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 specific steroid binding capacity of soluble preparations from mouse fibroblasts and rat thymic lymphocytes is inactivated by incubation with phospholipases. Receptor binding is drastically reduced by very low concentrations of boiled phospholipase A preparations from bee venom and snake venoms. The enzyme effect is calcium-dependent and is blocked by both phospholipid and a substrate analog that is a competitive inhibitor of phospholipase A. The specific binding capacity is also sensitive to digestion by phospholipase C. Two possible mechanisms are considered for the phospholipase A effect: (a) the receptor protein may be associated with a phospholipid component which is required for specific hormone binding; (b) phospholipase A may be producing detergent products that are indirectly inactivating the receptor. Examination of the effects of lysophosphatide on the receptor and assay of lipid phosphate in the receptor preparation do not support a mechanism based solely on detergent effects. Because phospholipase C, which does not produce detergent products, also inactivates the binding, we propose that the phospholipases may be digesting the phospholipid which is a requisite component of the glucocorticoid receptor.
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PMID:Evidence for a phospholipid requirement in the specific binding of glucocorticoids to receptors of fibroblasts and thymic lymphocytes. 17 9

The ability of bovine corpus luteum plasma membranes to bind 125I-choriogonadotropin has been examined after prior treatment of the membranes with phospholipases A, C, and D. Treatment of the purified membranes with low concentrations of phospholipases A and C resulted in the inhibition of the binding of 125I-choriogonadotropin to its receptors, whereas phospholipase D had no effect. Receptor activity was decreased by low concentrations of phospholipase A from either bee venom, Vipera russelli or Crotalus terrificus terrificus. Similarly, low concentrations of phospholipase C from Clostridium perfringens and Clostridium welchii also inhibited the binding activity while comparatively higher concentrations of phospholipase C from Bacillus cereus were required to achieve comparable inhibition. The time required to produce 50% inhibition of in vitro binding by phospholipases A and C was found to be 6 and 23 min, respectively. Upon either removal or chelation of calcium ions by ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA) both enzymes were completely inhibited as evidenced by the complete retention of the membrane binding activity. The decrease in the specific binding of choriogonadotropin to membranes after phospholipase digestion resulted in a decrease in the number of binding sites and was not accompanied by a change in the affinity of the hormone-receptor complex. The rates of association and dissociation of the 125I-choriogonadotropin-receptor complex and the equilibrium dissociation constant (Kd) were nearly identical in untreated and phospholipase-treated membranes. Phospholipases did not have any effect on the preformed hormone-receptor complex or on solubilized receptor. Filtration through Sepharose 6B of solubilized 125I-choriogonadotropin-receptor complex from untreated membranes or membranes which had been pretreated with phospholipase C prior to carrying out hormone binding did not alter the profile (Kav 0.38). Gel filtration of membranes treated with phospholipase A showed two peaks of bound radioactivity with distribution coefficients (Kav) of 0.08 and 0.35, respectively.
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PMID:Gonadotropin receptors in plasma membranes of bovine corpus luteum. I. Effect of phospholipases on the binding of 125I-choriogonadotropin by membrane-associated and solubilized receptors. 18 85

1. Phospholipase C[EC 3.1.4.3] was purified from the culture filtrate of Clostridium perfringens by successive chromatographies on CM-Sephadex, DEAE-Sephadex, and Sephadex G-100. During the purification it was noted that, beside the monomer form of the enzyme which was purified, a part of the enzyme existed in active polymerized forms. 2. The purified preparation gave a single band on polyacrylamide gel electrophoresis and gave a single precipitin line in immunodiffusion with the National Standard gas gangrene (C. perfringens) antitoxin, indicating the homogeneity of the preparation. 3. The specific lecithin-hydrolyzing activity of the purified preparation was comparable to that of a preparation obtained by affinity chromatography, which had the highest specific activity previously reported. 4. The molecular weight of the purified enzyme was estimated to be 43,000 by SDS-polyacryl-amide gel electrophoresis, although the same preparation gave a molecular weight of 31,000 as determined by gel filtration on Sephadex G-150. From this and the above finding that a part of the enzyme exists in active polymerized forms, the discrepancy among reported values for the molecular weight of C. perfringens phospholipase C can be accounted for. 5. For maximum hydrolytic activity toward lecithin, the enzyme required sodium deoxycholate (SDC) and Ca2+ ions. In the presence of 6 mM Ca2+, the optimal molar ratio of SDC to lecithin for maximal hydrolytic activity was about 0.5 for dipalmitoyl lecithin and about 1.0 for egg lecithin. The effects of various divalent cations on the enzymatic hydrolysis were also investigated. 6. The effects of sodium deoxycholate and Ca2+ ions on the enzymatic hydrolysis are discussed, based on their possible roles in mixed micelle formation.
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PMID:Purification and some properties of phospholipase C (alpha-toxin) of Clostridium perfringens. 19 35

Treatment of human red cell membranes with pure phospholipase A2 results in a progressive inactivation of both Ca2+-dependent and (Ca2+ + K+)-dependent ATPase and phosphatase activities. When phospholipase C replaces phospholipase A2, Ca2+-dependent ATPase activity and Ca2+-dependent phosphorylation of red cell membranes are lost, while Ca2+-dependent phosphatase activity is enhanced and its apparent affinity for Ca2+ is increased about 20-fold. Activation of Ca2+-dependent phosphatase following phospholipase C treatment was not observed in sarcoplasmic reticulum preparation. Phospholipase C increases the sensitivity of the phosphatase to N-ethylmaleimide but has little effect on the kinetic parameters relating the phosphatase activity to substrate and cofactors, suggesting that no extensive structural disarrangement of the Ca2+-ATPase system has occurred after incubation with phospholipase C.
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PMID:ATPase and phosphatase activities from human red cell membranes: II. The effects of phospholipases on Ca2+-dependent enzymic activities. 19 87

The release of plasma membrane ecto-enzymes by a phosphatidylinositol-specific phospholipase C from Staphylococcus aureus was investigated. There was no effect on L-leucyl-beta-naphthylamidase, alkaline phosphodeisterase I and Ca2+- or MG2+-ATPase, but substantial proportions of the alkaline phosphatase and 5-nucleotidase were released. There was no simultaneous release of phospholipid and the solubilized enzymes were not exluded from Sepharose 6-B. It was therefore concluded that release was not a secondary consequence of membrane vesiculation but occurred as a result of the disruption of specific interactions involving the phosphatidylinositol molecule.
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PMID:Specific release of plasma membrane enzymes by a phosphatidylinositol-specific phospholipase C. 20 48

Clostridium perfringens produced at least three distinct proteases in a synthetic medium containing calcium. Two of them, thiol and ethylenediaminetetraacetic acid disodium salt-sensitive proteases, appeared at an early stage of growth, but the other one, perhaps being identical to the one produced in a calcium-deficient medium, appeared at a late stage. The production of these proteases depended on Ca2+ but not on Zn2+ in the medium. Alpha-toxin, perhaps being a zinc-containing metalloenzyme, was rather resistant to the proteases, but toxin, produced in a zinc-deficient medium or deprived of zinc with ethylenediaminetetraacetic acid disodium salt, was very sensitive. By adding Zn2+, the toxin lacking zinc may have been converted to the zinc-containing metalloprotein that is resistant to proteases. This may explain why alpha-toxin activity increased progressively in a zinc-containing medium in spite of simultaneous production of potent proteases and why it disappeared rapidly in a zinc-deficient medium.
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PMID:Effect of zinc and calcium ions on the production of alpha-toxin and proteases by Clostridium perfringens. 20 76

Protein composition of cardiac sarcolemmal membranes was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Membranes were observed to contain about 20 polypeptide bands ranging from 18000 to 200 000 dalton mass. Out of these, six bands were prominent and together comprised 57% of the membrane protein. When sarcolemmal membranes, phosphorylated by [gamma-(32)P] ATP in the presence of Ca(2+) or Na+ with and without K+, were fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis at pH 2.4, the band III region (Mr 105 000) of gels was found to contain active sites of monomeric Ca-ATPase and (Na,K)ATPase. Bands I (Mr greater than 200 000), II (Mr 150 000), III (Mr 105 000), and VI (Mr 47 000) were accesible to trypsin; the extent of proteolysis was dependent on the time of exposure to, and the concentration of, trypsin (i.e, ratio of sarcolemmal protein/trypsin). Addition of molar sucrose protected sarcolemmal proteins from the tryptic proteolysis. Calcium transport was reduced by the action of trypsin; the degree of reduction was influenced by the time of exposure of membranes to trypsin as well as the concentration of trypsin. (Mg,Ca)ATPase activity, on the other hand, was elevated moderately at lower concentration and reduced at higher concentration of trypsin. Treatment with phospholipase C cium transport and (Mg,Ca)ATPase activity; electrophoretic patterns were unaffected by this treatment. Addition of lecithin to phospholipase C treated membranes produced a moderate increase in calcium transport. Exposure to Triton X-100 (1%) specifically solubilized three protein bands (Mr90 000, 67 000, and 57 000), whereas exposure to deoxycholate (1%) preferentially solubilized high-molecular-weight proteins, including band III (Mr 105 000); Lubrol-PX (1%) caused nonspecific solubilization of proteins, although the extent of solubilization with Lubrol-PX was considerably less than with either Triton or deoxycholate.
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PMID:Protein analysis of cardiac sarcolemma: effects of membrane-perturbing agents on membrane proteins and calcium transport. 21 4

Phospholipase C (phosphatidylcholine cholinephosphohydrolase, EC 3.1.4.3) from Pseudomonas aureofaciens was purified 3600-fold from the culture filtrate with a recovery of 1.6%. Purification was performed with the useof (NH4)2SO4 precipitation, Sephadex G-100 gel filtration and by ion-exchange chromatography on DEAE-Sephadex A-50 and CM-Sephadex C-50. The purified enzyme appeared to be homogeneous as revealed by polyacrylamide disc gel electrophoresis at pH 9.3. The molecular weight was estimated to be 35 000 by gel filtration on Sephadex G-75. Under our experimental conditions, phosphatidylethanolamine was more rapidly hydrolysed than phosphatidylcholine. Lyso forms of these two phosphatides were poor substrates. Phosphatidylserine, phosphatidylglycerol, phosphatidylinositol, cardiolipin and sphingomyelin were not hydrolysed. The enzyme activity with phosphatidylcholine as substrate was slightly stimulated by Ca2+, Mg2+, and Mn2+. However, these cations inhibited the activity with phosphatidylethanolamine as substrate. An anionic detergent, sodium deoxycholate, slightly enhanced the activity when phosphatidylcholine and phosphatidylethanolamine were used as substrates. A cationic detergent, cetyltrimethylammonium bromide, inhibited enzyme activity. EDTA and o-henanthroline inhibited the activity of the enzyme to a marked degree.
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PMID:Studies on phospholipase C from Pseudomonas aureofaciens. I. Purification and some properties of phospholipase C. 24 4

1. Phospholipase C (EC 3.1.4.3) from Clostridium novyi (oedematiens) type A was purified 2000-fold by (NH4)2SO4 precipitation, DEAE-Sephadex treatment in a batchwise system and Sephadex G-100 column chromatography. 2. The purified preparation had a specific activity of 95 mumol per min per mg protein toward phosphatidylcholine. This preparation was free from protease, lipase and oxygen-labile delta-hemolysin. 3. Phosphatidylcholine was hydrolyzed at the highest rate, while sphingomyelin and lysophosphatidylcholine were hydrolyzed at much lower rates. 4. Sodium deoxycholate and divalent cations such as Mg2+ and Ca2+ were extremely effective in stimulating phosphatidylcholine-hydrolyzing activity of this enzyme. 5. This enzyme hemolyzed horse red cells by hydrolyzing phosphatidylcholine, spingomyelin and phosphatidylethanolamine.
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PMID:Phospholipase C from Clostridium novyi type A. I. 24 23

Binding of 125I-labeled human chorionic gonadotropin to Pseudomonas maltophilia is dependent on time, temperature, and pH and the binding to this procaryotic species is hormone-specific and saturable. The equilibrium dissociation constant is 2.3 X 10(-9) M. There are no cooperative interactions between binding sites (Hill coefficient, 1.05). The number of sites is estimaated as 240 fmol/100 mug of protein. NaCl and KCl, at concentrations from 1 to 10 mM, have no effect on binding. Divalent cations (Mg2+ and Ca2+) and 1 mM EDTA inhibit hormone binding. Binding is destroyed by heat or by treatment with Pronase of alpha-chymotrypsin and is increased by phospholipase C. Binding of the labeled gonadotropin is not observed with other gram-negative organisms--e.g., Escherichia coli, Pseudomonas testosteroni, Pseudomonas aeruginosa, Enterobacter aerogenes, or Enterobacter cloacae.
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PMID:Specific gonadotropin binding to Pseudomonas maltophilia. 26 83


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