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)

A simple procedure is described for the purification of phosphatidylcholine-hydrolyzing phospholipase C(PLC). Lecithin, the substrate for PLC, was ligated hydrophobically to octyl-Sepharose in 2 M (NH4)2SO4. The washed lecithin-conjugated resin was then used to purify PLC from crude preparations by affinity chromatography. PLC binds to the lecithin moiety in the presence of Zn2+ and is eluted with an acidic buffer containing EDTA. PLC activity was recovered in the eluate. Both sodium dodecyl sulphate polyacrylamide gel electrophoresis and pI electrofocusing showed that the eluate contained a single monomeric protein with an apparent molecular mass of 66 kDa and a pI of 5.5.
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PMID:Purification of phospholipase C by hydrophobic interaction affinity chromatography. 177 Jan 12

A non-haemolytic phospholipase C (EC 3.1.4.3) was purified from the culture medium of Achromobacter xylosoxidans with a 5% yield and a purification factor of 330. A combination of ultrafiltration, acetone precipitation and two subsequent affinity chromatographic steps was used. The affinity chromatography is a new application of 2-(4-aminophenylsulphonyl)ethyl-cellulose, a sorbent that has previously been used for the purification of phospholipase C from Bacillus cereus. The purified enzyme gave four distinct bands on polyacrylamide gel electrophoresis, and each band was catalytically active. Under our experimental conditions, the phospholipids examined were hydrolysed in the following order: phosphatidylcholine, phosphatidylethanolamine, sphingomyelin. Neither the synthetic substrate p-nitrophenylphosphorylcholine nor phosphatidylinositol was hydrolysed under different experimental conditions. For maximal hydrolytic activity toward phosphatidylcholine, the enzyme required Triton X-100 and Ca2+ ions. EDTA was inhibitory, but the enzyme activity was almost completely restored by Zn2+. The molecular mass of the phospholipase C, estimated by gel permeation, was 34,000 daltons.
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PMID:Purification and some properties of phospholipase C from Achromobacter xylosoxidans. 178 37

Phosphatidylinositol (PI) specific phospholipase C (PIase C) treatment of human platelets caused release of a surface glycoprotein in the medium. Human blood platelets were isolated by low speed centrifugation and surface glycoproteins were labelled with periodate/[3H]borohydride procedure. Intact surface-labelled platelets were treated with PIase C purified from culture filtrates of Staphylococcus aureus (SA) or Bacillus thuringiensis (BT). After PIase C treatments platelets were spun at low speed, pellet and supernatant were separated. The supernatant was further centrifuged at high speed (140,000 x g) for 30 min. The resulting supernatant and the pellet from low speed were subjected to SDS-PAGE analysis. Protein patterns were obtained by fluorography. Release of a specific glycoprotein of approx. 150 kDa in the medium was observed due to the PIase C treatment. Prolonged incubation of platelets in 0.25 M sucrose and depletion of NaCl concentrations also affected the release of this glycoprotein. BT-PIase C released more approx. 150 kDa protein than SA-PIase C. Western blot experiment with a monoclonal antibody (mAB), epitope SZ2, reactive to human platelet surface glycoprotein Ib (GPIb) complex, confirmed that released 150 kDa glycoprotein reacted with mAB of GPIb. The release of this protein by PIase C was not inhibited by proteinase inhibitors (EDTA, PMSF and leupeptin). Treatment of human platelet membranes with PIase C also caused release of this glycoprotein as evidenced by reactivity to GPIb-mAB. These studies demonstrate that PIase C treatment causes release of 150 kDa glycoprotein from human platelet membrane surface. It is suggested that 150 kDa glycoprotein is anchored to PI in human platelets and that this glycoprotein represents the GPIb complex.
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PMID:Release of a membrane surface glycoprotein from human platelets by phosphatidylinositol specific phospholipase(s) C. 184 99

The reduction of plasma factor VII (FVII) activity by phospholipase C (PLC), in vitro, has been proposed as a possible indication of a risk of cardiovascular disease. The ability of PLC to reduce FVII activity was found to require calcium ions and the presence of triglyceride-rich lipoproteins (e.g. chylomicra and very-low density lipoproteins) rather than high or low density lipoproteins. The PLC-mediated reduction of FVII activity was prevented by pre-incubation of PLC with chylomicra, before adding FVII, and this suggests that PLC may act on triglyceride-rich lipoproteins already bound to FVII in order to reduce FVII activity. At optimal PLC concentration, the extent of the reduction in FVII activity was proportional to the concentration of chylomicra. The detergent, Tween, prevented any loss of FVII activity, in both plasma and purified systems, if it was present at the beginning of the incubation with PLC. Addition of Tween, but not EDTA, after inhibition of FVII activity had occurred, caused a partial restoration of FVII activity. It is concluded that PLC reduces FVII activity by modifying triglyceride-rich lipoproteins to a form which binds to FVII, independently of calcium ions, and which inhibits procoagulant activity. The detection of PLC-sensitive procoagulant activity. The detection of PLC-sensitive FVII activity may therefore have no greater significance than the measurement of plasma triglyceride levels in predicting a risk of cardiovascular disease.
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PMID:Phospholipase C mediated inhibition of factor VII requires triglyceride-rich lipoproteins. 186 15

Fetal rat dorsal root ganglion neurons (7-8 days in culture) were labeled with [3H]arachidonic acid for 24 h. Stimulation with 10 microM bradykinin (BK) for 30 s resulted in nearly 2-fold increases in levels of radioactive diglyceride and arachidonic acid. A similar result was obtained in the absence of receptor stimulation using the Ca2+ channel agonist BAY K 8644 (10 microM, in the presence of 100 mM potassium chloride) or the Ca2+ ionophore, ionomycin (2.5 microM). If Ca2+ influx was inhibited by adding 3 mM Co2+, a blocker of voltage-sensitive calcium channels, or 2.5 mM EDTA, then BK-stimulated accumulation of both arachidonate and diglyceride was inhibited. These data suggest Ca2+ influx is required for ligand-stimulated accumulation of both arachidonate (a product of diglyceride-lipase or phospholipase A2) and diglyceride (a product of phospholipase C). Two distinct populations of channels may be involved in these reactions since pretreatment with 10 microM nifedipine or 50 microM verapamil (agents which block a subset of voltage-sensitive Ca2+ channels) inhibited BK-stimulated accumulation of arachidonic acid, but did not inhibit diglyceride accumulation. Such functional discrimination appears to have physiological importance; the inhibitory effect of nifedipine and verapamil on BK-stimulated arachidonate release was mimicked by pretreatment with peptides which decrease Ca2+ channel conductance in dorsal root ganglion neurons. The three peptides used were 1 microM neuropeptide Y, 10 microM somatostatin, and 10 microM [N-MePhe3,D-Pro4]-morphiceptin. The effect of neuropeptide Y was blocked by pretreatment with pertussis toxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation by neuropeptides of bradykinin-stimulated second messenger release in dorsal root ganglion neurons. 197 11

GTP-binding proteins have been implicated to function as key transducing elements in the mechanism underlying receptor activation of a membrane-associated phospholipase C activity. In the present study, the regulation of phospholipase C activity by GTP-binding proteins has been characterized in a detergent-solubilized system derived from bovine brain membranes. Guanosine-5'-(3-O-thio)triphosphate (GTP-gamma-S) and guanyl-5'-yl imidodiphosphate (Gpp(NH)p) stimulated a dose-dependent increase in phospholipase C activity with half-maximal activation at 0.6 microM and 10 microM, respectively. The maximal degree of stimulation due to Gpp(NH)p or GTP-gamma-S was comparable. 100 microM GTP had only a slight stimulatory effect on phospholipase C activity. Adenine nucleotides, 100 microM adenylyl-imidodiphosphate and ATP, did not stimulate phospholipase C activity, indicating that specific guanine nucleotide-dependent regulation of phospholipase C activity was preserved in the solubilized state. Gpp(NH)p or GTP-gamma-S stimulation of phospholipase C activity was time-dependent and required Mg2+.Mg2+ regulated the time course for activation of phospholipase C by guanine nucleotides and the ability of guanine nucleotides to promote an increase in the Ca2+ sensitivity of phospholipase C. 200 microM GDP-beta-S or 5 mM EDTA rapidly reversed the activation due to GTP-gamma-S or Gpp(NH)p. These findings demonstrate that G protein regulation of phospholipase C activity in a bovine brain membrane- solubilized system occurs through a Mg2+ and time-dependent mechanism. Activation is readily reversible upon addition of excess GDP-beta-S or removal of Mg2+.
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PMID:G protein regulation of phospholipase C activity in a membrane-solubilized system occurs through a Mg2(+)- and time-dependent mechanism. 200 26

The alpha-toxin (phospholipase C) of Clostridium perfringens has been reported to contain catalytically essential zinc ions. We report here that histidine residues are essential for the co-ordination of these ion(s). Incubation of alpha toxin with diethylpyrocarbonate, a histidine modifying reagent, did not result in the loss of phospholipase C activity unless the protein was first incubated with EDTA, suggesting that zinc ions normally protect the susceptible histidine residues. When the amino acid sequences of three phospholipase C's were aligned, essential zinc binding histidine residues in the non-toxic B. cereus phospholipase C were found in similar positions in the toxic C. perfringens enzyme and the weakly toxic C. bifermentans phospholipase C.
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PMID:The role of histidine residues in the alpha toxin of Clostridium perfringens. 211 Dec 59

Dictyostelium discoideum amoebae were transformed with an expression vector for the gp80, a protein believed to mediate EDTA-resistant cell adhesion in developmental cells. Vegetative cells, that do not normally contain gp80, expressed the protein and this expression was correlated with the formation of cell-cell adhesions. These contacts exhibited minimal EDTA-resistance. Biochemical analyses of the protein synthesized by vegetative cells suggested that it is identical to that produced by aggregation-competent cells, including the presence of a glycolipid anchor. Additional experiments indicated that the anchor was insensitive to hydrolysis by exogenous (glycosly)phosphatidylinositol-specific phospholipase C [G)PI-PLCs) but was sensitive to the endogenous anchor degrading enzyme. This enzyme, initially described in aggregating cells (da Silva and Klein, Exp. Cell Res., in press) was found to be present also in vegetative amoebae.
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PMID:Cell adhesion in transformed D. discoideum cells: expression of gp80 and its biochemical characterization. 235 14

A membrane protein of MW 60,000 was purified from mouse erythrocytes. This protein inhibits generation of mouse complement C3/C5 convertases on antibody-sensitized rabbit erythrocytes, in a haemolytic assay system using guinea-pig serum diluted in EDTA as the source of C3 to C9. This protein also has the capacity to accelerate the decay of human C3 convertase of the classical complement pathway. Antibody to this membrane protein also reacted with peripheral blood mononuclear cells and spleen cells, as observed by fluorescent flow cytometry analysis. Since the reactivity of these cells to the antibody was reduced by treatment with phosphatidyl inositol-specific phospholipase C (PIPLC), it is suggested that the protein is attached to the membrane via a glycophospholipid anchor. Based on these results, we conclude that this membrane protein is a murine homologue of human decay-accelerating factor (DAF).
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PMID:Murine membrane inhibitor of complement which accelerates decay of human C3 convertase. 248 41

A hemolytic activity was identified in the hemolymph of normal and immune Galleria mellonella larvae. The hemolysin was active against sheep, human, guinea pig, and rabbit erythrocytes. Hemolysis occurred in the presence of 0.04M EDTA. Vaccination of the larvae with formalized Pseudomonas aeruginosa increased the hemolytic activity. The increase, and subsequent decline of this activity paralleled the pattern of induced in vivo antibacterial activity that is characteristic of the insect's immune response. The hemolytic activity was distinct from induced phospholipase A-like and phospholipase C-like activities that were detected in immune hemolymph and which were inhibited by EDTA. The hemolytically active material (HAM) was partially purified (apparent molecular weight range 69,000 to 75,000) and was found not to be antibacterial for P. aeruginosa. The physiological role of the HAM is as yet unknown. It is possible that it may act together with other hemolymph components to produce an immune state.
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PMID:The hemolytic activity of Galleria mellonella hemolymph. 250 85

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