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 breakdown of polyphosphoinositides (PPI) but not phosphatidylinositol (PI) has been hypothesized as the primary event following agonist (hormones/growth factors/neurotransmitters) stimulation in a wide variety of systems. This, in turn, predicts the existence of a phospholipase C (PLC) enzyme that shows specificity to PPI. Ideally, this PPI-specific PLC activity should not be absolutely dependent on Ca2+ because of its proposed role in Ca2+ mobilization. I have recently identified two PLC activities that are specific to PPI and have described their resolution from a PLC that acts on all three phosphoinositides (Manne, 1987). In this report, I describe purification to near homogeneity of one of these PLC activities. The enzyme shows maximal activity towards PPI in the presence of physiological Mg2+ concentrations, and does not act on PI under conditions optimal for PPI hydrolysis. However, a weak PI hydrolytic activity, representing about 1/8th to 1/20th of that observed with PPI is detected when 0-100 microM Ca2+ is present in the assay. This weak PI hydrolytic activity is strongly inhibited by mM Ca2+, which is required at mM levels for most of the PLC enzymes described in literature. The size of the native enzyme as determined by gel filtration (high performance liquid chromatography) is 140 kDa. Analysis of the purified enzyme by HPLC on Zorbax GF-250 column showed a single major peak that coincided with the enzyme activity. Under both denaturing and non-denaturing conditions of SDS-polyacrylamide gel electrophoresis, the highly purified enzyme shows two major bands of 38 kDa and 42 kDa, which together represent about 90% of the total stain on the gel.
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PMID:A novel candidate for receptor-coupled phospholipase C purified from human platelets. 285 55

Renal dipeptidase (EC 3.4.13.11) was solubilized from pig kidney microvillar membranes with bacterial phosphatidylinositol-specific phospholipase C and then purified by affinity chromatography on cilastatin-Sepharose. The enzyme was apparently homogeneous on SDS/polyacrylamide-gel electrophoresis with an Mr of 47,000. Immunohistochemical analysis of the distribution of the dipeptidase showed it to be concentrated in the brush-border region of the proximal tubules in close association with endopeptidase-24.11) (EC 3.4.24.11). The purified dipeptidase was shown to contain 1 mol of inositol/mol and to possess the cross-reacting determinant characteristic of the glycosyl-phosphatidylinositol membrane-anchoring domain. The glycoprotein nature of renal dipeptidase was confirmed by chemical and enzymic deglycosylation. These results establish renal dipeptidase as a glycosyl-phosphatidylinositol-anchored ectoenzyme of the microvillar membrane.
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PMID:Ectoenzymes of the kidney microvillar membrane. Affinity purification, characterization and localization of the phospholipase C-solubilized form of renal dipeptidase. 293 Apr 55

The origin and physiological significance of the multiple Mr forms of phosphoinositide-specific phospholipase C in human platelets were investigated. The higher-Mr (400,000 and 270,000) forms of the phospholipase C were converted into the 100,000-Mr form without substantial loss of activity by incubation with a Ca2+-dependent proteinase partially purified from human platelets. These three forms of the phospholipase C were purified approx. 200-500-fold from outdated human platelet supernatants. SDS/polyacrylamide-gel electrophoresis and gel-filtration analysis suggested that the higher-Mr forms of phospholipase C were complexes of 140,000-Mr subunits, whereas the lower-Mr form consisted of a single 95,000-Mr subunit. The substrate specificity of the purified phospholipase C was investigated by using 32P-labelled polyphosphoinositide substrates purified from human platelets by a new method utilizing h.p.l.c. on an amino column. Activity against all three phosphoinositides was detected at micromolar concentrations of Ca2+; this hydrolysis was markedly stimulated by phosphatidylethanolamine and inhibited by phosphatidylcholine. Comparison of the different forms of purified phospholipase C revealed no major differences in Ca2+-sensitivity or substrate specificity. Thus, although the suggestion that the high-Mr forms of human platelet phosphoinositide-specific phospholipase C were converted into a lower-Mr form by a Ca2+-dependent proteinase has been substantiated, the physiological significance of this process remains to be determined.
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PMID:Characterization of multiple forms of phosphoinositide-specific phospholipase C purified from human platelets. 302 7

A major glycoprotein of rat hepatoma plasma membranes was selectively released as a soluble form by incubating the membrane with phosphatidylinositol-specific phospholipase C. The soluble form corresponding to the glycoprotein was also prepared by butan-1-ol extraction of microsomal membranes at pH 5.5, whereas extraction at pH 8.5 yielded an electrophoretically different form with a hydrophobic nature. The soluble glycoprotein extracted at pH 5.5 was purified by sequential chromatography on concanavalin A-Sepharose, Sephacryl S-300 and anti-(alkaline phosphatase) IgG-Sepharose, the last step being used to remove a contaminating alkaline phosphatase. The glycoprotein thus purified was a single protein with Mr 130,000 in SDS/polyacrylamide-gel electrophoresis, although it behaved as a dimer in gel filtration on Sephacryl S-300. The glycoprotein was analysed for amino acid and carbohydrate composition. The composition of the carbohydrate moiety, which amounted to 64% by weight, suggested that the glycoprotein contained much larger numbers of N-linked oligosaccharide chains than those with O-linkage. It was confirmed that the purified glycoprotein was immunologically identical not only with that released by the phospholipase C but also with the hydrophobic form extracted with butan-1-ol at pH 8.5. The results indicate that the glycoprotein of rat hepatoma plasma membranes, which has an unusually high content of carbohydrate, is another membrane protein released by phosphatidylinositol-specific phospholipase C, as documented for alkaline phosphatase, acetylcholinesterase and Thy-1 antigen.
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PMID:Purification and characterization of a major glycoprotein in rat hepatoma plasma membranes. One of the membrane proteins released by phosphatidylinositol-specific phospholipase C. 303 62

Antibodies against Bacillus cereus phospholipase C were prepared in rabbits and used to affinity purify a phosphatidylcholine-preferring phospholipase C from a human monocytic cell line. Affinity chromatography resulted in an approximately 3000-fold, one-step enrichment of phospholipase C. The human enzyme had an apparent molecular mass of 40,000 daltons as determined by SDS gel electrophoresis. Western blotting analysis demonstrated that this protein interacted specifically with the rabbit antibody raised against bacterial phospholipase C. The purified enzyme preferred phosphatidylcholine as a substrate, was neutral pH active and was inhibited by EGTA. These studies demonstrate that antibodies raised against bacterial phospholipase C may be useful in purifying phospholipase C from a human source.
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PMID:Antibodies prepared to Bacillus cereus phospholipase C crossreact with a phosphatidylcholine preferring phospholipase C in mammalian cells. 309 14

This study demonstrates specific and saturable binding of [14C] allylamine to mitochondria derived from rat aorta and heart. Specific binding is linear with respect to mitochondrial concentration and has a pH optimum of 7.0. Saturation isotherms reveal anomalous kinetics of specific binding on heart mitochondria with a high affinity site (KD 16 nM) and a lower affinity site (KD 80 nM); Scatchard plots have a common intercept. Exhaustive flow dialysis in the presence of SDS demonstrates that as much as 23.5% of bound radioactive moieties in aorta mitochondria are covalently bound, and as much as 42.6% are covalently bound in heart mitochondria. Hydrolysis of heart mitochondria with phospholipase C markedly enhances saturation of [14C] allylamine, and greatly increases the quantity of covalently bound radioactive ligand. Phospholipase C hydrolysis of heart mitochondria increased monoamine oxidase B activities and unmasked a small amount of benzylamine oxidase activity, whereas hydrolysis of mitochondria with phospholipases A2 and D diminish MAO-B activity. The monoamine oxidase B inhibitor, deprenyl, significantly reduced both specific and covalent binding of the 14C-activity from [14C] allylamine to phospholipase hydrolyzed mitochondria. The benzylamine oxidase inhibitor, phenelzine, significantly decreased specific binding but had no effect on the degree of covalent binding of [14C] allylamine to phospholipase C hydrolyzed mitochondria. The benzylamine oxidase inhibitor, semicarbazide, had no effect in inhibiting [14C] allylamine binding. Covalent binding of 14C-moiety from [14C] allylamine to mitochondria--which express specific binding sites for the [14C] allylamine--and inhibition of binding by monoamine oxidase inhibitors, suggest the formation of highly reactive intermediates.
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PMID:Binding of [14C] allylamine to isolated mitochondria from rat heart and aorta. 310 19

A novel G protein which appears to couple chemotactic peptide receptors to a polyphosphoinositide phospholipase C has been purified from rabbit neutrophils. Neutrophil membranes were solubilized with sodium cholate and fractionated by successive anion exchange, gel filtration and hydrophobic chromatography. Guanosine-5'-(3-O-thio)triphosphate binding activity was purified 170-fold from the soluble extract. The alpha-subunit of the purified G protein was identified by pertussis toxin-catalyzed ADP-ribosylation, and found to have an Mr of 40,000. The beta-subunit (Mr 36,000) comigrated on SDS-polyacrylamide gel electrophoresis with the beta-subunits of bovine brain Gi and Go. The neutrophil pertussis toxin substrate is highly unstable in cholate solution unless 30% ethylene glycol is added. Structural and functional analysis of this novel G protein will advance our understanding of the molecular mechanisms of coupling of receptors to phospholipase C.
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PMID:Identification and purification of a novel G protein from neutrophils. 311 83

A soluble inositolphospholipid-specific phospholipase C (PI-phospholipase C) has been purified 5,800-fold from the cytosolic fraction of calf thymocytes. The purification was achieved by sequential column chromatographies on DEAE-Sepharose CL-6B, heparin-Sepharose CL-6B, Sephacryl S-300, Mono S, and Superose 12, followed by column chromatography on Sephadex G-100 in the presence of 1% sodium cholate. The enzyme thus purified was found to be homogeneous on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The molecular weight of the enzyme was estimated to be 68 kDa by SDS-PAGE. The enzyme is specific for inositol phospholipids. Phosphatidylinositol and phosphatidylinositol 4,5-bisphosphate (PIP2) were hydrolyzed, but phosphatidylcholine and phosphatidylethanolamine were not affected by the enzyme. GTP gamma S-binding activity was detected in the enzyme fractions after all the purification steps, but not in the final enzyme preparation. The PI-phospholipase C and GTP gamma S-binding activities in the partially purified enzyme preparation could be separated by the column chromatography on Sephadex G-100 only in the presence of 1% sodium cholate. Thus, the soluble PI-phospholipase C has affinity to a GTP-binding protein. SDS-PAGE of the GTP-binding fractions eluted from the Sephadex G-100 column gave three visible bands of 54, 41, and 27 kDa polypeptide was specifically ADP-ribosylated by pertussis toxin. Furthermore, it was found that GTP and GTP gamma S (10 microM and 1 mM) could enhance the PIP2 hydrolysis activity of the partially purified enzyme in the presence of 3 mM EGTA, but the purified enzyme after separation from the GTP-binding activity was not affected by GTP and GTP gamma S. The soluble PI-phospholipase C of calf thymocytes may be not only physically but also functionally associated with a GTP-binding protein.
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PMID:Physical and functional association of cytosolic inositolphospholipid-specific phospholipase C of calf thymocytes with a GTP-binding protein. 312 64

Phosphatidylinositol anchors human placental-type alkaline phosphatase (PLAP) to both syncytiotrophoblast and tumour cell plasma membranes. PLAP activity was released from isolated human placental syncytiotrophoblast plasma membranes and the surface of tumour cells with a phospholipase C from Bacillus cereus. This was a specific event, not the result of proteolysis or membrane perturbation, but the action of a phosphatidylinositol-specific phospholipase C in the preparation. Soluble PLAP, released with B. cereus phospholipase C and purified by immunoaffinity chromatography, ran on SDS-PAGE as a 66-kDa band. This corresponded to intact PLAP molecules. The protease bromelain cleaved lower-molecular-mass PLAP (64 kDa) from the membranes. Flow cytometry demonstrated that B. cereus phospholipase C released human tumour cell membrane PLAP in preference to other cell-surface molecules. This was in contrast to the non-specific proteolytic action of bromelain or Clostridium perfringens phospholipase C, which had no effect on membrane PLAP expression. Radiolabelling of tumour cells with fatty acids indicated PLAP to be labelled with both [3H]myristic and [3H]palmitic acid. This fatty-acid--PLAP bond was sensitive to pH 10 hydroxylamine treatment indicating an O-ester linkage.
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PMID:Attachment of human placental-type alkaline phosphatase via phosphatidylinositol to syncytiotrophoblast and tumour cell plasma membranes. 312 11

Biosynthetic labelling experiments with cercariae and schistosomula of the multicellular parasitic trematode Schistosoma mansoni were performed to determine whether [3H]palmitate or [3H]ethanolamine was incorporated into proteins. Parasites incorporated [3H]palmitate into numerous proteins, as judged by SDS/polyacrylamide-gel electrophoresis and fluorography. The radiolabel was resistant to extraction with chloroform, but sensitive to alkaline hydrolysis, indicating the presence of an ester bond. Further investigation of the major 22 kDa [3H]palmitate-labelled species showed that the label could be recovered in a Pronase fragment which bound detergent and had an apparent molecular mass of 1200 Da as determined by gel filtration on Sephadex LH-20. Schistosomula incubated with [3H]ethanolamine for up to 24 h incorporated this precursor into several proteins; labelled Pronase fragments recovered from the three most intensely labelled proteins were hydrophilic and had a molecular mass of approx. 200 Da. Furthermore, reductive methylation of such fragments showed that the [3H]ethanolamine bears a free amino group, indicating the lack of an amide linkage. We also evaluated the effect of phosphatidylinositol-specific phospholipase C from Staphylococcus aureus: [3H]palmitate-labelled proteins of schistosomula and surface-iodinated proteins were resistant to hydrolysis with this enzyme. In conclusion, [3H]palmitate and [3H]ethanolamine are incorporated into distinct proteins of cercariae and schistosomula which do not bear glycophospholipid anchors. The [3H]ethanolamine-labelled proteins represent a novel variety of protein modification.
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PMID:Characterization of [3H]palmitate- and [3H]ethanolamine-labelled proteins in the multicellular parasitic trematode Schistosoma mansoni. 317 67


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