EC:3.1.1.5 - FACTA Search

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)

Changes in the soluble inositol-containing metabolites of phosphoinositides have been measured in rat adrenal fasciculata reticularis cells stimulated by ACTH1-39 and ACTH5-24 (an analogue which is able to elicit maximal steroidogenesis in the absence of any discernible increase in cyclic AMP output). Small but significant increases in the total inositol-containing metabolites were found in response to stimulation with both ACTH analogues. For ACTH5-24 this effect on phosphoinositide (PI) metabolism occurred over the same dose range as that for the stimulation of steroidogenesis (with an ED50 of 10(-8) M ACTH5-24 for both effects). It is concluded that in the absence of cyclic AMP generation, ACTH5-24 increased the total inositol-containing metabolites in direct accordance with its steroidogenic capabilities. For ACTH1-39, the effect on PI metabolism reached a maximum with 10(-12) M ACTH1-39 and declined at higher concentrations, i.e., precisely those associated with increased cyclic AMP accumulation. These and the previous observations suggest that the cyclic AMP generated by ACTH1-39 may influence and inhibit the ACTH1-39 effect on PI metabolism. HPLC identification of the phosphoinositide metabolites of the adrenal cells showed that they include glycerophosphoinositol and glycerophosphoinositol phosphate (which would arise by sequential action of phospholipase A1 or A2 and lysophospholipase). Stimulation with ACTH1-39 elicited small but significant increases in glycerophosphoinositol levels, indicating that a phospholipase A may have been activated.
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PMID:Signal transduction in rat adrenal fasciculata cells stimulated by ACTH1-39 and ACTH5-24: role of the phosphoinositide response in steroidogenesis. 196 9

The effect of dietary zinc on larval burdens, tissue eosinophil numbers, and lysophospholipase (LPL) activity in the lungs and livers of BALB/c mice infected with Ascaris suum was evaluated. A suum larval numbers were increased in both liver and lungs in low zinc groups during primary and secondary infection as assessed at days 2 and 7 after egg administration. In the same groups, LPL activity and eosinophil numbers were reduced at both time points and in both tissues, with the exception of lung eosinophils in nonimmunized mice, since these animals did not develop an eosinophil response during primary infection.
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PMID:Effect of dietary zinc on larval burdens, tissue eosinophil numbers, and lysophospholipase activity of Ascaris suum infected mice. 197 21

1. The action of crude venoms of four aculeate species: Apis mellifera, Vespa crabro, Vespula germanica and Vespula vulgaris on human erythrocytes was investigated in order to determine the lytic and phospholipase activity of different aculeate venoms and their ability to induce red blood cell hemolysis. 2. Bee venom was the only extract to completely lyse red blood cells at the concentration of 2-3 micrograms/ml. 3. Phospholipase activity in all of the examined vespid venoms was similar and the highest value was recorded in V. germanica. 4. Vespid venoms exhibited phospholipase B activity, which is lacking in honeybee venom. 5. In all membrane phospholipids but lecithin, lysophospholipase activity of vespid venoms was 2-6 times lower than the relevant phospholipase activity. 6. The incubation of red blood cells with purified bee venom phospholipase A2 was not accompanied by lysis and, when supplemented with purified melittin, the increase of red blood cell lysis was approximately 30%.
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PMID:Hemolytic potency and phospholipase activity of some bee and wasp venoms. 198 42

To determine the active site residue, human milk bile-salt stimulated lipase (BSSL) was labelled with [3H]diisopropyl fluorophosphate (DFP). Partial sequence analysis of cyanogen bromide fragments (a total of 146 residues from 6 peptides) revealed 84% sequence identity with a putative rat lysophospholipase. Sequence analysis of a [3H]DFP-labelled peptide indicated that the active site serine was contained in the sequence Gly-Glu-Ser-Ala-Gly. In addition to similarity with rat lysophospholipase, this sequence showed homology with regions of human butyrylcholinesterase and electric ray acetylcholinesterase (68% identity). It is concluded that these proteins are members of a new supergene family.
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PMID:Human milk bile-salt stimulated lipase. Sequence similarity with rat lysophospholipase and homology with the active site region of cholinesterases. 199 11

A lysophospholipase-transacylase was purified to homogeneity from the culture broth of Candida albicans by ammonium sulfate precipitation and chromatographs on DEAE-cellulose, Ultrogel AcA-44, first Mono Q, hydroxyapatite, TSKgel-3000 and second Mono Q columns. The purified protein was a single band (Mr 41,000) as inferred by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. It had a specific activity of 78 mumol/min per mg protein for fatty acid release and 320 mumol/min per mg protein for phosphatidylcholine formation. Fatty acid release obeyed Michaelis-Menten kinetics and the apparent Km was 76 microM of 1-palmitoyl-sn-glycero-3-phosphatidylcholine, but Lineweaver-Burk plots of transacylase activity was parabolic. The ratio of hydrolase to transacylase activity of the purified enzyme was varied depending upon the concentration of lysophosphatidylcholine. Transacylation was prominent at high concentration of substrate and the ratio of hydrolase to transacylase was 0.24. Low concentration of palmitoylcarnitine (50 microM) inhibited markedly phosphatidylcholine formation but stimulated fatty acid release. The degree of esterification of 1-acyllysophosphatidylcholine was altered with mixtures of different molecular species of substrate, demonstrating acyl chain selectivity in the transfer process. These results suggest that C. albicans lysophospholipase-transacylase is different from the corresponding mammalian enzymes in enzymatic properties.
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PMID:Purification and characterization of lysophospholipase-transacylase of pathogenic fungus Candida albicans. 200 79

We have recently described a lysophospholipase A2 activity in guinea-pig heart microsomes that hydrolyses 2-acyl-sn-glycero-3-phosphocholine (2-acyl-GPC). The presence of a similar activity that hydrolyses 2-acyl-sn-glycero-3-phosphoethanolamine (2-acyl-GPE) was not known. In this study, a lysophospholipase A2 activity in guinea-pig heart microsomes that hydrolyses 2-acyl-GPE has been characterized. The enzyme did not require Ca2+ for activity and exhibited a high specificity for 2-arachidonoyl-GPE and 2-linoleoyl-GPE over 2-oleoyl-GPE and 2-palmitoyl-GPE. The specificity for these unsaturated substrates was observed in the presence and absence of detergents. Selective hydrolysis of 2-arachidonoyl-GPE over 2-palmitoyl-GPE was observed when equimolar quantities of the two substrates were incubated with the enzyme. There was no preferential hydrolysis of either 2-linoleoyl- or 2-arachidonoyl-GPE when presented individually or as a mixture. Significant differences in the characteristics of 2-acyl-GPE-hydrolysing and 2-acyl-GPC-hydrolysing activities included differences in their optimum pH, the effect of Ca2+ and their acyl specificities. Taken together, these results suggest that the two activities are catalysed by different enzymes. 2-Acyl-GPE lysophospholipase activity with a preference for 2-arachidonoyl-GPE over 2-oleoyl-GPE was observed in guinea-pig brain, liver, kidney and lung microsomes. Lysophospholipase A1 activity that catalyses the hydrolysis of 1-acyl-GPE was also present in guinea-pig heart microsomes and had different characteristics from the 2-acyl-GPE-hydrolysing activity, including a preference for saturated over unsaturated substrates. The 2-acyl-GPE lysophospholipase A2 activity appeared to be distinct from Ca(2+)-independent phospholipase A2. The characteristics of the 2-acyl-GPE lysophospholipase A2 suggest it could play a role in the selective release of arachidonic and linoleic acids for further metabolism in cells.
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PMID:2-acyl-sn-glycero-3-phosphoethanolamine lysophospholipase A2 activity in guinea-pig heart microsomes. 202 24

Previously, we reported that lysophosphatidylcholine (lyso-PtdCho), a component of oxidized low-density lipoprotein, was a monocyte chemoattractant (M.T. Quinn et al. (1988) Proc. Natl. Acad. Sci. USA 85, 2805-2809). Monocyte chemotaxis was also stimulated by lyso-platelet activating factor but not by platelet activating factor itself. In the present studies, we used other analogs of lyso-PtdCho to determine structural and metabolic features required for chemotactic activity. Although both D- and L-lyso-PtdCho stimulated chemotaxis, suggesting a lack of stereospecificity, studies using propanediol and ethanediol analogs of lyso-PtdCho suggested that a free hydroxyl moiety or an ester-linked fatty acid vicinal to the phosphocholine group of the lysophospholipid was required for the expression of activity. Incubation of [3H]choline-labeled lyso-PtdCho with monocytes resulted in the formation of labeled PtdCho, glycerophosphocholine (GPC), phosphocholine, and free choline, while resident peritoneal macrophages, cells which we show do not respond chemotactically to lyso-PtdCho, metabolized the labeled substrate to generate only labeled PtdCho and GPC; no labeled phosphocholine was found, suggesting a possible role for lysophospholipase C activity in the monocyte chemotactic response. Although monoacylglycerol, the product of lysophospholipase C hydrolysis of lyso-PtdCho, was not chemotactic for monocytes, diacylglycerol demonstrated chemotactic activity, suggesting that the subsequent acylation to diacylglycerol may be involved in the monocyte chemotactic response to lyso-PtdCho. Indeed, monocytes incorporated [3H]glycerol from [3H]glycerol-labeled lyso-PtdCho into di- and triacylglycerol. Based on these results, a model is proposed whereby the monocyte chemotactic response to lyso-PtdCho involves a sequence of metabolic steps which includes hydrolysis of lyso-PtdCho to monoacylglycerol and phosphocholine by lysophospholipase C followed by acylation of monoacylglycerol to diacylglycerol. Diacylglycerol would then act as an intracellular second messenger that could activate or facilitate the chemotactic response.
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PMID:Analysis of the monocyte chemotactic response to lysophosphatidylcholine: role of lysophospholipase C. 202 49

Phospholipid peroxidation and the activities of phospholipase A, acyl Coenzyme A:lysophospholipid acyltransferase and lysophospholipase were measured in isolated bovine rod outer segments (ROS) that were incubated in the presence or absence of the added antioxidants, vitamin E and dithiothreitol (DTT), and additionally in light or dark. DTT and vitamin E significantly inhibit both lipid peroxidation and the enzyme activities. These results suggest that one function of the enzymes for molecular replacement of fatty acids in ROS, is removal of peroxidized fatty acids and thus protection of the membrane phospholipids and proteins from further oxidative damage.
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PMID:Effects of the antioxidants dithiothreitol and vitamin E on phospholipid metabolism in isolated rod outer segments. 206 29

It has been shown for the first time that lysosomal (tritosomal) membranes of rat liver contain enzymes that are responsible for the deacylation-reacylation of phospholipids; their activity optimum lies at pH 7.0. Deacylation of lysosomal membrane phospholipids is controlled by a cascade of enzymatic reactions involving Ca2(+)-dependent phospholipase A1 which exhibits the maximal activity at 2.5 mM Ca2+ and at neutral values of pH, as well as lysophospholipase. Reacylation of lyso-derivatives of phospholipids is catalyzed by Mg2(+)-activated oleoyl-CoA:lysophosphatidylcholine acyltransferase having an activity optimum at pH 7.2.
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PMID:[The enzymatic system of phospholipid deacylation-reacylation in rat liver lysosomal membranes]. 207 42

Lysophospholipase activity was measured in rabbit aorta using 1-[1-14C]palmitoyl-sn-glycero-3-phosphocholine as a substrate. The enzyme did not require Ca2+ for its activation and the maximal activation was attained in the presence of EGTA. Cholesterol dose-dependently inhibited the lysophospholipase activity in the soluble fraction and IC50 value was approximately 15 microM. Lineweaver-Burk plot revealed that cholesterol competitively inhibited lysophospholipase and Km values in the presence and absence of cholesterol (15.5 microM) were 12.3 and 2.8 microM, respectively. Vmax values were approximately 475 pmol/min.mg. The results suggest that cholesterol can interact with the enzyme per se, resulting in the inhibition of the lysophospholipase activity in rabbit aorta.
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PMID:Inhibition of lysophospholipase by cholesterol in rabbit aorta. 210 79

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