a transmembrane anchor, but after translocation across the membrane of the endoplasmic reticulum, the ecto-domain of the protein is cleaved and covalently linked to a preformed GPI anchor by a specific transamidase enzyme. Although it remains obscure why so many proteins are endowed with a GPI anchor, the presence of a GPI anchor does confer some functional characteristics to proteins: (1) it is a strong apical targeting signal in polarized epithelial cells; (2) GPI-anchored proteins do not cluster into clathrin-coated pits but instead are concentrated into specialized lipid domains in the membrane, including so-called smooth pinocytotic vesicles, or caveoli; (3) GPI-anchored proteins can act as activation antigens in the immune system; (4) when the GPI anchor is cleaved by PI-phospholipase C or PI-phospholipase D, second messengers for signal transduction may be generated; (5) the GPI anchor can modulate antigen presentation by major histocompatibility complex molecules. Finally, at least one human disease, paroxysmal nocturnal hemoglobinuria, is a result of defective GPI anchor addition to plasma membrane proteins.
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PMID:Glycosyl-phosphatidylinositol-anchored membrane proteins. 145 Mar 66

Due to Triton X-114 fractionation of synaptosomes isolated from the electric organ of the fish Torpedo, the existence of a hydrophilic and an amphiphilic form of the enzyme choline-O-acetyltransferase (ChAT) was revealed. Amphiphilic ChAT which represents about 10% of total enzyme activity in synaptosomes, reached 40% of ChAT activity measured in preparations of synaptosomal plasma membranes (SPM) which were washed with solutions of increasing ionic strength. ChAT activity bound to washed SPM could be partially solubilized using proteinase K but not phospholipase C. No ChAT solubilization occurred by treating intact synaptosomes with proteinase K. Water/Triton X-114 partition coefficients of hydrophilic and amphiphilic ChAT were found to be 6.5 and 0.17, respectively. Sedimentation coefficients determined by centrifugation in linear density gradients of sucrose containing Triton X-100, were 4.2S and 4.4S for amphiphilic and hydrophilic ChAT, respectively. On the other hand, removal of Triton X-114 from the detergent phase containing amphiphilic ChAT activity led to enzyme aggregation. Finally, amphiphilic ChAT was slightly more acidic (pH 6.6) than was hydrophilic enzyme (6.8-7.0). We conclude that in Torpedo synaptosomes two forms of ChAT activity, a soluble and a membrane-bound form, are indeed present which differ in their hydrophobicity. The soluble form is hydrophilic. The membrane-bound form is amphiphilic and it aggregates upon removal of detergent. These are two characteristics of integral membrane proteins. Membrane-bound ChAT is most probably intracellularly oriented and not bound to membrane through a 'receptor' protein.
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PMID:Membrane-bound choline acetyltransferase of the torpedo has characteristics of an integral membrane protein and can be solubilized by proteolysis. 150 66

The glycosylphosphatidylinositol (GPI)-anchor of the plasma membrane-associated heparan sulfate (HS) proteoglycan was metabolically radiolabeled with [3H]myristic acid, [3H]palmitic acid, [3H]inositol, [3H]ethanolamine, or [32P]phosphate in rat ovarian granulosa cell culture. Cell cultures labeled with [3H]myristic acid or [3H]palmitic acid were extracted with 4 M guanidine HCl buffer containing 2% Triton X-100 and the proteoglycans were purified by ion exchange chromatography after extensive delipidation. Specific incorporation of 3H into GPI-anchor was demonstrated by removing the label with a phosphatidylinositol-specific phospholipase C (PI-PLC). Incorporation of 3H activity into glycosaminoglycans and core glycoproteins was also demonstrated. However, the specific activity of 3H in these structures was approximately 2 orders of magnitude lower than that in the GPI-anchor, suggesting that 3H label was the result of the metabolic utilization of catabolic products of the 3H-labeled fatty acids. PI-PLC treatment of cell cultures metabolically labeled with [3H]inositol, [3H]ethanolamine, or [32P]phosphate specifically released radiolabeled cell surface-associated HS proteoglycans indicating the presence of GPI-anchor in these proteoglycans. GPI-anchored HS proteoglycans accounted for 20-30% of the total cell surface-associated HS proteoglycans and virtually all of them were removed by PI-PLC. These results further substantiate the presence of GPI-anchored heparan sulfate proteoglycan in ovarian granulosa cells and its cell surface localization.
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PMID:Metabolic labeling of glycosylphosphatidylinositol-anchor of heparan sulfate proteoglycans in rat ovarian granulosa cells. 153 35

gp65 and gp55 are glycoprotein components of CNS synapses that are recognised by a single monoclonal antibody, SMgp65. This antibody has now been used to investigate the molecular properties of these two glycoproteins and the structural relationship between them. Both gp65 and gp55 occur in most brain regions as doublets of apparent molecular masses of 63 and 67 kDa, and 52 and 57 kDa, respectively. Striatal samples, however, are enriched in a novel gp65 isoform of 69 kDa. Removal of oligosaccharide residues from gp65 and gp55 with trifluoromethanesulphonic acid shows that gp65 and gp55 are composed of single polypeptide chains of 40 and 28 kDa, respectively. Removal of sialic acid residues with neuraminidase lowers the apparent molecular mass of both glycoproteins by 5-6 kDa. Triton X-114 phase partitioning and alkaline extraction of synaptic membranes indicate that both gp65 and gp55 are integral membrane glycoproteins. Treatment of synaptic membranes with phosphatidylinositol-specific phospholipase C does not solubilise either glycoprotein. One-dimensional peptide and epitope maps obtained by digestion of gp65 and gp55 with endoproteinase lys C or subtilisin are consistent with a close structural relationship between the two molecules. Tryptic digestion of samples enriched in gp65 and/or gp55 results in the formation of a novel immunoreactive 53-kDa species that is resistant to further trypsin degradation except in the presence of 0.1% (wt/vol) sodium dodecyl sulphate. Trypsin treatment of cultures of forebrain neurones in situ lowers the apparent molecular mass of gp65 to 53 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular characterisation and structural relationship of the synapse-enriched glycoproteins gp65 and gp55. 157 91

Production of [3H]1,2-dipalmitoylglycerol ([3H]DAG) from 1-palmitoyl-2-[9,10-3H]palmitoyl-sn-glycero-3-phosphocholine and [3H]phosphorylcholine from 1,2-dipalmitoyl-sn-glycero-3-[Me-3H]phosphocholine was studied using sonicated rat platelets. The formation of [3H]DAG and [3H]phosphorylcholine occurred at a comparable rate. [3H]Phosphorylcholine formation was dependent on the concentration of the substrate, platelet sonicates and calcium in the incubation medium. The [3H]phosphorylcholine formation increased in presence of 0.01% deoxycholate and 0.01% Triton X-100. The phosphatidylcholine-phospholipase C (PC-PLC) in the platelet sonicates was recovered in both the supernatant and particulate fractions obtained after ultracentrifugation at 105,000 x g for 1 h. The PC-PLC activity in both fractions was inhibited by 2 mM EDTA. In the presence of 0.01% deoxycholate and 0.01% Triton X-100 the activity in the particulate fraction increased compared to the activity in the supernatant, which was inhibited by 0.01% Triton X-100. The pH optima for PC-PLC in both fractions was between pH 7.2 and 7.6. PC-PLC activity was also found in rabbit and human platelet sonicates, but the activity was significantly lower than in rat platelet sonicates. There was no evidence to suggest presence of phosphatidylcholine-specific phospholipase D activity in rat sonicated platelets. This data, therefore, provides direct evidence for the presence of PC-PLC activity in rat platelets.
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PMID:Evidence for phosphatidylcholine hydrolysis by phospholipase C in rat platelets. 157 68

1. Considerable amounts of intestinal alkaline phosphatase (AP) were found intralumenally in all animal species investigated, i.e. calf, pig, goat, rat, mouse, guinea pig, hen and carp. The ratios between the total activity of AP found intralumenally and the total intestinal activity vary considerably. Calves and pigs show the highest, i.e. 0.77 and 0.44, respectively, while rodents have much lower ratios. Only 20-34% of the intralumenal alkaline phosphatase (IAP) of the calf and pig is soluble and not within the sediment after centrifugation at 135,000 x g for 60 min. whereas the IAP of rodents is soluble in the range of 60-72% of the total IAP. 2. For the IAP of the mucosa and chyme of calf, all criteria were found which are generally used, indicating a glycosylphosphatidylinositol (GlcPtdIns) anchor as proved by strong hydrophobicity using Triton X-114 phase partitioning, phenyl-Sepharose binding and enzyme aggregation, and the susceptibility to phosphatidylinositol-specific phospholipase C (PtdIns-PLC) and papain digestion. 3. More than 80% of the mucosa alkaline phosphatase (MAP) of the proximal part of the intestine and of the particulate fraction of IAP exhibit these criteria indicating the presence of the GlcPtdIns-anchor structure, whereas the anchor content of the soluble intralumenal enzyme decreases from the pylorus to the ileocecal junction. 4. MAP partially purified to a specific activity of 1747 IU/mg retains the anchor structure. 5. The results presented indicate that the release of large amounts of AP into the chyme is realized without splitting the GlcPtdIns anchor. The possible intralumenal function of this form of AP is discussed.
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PMID:Evidence for glycosylphosphatidylinositol anchoring of intralumenal alkaline phosphatase of the calf intestine. 164 47

GP-2 is the major membrane protein of the exocrine pancreatic secretory granule. It is an integral protein which is anchored by a phosphatidylinositolglycan. In addition to being present in the soluble contents of the granule, GP-2 is also actively secreted by the pancreas. Although 93% of the GP-2 in the resting secretions of anaesthetized rats could be pelleted, Triton X-114 phase extraction showed that 70% of this GP-2 had lost its hydrophobic properties. Proteases have been postulated to release GP-2 from the membrane, but phospholipases also have the capacity to release the protein from the membrane by hydrolysis of its peculiar glycosylphosphatidylinositol membrane anchor. These studies show the presence of inositol 1,2-(cyclic)monophosphate on the secreted hydrophilic GP-2, confirming the involvement of an endogenous phospholipase C in the solubilization of GP-2 by the exocrine pancreas. It is therefore concluded that most of the GP-2 secreted by the pancreas of anaesthetized rats under resting conditions is released from the membrane by a phospholipase C which hydrolyses the phosphodiester bond linking GP-2 to its diradylglycerol anchor.
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PMID:In resting conditions, the pancreatic granule membrane protein GP-2 is secreted by cleavage of its glycosylphosphatidylinositol anchor. 165 6

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