Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.5 (neuropathy target esterase)
 1,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ischemic rat brains were prepared by decapitation followed by incubation in an artificial cerebrospinal fluid at various times at 37 degrees C, and the levels of phospholipids, free fatty acids, and enzymes involved in their metabolism were studied. Activities of phospholipase A, phospholipase C, and di- and monoglyceride lipase, assayed with optimal concentrations of Ca2+ and lysophospholipase, did not significantly change by 60 min of ischemia, whereas acylation enzymes of lysophospholipid decreased in activity to an extent of 70% of control at 15 min after the ischemic treatment. The maximal activities were found at 8 x 10(-3)M, 1 x 10(-3) M, and 2 x 10(-2) M Ca2+ for phospholipase A, phospholipase C, and di- and monoglyceride lipases, respectively in microsomal fractions of both control and ischemic brain. Furthermore, the sensitivity of microsomal enzymes to endogenous Ca2+ was estimated in control and ischemic brain. The sensitivity of phospholipase C was found to be increased after 1 min of ischemic treatment, but those of phospholipase A and di- and monoglyceride lipase were not increased.
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PMID:Activities of enzymes metabolizing phospholipids in rat cerebral ischemia. 274 39

Incubation of bovine rod outer segments (ROS) with radiolabeled palmitic acid (16:0) and lysophosphatidylcholines (lysoPC) radiolabeled in either the fatty acid or the choline group indicated the presence of a lysophospholipase activity that is unaffected by Ca2+. In the presence of ATP, Mg2+ and CoA and acyl CoA:lysophospholipid acytransferase activity is evident, and free fatty acids, including those released by lysophospholipase activity, are esterified to membrane phospholipids. At low concentrations of lysoPC, 68% of it is acylated to form phosphatidylcholine (PC) and 24% is converted to glycerophosphocholine (GPC) and fatty acid per hour. As the concentration of lysoPC increases lysophospholipase activity increases, acyl-CoA:lysophospholipid acyltransferase activity decreases, and the proportion of lysoPC converted to PC decreases. The rate of production of lysophospholipids in vitro under phospholipase A-stimulatory conditions exceeds the rate at which it can be removed by 5-10-fold. This suggests the possibility that an early step in light, anoxia- or hypoxia-induced damage to photoreceptor cells may be activation of the phospholipase A endogenous to ROS.
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PMID:Lysophospholipase and the metabolism of lysophosphatidylcholine in isolated bovine rod outer segments. 292 Jul 84

The pathways for degradation of phosphatidylinositol (PI) were investigated in sonicated suspensions prepared from confluent cultures of bovine pulmonary artery endothelial cells. The time courses of formation of 3H-labeled and 14C-labeled metabolites of phosphatidyl-[3H]inositol ([3H]Ins-PI) and 1-stearoyl-2-[14C] arachidonoyl-PI were determined at 37 degrees C and pH 7.5 in the presence of 2 mM EDTA with or without a 2 mM excess of Ca2+. The rates of formation of lysophosphatidyl-[3H]inositol ([3H]Ins-lyso-PI) and 1-lyso-2-[14C] arachidonoyl-PI were similar in the presence and absence of Ca2+, and the absolute amounts of the two radiolabeled lyso-PI products formed were nearly identical. This indicated that lyso-PI was formed by phospholipase A1, and phospholipase A2 was not measurable. In the presence of EDTA, [14C]arachidonic acid release from 1-stearoyl-2-[14C]arachidonoyl-PI paralleled release of glycerophospho-[3H]inositol ([3H]GPI) from [3H]Ins-PI. Formation of [3H]GPI was inhibited by treatment with the specific sulfhydryl reagent, 2,2'-dithiodipyridine, and this was accompanied by an increase in [3H]Ins-lyso-PI. In the presence of Ca2+, [14C] arachidonic acid release from 1-stearoyl-2-[14C]arachidonoyl-PI was increased 2-fold and was associated with Ca2+-dependent phospholipase C activity. Under these conditions, [3H]inositol monophosphate production exceeded formation of [14C]arachidonic acid-labeled phospholipase C products, diacylglycerol plus monoacylglycerol, by an amount that was equal to the amount of [14C]arachidonic acid formed in excess of [3H]GPI. Low concentrations of phenylmethanesulfonyl fluoride (15-125 microM) inhibited Ca2+-dependent [14C]arachidonic acid release, and the decrease in [14C] arachidonic acid formed was matched by an equivalent increase in 14C label in diacylglycerol plus monoacyclglycerol. These data supported the existence of two pathways for arachidonic acid release from PI in endothelial cells; a phospholipase A1-lysophospholipase pathway that was Ca2+-independent and a phospholipase C-diacylglycerol lipase pathway that was Ca2+-dependent. The mean percentage of arachidonic acid released from PI via the phospholipase C-diacylglycerol lipase pathway in the presence of Ca2+ was 65 +/- 8%. The mean percentage of nonpolar phospholipase C products of PI metabolized via the diacylglycerol lipase pathway to free arachidonic acid was 28 +/- 3%.
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PMID:Ca2+-dependent and Ca2+-independent pathways for release of arachidonic acid from phosphatidylinositol in endothelial cells. 311 76

Phospholipase A activity in rat stomach wall and in gastric content was studied using [1-14C]dioleoylphosphatidylcholine as substrate. The optimum activity of the stomach wall was found to take place at pH 7.0. During optimal phospholipase action about 40% of the [1-14C]oleic acid released was due to an active intracellular lysophospholipase. The gastric phospholipase required 5 mM Ca2+ for full activity and is inhibited by EDTA. It specifically hydrolyzed the sn-2 position of the phospholipid molecule. The enzyme was heat labile and inactivated by acidification at pH 3.0. The gastric content enzyme had a lower specific activity and an optimum pH of 8.0. It was heat stable and was not inactivated by acidification. These results indicate that gastric content phospholipase A is of pancreatic origin, via a duodenal reflux. By ligating the stomach we were able to further confirm that the gastric wall phospholipase was different from that of the gastric content. It originated from the stomach mucosa. Subcellular fractionation suggests that the gastric phospholipase A2 is essentially bound to the plasma membrane. About 6% of the activity was found to be soluble. Biopsies of human gastric mucosa displayed a phospholipase A activity which had similar properties to that of rat gastric enzyme. The physiological function of this enzyme is discussed in terms of prostaglandin synthesis via the release of arachidonic acid.
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PMID:Phospholipase A2 activity of rat stomach. 311 41

Membrane-bound phospholipase B was purified to a homogeneous state from Torulaspora delbrueckii cell homogenate. Cell homogenate was extracted with Triton X-100, and the enzyme was precipitated with acetone. The acetone powder was washed repeatedly with Tris-HCl buffer (pH 8.0) until no phospholipae B activity was detected in the soluble fraction. The enzyme was extracted with Triton X-100 from the final residue and purified about 1,390-fold by sequential chromatofocusing, Sepharose 6B, and DEAE-Sephadex A-50 column chromatography. The final preparation showed a single broad protein band on SDS-polyacrylamide gel electrophoresis when stained with silver stain reagent and PAS-reagent. The molecular weight of phospholipase B was about 390,000 and 140,000-190,000 as estimated by gel filtration on Sepharose 6B and SDS-polyacrylamide gel electrophoresis, respectively, suggesting that phospholipase B is an oligomeric protein. The isoelectric point was at pH 4.5. Phospholipase B has two pH optima, one acidic (pH 2.5-3.0) and the other alkaline (pH 7.2-8.0). At acidic pH the phospholipase B activity was greatly increased in the presence of divalent metal ions, although metal ions are not a factor for enzyme activity. On the other hand, at alkaline pH the enzyme required Ca2+ or Mn2+ for activity. The pH- and thermal-stabilities at both pHs were similar. The phospholipase B hydrolyzed all diacylphospholipids tested at acidic pH, but hydrolyzed only phosphatidylcholine at alkaline pH. The hydrolysis rates of lysophospholipids were much higher (about 10-fold) than those of diacylphospholipids at both pHs.
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PMID:Purification and some properties of membrane-bound phospholipase B from Torulaspora delbrueckii. 318 65

We have studied the subcellular localization of rat intestinal lysophospholipase activity and some of the biochemical properties of this enzyme. After subcellular fractionation, an enriched activity was found in the high-speed pellet fraction containing the microsomes and the brush border membranes. Subsequently, these organelles were isolated. Using the classical calcium-precipitation method to isolate brush border membranes, we failed to demonstrate any significant recovery of lysophospholipase activity associated with this fraction. The microsomal fraction was further isolated after density gradient centrifugation, and most of the lysophospholipase activity was recovered with this fraction. Because further purification of the enzyme was unsuccessful, some of the biochemical properties of the enzyme were determined on the partially purified microsomal fraction. The optimum pH of the activity was centered at 7.0, and the enzyme did not require bivalent cations. By using double reciprocal plots, we determined the Kapp(m) to be 0.4 mM; the Vapp(max), 23 mumol.h-1.mg protein-1. The enzyme was strongly inhibited by detergents having a low critical micellar concentration and less inhibited by those having a higher critical micellar concentration.
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PMID:Subcellular distribution of lysophospholipase of rat intestinal mucosa. 319 63

The myocardium contains diverse cellular components and heterogeneous phospholipid-containing membranes. The major phospholipids are phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositnol, sphingomyelin and cardiolipin. The phospholipases capable of hydrolyzing these membrane lipids include phospholipase A, lysophospholipase, and phosphatidylnositol-specific phospholipase C. Early studies revealed that myocardial phospholipase A with an acid pH is localized to lysosomes; those with more alkaline and neutral activities are present in cytosol, microsomes, mitochondria and sarcolemma. Recently, we have identified phosphatidylinositol-specific phospholipase C activity in bovine myocardium with molecular weights ranging from 40,000 to 271,000. Interestingly, forms I, II and III, had pH optima ranging from 4.5 to 5.5; form III also had significant activity at pH 7.0. All activities were stimulated by calcium, suggesting that they are different from calcium-independent phospholipases C found in liver and brain. The pathophysiological significance of these four cytosolic forms of phospholipase C remains to be determined. Thus, under injury-promoting conditions, phospholipase C appears capable of hydrolyzing membrane-associated phosphatidylinositol and the polyphosphoinositides, whereas phospholipases A and lysophospholiphases appear to prefer non-inositol containing phospholipids. Finally, very recent studies suggest "free radical-triggered lipolysis" by phospholipases as a possible mechanism for production of lysophospholipids in myocardial membranes.
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PMID:Phospholipases of the myocardium. 331 Sep 98

Phospholipid catabolism is thought to be one of the critical events in membrane injury during heart ischemia. In this work, the enzymes involved in phospholipid metabolism were studied in purified cultured ventricular myocytes in normoxic and hypoxic conditions. Purified ventricular myocytes exhibited an alkaline phospholipase A activity which had sn-2 specificity and which was calcium dependent, and an acid phospholipase A activity with sn-1 specificity. These cells also exhibited lysophospholipase and acyl-CoA/lysophosphatidylcholine acyltransferase activities. Oxygen deprivation of the myocardial cells for 4 h resulted in a sharp reduction of both phospholipase A2 and A1 activities. The activities of the other lipolytic enzymes were unaffected by hypoxia. Although hypoxia resulted in a marked increase of lactate dehydrogenase leakage in the bathing fluid, no additional release of the lipolytic enzymes and mitochondrial enzyme was observed. However, we noted an important alkaline phospholipase A2 leakage during normoxia. It is suggested that ventricular myocytes, under hypoxia, tend to prevent phospholipid degradation by reducing their phospholipase A activities.
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PMID:Activities of some enzymes of phospholipid metabolism in cultured rat ventricular myocytes in normoxic and hypoxic conditions. 333 66

Phospholipase B (EC 3.1.1.5) which hydrolyzes phospholipids in the alpha and beta positions was demonstrated in murine leukocytes using light and electron microscopic histochemical techniques. Leukocytes (neutrophils, lymphocytes, macrophages, eosinophils) were harvested from peritoneal exudates of mice. Cells were fixed in 4% calcium-formol fixative for 10 min at 4 degrees C for light microscopy and 30 min at room temperature for electron microscopy, after which they were incubated at 37 degrees C in medium at pH 6.6 containing 2 microM lysolecithin and CaCl2. The fatty acids released during the hydrolytic reaction were trapped as a calcium precipitate and were converted to a cobalt precipitate for light microscopy by treatment with cobalt acetate or to a lead precipitate for electron microscopy by treatment with lead nitrate. The reaction products were observed to be present in eosinophils and absent in neutrophils, lymphocytes and macrophages. It is concluded that the eosinophilic leukocyte is the carrier cell for phospholipase B in inflammatory reactions.
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PMID:Light and electron microscopic demonstration of phospholipase B activity in the mouse eosinophil. 334 75

The interaction between Penicillium notatum phospholipase B and divalent cations such as Ca2+ and Mg2+ was studied. When the purified enzyme, present at concentrations of submicrogram to microgram per ml, was incubated with submillimolar to millimolar concentrations of CaCl2 or MgCl2, the enzymatic activity was remarkably decreased (to no more than 30% of original activity, when the enzyme was incubated with 2 mM CaCl2 for 15 min). The inhibitory effect of divalent cations was reversible, since dialysis against a metal chelator, such as EDTA or EGTA, substantially restored the enzymatic activity. Atomic absorption analysis showed the purified enzyme molecule to be present in a complex with Ca2+ at a ratio approaching 1:1, and this Ca2+ binding was shown to be extremely tight, since repeated dialyses of the enzyme molecules against EDTA or EGTA could remove the divalent cations only in a gradual manner. During this process, the enzyme activity increased also gradually. The remnant fraction of tightly bound Ca2+ was released from the enzyme molecule after the denaturation of the enzyme by treatment with guanidine hydrochloride, and the apoenzyme recovered its substantial activity after removal of the denaturing agent by dialysis. On the other hand, the content of Mg2+ in the purified enzyme molecule was lower than that of Ca2+, and the association of Mg2+ with the enzyme was much weaker in comparison to that of Ca2+. Atomic absorption analysis of the enzyme exposed to exogenous Ca2+ showed a fast removal, by dialysis, of unbound and weakly bound divalent cation, followed by a gradual removal of endogenous Ca2+ and a concomitant increase of enzymatic activity, which are similar to data obtained for the purified enzyme. Results shown in this report suggest some regulatory roles of divalent cations, especially of Ca2+, in the enzymatic function of P. notatum phospholipse B.
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PMID:Interaction of Penicillium notatum phospholipase B with divalent cations. 336 41


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