EC:3.1.1.7 - FACTA Search

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Query: EC:3.1.1.7 (acetylcholinesterase)
28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of carboxylesterase and cholinesterase in plasma, liver and lung of young rats at different ages (5-31 days old) have been measured. The cholinesterase activity in the tissues of both sexes were almost constant during the development, and were similar to adult male activity. The carboxylesterase activity towards methyl butyrate and 4-nitrophenyl butyrate in plasma of both sexes increased from negligible (5 days old) to adult male value (31 days old). The carboxylesterase activities in liver increased markedly during the period, whereas the lung activities increased only slightly. The toxicity of soman was 6-7 fold higher in 5 days old rats compared to 30 days old rats. The decrease in toxicity correlated well with the increase in plasma carboxylesterase.
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PMID:Esterase activities and soman toxicity in developing rat. 406 Oct 89

The pharmacokinetics (disposal curves) of trimethyl and triethyl phosphorothioates have been determined. The concentrations to which the lung has been exposed at the LD50 dose of different chemical structures have been compared with the dose administered to the animal; the variation of LD50 of different chemical structures is little reduced. The in vitro kinetics of the reaction of O,S,S-trimethyl phosphorodithioate or O,O,S-triethyl phosphorothioate with plasma cholinesterase and carboxylesterase and brain acetylcholinesterase have been determined. The relation between inhibition and circulating concentrations in vivo have been examined. Changes in Clara cells reported by others seem to be physiological rather than pathological. O,S,S-Trimethyl phosphorodithioate is metabolised by rat lung and liver slices and microsomes. From these studies and the effect of various pretreatments of the rats on toxicity to the lung, it is probable that the proximal toxin is produced in the lung by oxidative attack on the alkylthio moeity of the compounds.
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PMID:Some aspects of the toxicology of trimethyl and triethyl phosphorothioates. 409 96

The organophosphate insecticide, leptophos, inhibited rat liver isocarboxazid amidase (ISOCase) activity to 20% of control at 5.0 mg/kg l h after administration, but at this dose brain cholinesterase (ChE) activity was not affected. The activity of ISOCase decreased to 29 and 0% of control 24 h after treatment with leptophos at doses of 2.5 and 5.0 mg/kg, respectively. With repeated administration of leptophos at a dose of 1 mg/kg for 10 days, ISOCase activity decreased to 34% of control on day 1 and the inhibition increased to 85% on day 10 without inhibition of brain ChE activity. After cessation of three successive daily doses (1 mg/kg/day), the ISOCase activity was gradually restored near to control levels in 8 days. Pretreatment with carboxylesterase inhibitors, triorthocresylphosphate (TOCP) and bis-p-nitrophenylphosphate (BNPP), potentiated the inhibition of brain ChE by leptophos, suggesting that ISOCase might take a role in leptophos detoxification.
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PMID:Inhibitory effect of leptophos on carboxylesterase (isocarboxazid amidase) in rat liver. 617 87

Carboxylesterase was obtained from human liver in an electrophoretically homogeneous form. The monomeric molecular weight of the enzyme was 60,000 and the enzyme associated to form trimers. Purified human liver carboxylesterase was compared with human serum carboxylesterase, purified earlier. Serum carboxylesterase hydrolyzed a typical cholinesterase substrate and aryl acylamide, whereas liver carboxylesterase did not hydrolyze these compounds. Both carboxylesterases catalyzed the hydrolysis of short-chain triacylglycerols, such as tributyrin, and medium-chain monoacylglycerols, such as monocaprin, but not the hydrolysis of long-chain triacylglycerols. Serum carboxylesterase activity was inhibited by p-trimethylammoniumanilinium dichloride and neostigmine, whereas liver carboxylesterase activity was not affected by these compounds. Liver and serum carboxylesterase activities were both strongly inhibited by phenylmethylsulfonyl fluoride.
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PMID:Human liver carboxylesterase. Properties and comparison with human serum carboxylesterase. 641 19

Biochemical, histopathological, and hematological parameters were studied in male Wistar rats after repeated subcutaneous administration of commercial kerosene (0.5 ml/kg body wt, 6 days a week) for a period of 35 days. At necropsy, treatment-related increases in the weights of liver, spleen, and peripheral lymph nodes were noted. Correspondingly, there was an increase in DNA, RNA, protein, and lipid contents of liver and spleen. Histopathological examination of liver, spleen, thymus, kidney, adrenal, and lymph nodes revealed treatment-related lesions. Similarly, biochemical indices studied in liver revealed an increase in alkaline phosphatase and a decrease in benzo[a]pyrene hydroxylase levels. Furthermore serum cholinesterase, carboxylesterase, and albumin levels were significantly diminished while serum alkaline phosphatase levels were found to be greatly enhanced. The findings might be related as the likely systemic effects in workers upon percutaneous kerosene exposure during work.
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PMID:Subcutaneous kerosene toxicity in albino rats. 651 Apr

The interaction of human erythrocyte acetylcholinesterase, horse serum butyrylcholinesterase and rat liver carboxylesterase with insecticides (RO)2P(O)SCH(COOEt)SP(O)(OR)2 (I) and (RO)2P(O)SCH(COOEt)OP(S)(OR)2 (II) was studied. The type I and II compounds were not hydrolyzed by carboxylesterase and inhibited the esterases irreversibly. A complex pattern of inhibition of acetylcholinesterase and butyrylcholinesterase by these compounds was caused by kinetically-manifested formation of an enzyme-inhibitor complex. The compounds I and II were more selective towards butyrylcholinesterase than towards acetylcholinesterase and carboxylesterase (kII two orders of magnitude higher) because of effective binding in the butyrylcholinesterase active center (K alpha 10(-8)--10(-9) M) due to hydrophobic interaction. An important role of the thion-phosphoryl-containing fragment in the interaction of type II compounds with hydrophobic sites of butyrylcholinesterase and carboxylesterase active centers was established.
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PMID:[Interaction of bis-phosphorylated methanes with mammalian esterases]. 651 64

The multiplicity of soluble esterases in Raillietina tetragona, R. echinobothrida and R. cesticillus was studied by use of slab polyacrylamide gel electrophoresis. Five fractions of esterase activity were observed in R. tetragona, seven in R. echinobothrida and three in R. cesticillus. The various fractions of esterase activity of closely related species of Raillietina showed differential behaviour towards various chemicals. Based on the inhibitory effect of inhibitors p-CMB, EDTA, malathion, silver nitrate and eserine sulphate, the various esterases have been classified into arylesterase, carboxylesterase, acetylesterase and cholinesterase.
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PMID:A comparative study on esterases from three species of Raillietina. 654 Feb 80

The principal biochemical mechanisms of resistance to insecticides involve either modified, less sensitive cholinesterase, esterase action, glutathione S-transferase action or cytochrome P-450-dependent monooxygenation. Both quantitative and qualitative differences in cytochrome P-450 isozymes are under genetic control and both are related to resistance. Recent characterization studies involving ligand binding and multiplicity of isozymes in Musca domestica (the housefly) are discussed in relation to resistance. The recent demonstration that multiple isozymes of glutathione S-transferase exist in susceptible and resistant insects is of interest, and some re-examination of their role in the mechanism of resistance is required. Esterases are a heterogeneous group of enzymes whose role in resistance has often been suggested but seldom rigorously defined. Purification studies in the green rice leafhopper, Nephotettix cincticeps, have involved an enzyme with carboxylesterase, phosphotriesterase and pyrethroid esterase activities. A similar enzyme, but without pyrethroid esterase activity, is also found in the housefly. In resistance such enzymes may serve either to catalyse hydrolysis or as binding proteins. It has been suggested, from time to time, that regulator genes, enzyme induction and gene magnification all play a part in controlling biochemical mechanisms of resistance, although clearly defined evidence has not always been brought forward. These hypotheses are re-examined.
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PMID:Biochemical mechanisms of resistance to insecticides. 655 14

A microtiter plate spectrophotometric system has been used together with the Bradford, Ellman, and van Asperen assays to measure protein concentration (to 0.5 microgram) and the activities of acetylcholinesterase (to 10(-3) units) and carboxylesterase (to 30 micrograms beta-naphthol reaction product) in small samples such as high-performance liquid chromatographic eluate fractions. For 100-microliter samples, at least 300 Ellman acetylcholinesterase or Bradford protein assays can be conducted and read in less than 30 min, and a like number of van Asperen nonspecific esterase assays (including 1-h incubation) run in less than 90 min. The eluate from a single 20-min high-performance liquid chromatographic run of a biological sample can be collected as up to 300 fractions directly into microtiter plate wells, and the three assays run on all fractions in less than 90 min.
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PMID:A microassay system for measuring esterase activity and protein concentration in small samples and in high-pressure liquid chromatography eluate fractions. 661 83

The esterase activity of guinea-pig serum was investigated. A 3-fold purification was achieved by removing the serum albumin by Blue Sepharose CL-6B affinity chromatography. The partially purified enzyme preparation had carboxylesterase and cholinesterase activities of 1.0 and 0.22 mumol of substrate/min per mg of protein respectively. The esterases were labelled with [3H]di-isopropyl phosphorofluoridate (DiPF) and separated electrophoretically on sodium dodecyl sulphate/polyacrylamide gels. Two main labelled bands were detected: band I had Mr 80 000 and bound 18-19 pmol of [3H]DiPF/mg of protein, and band II had Mr 58 000 and bound 7 pmol of [3H]DiPF/mg of protein. Bis-p-nitrophenyl phosphate (a selective inhibitor of carboxylesterase) inhibited most of the labelling of bands I and II. The residual labelling (8%) of band I but not band II (4%) was removed by preincubation of partially purified enzyme preparation with neostigmine (a selective inhibitor of cholinesterase). Paraoxon totally prevented the [3H]DiPF labelling of the partially purified enzyme preparation. Isoelectrofocusing of [3H]DiPF-labelled and uninhibited partially purified enzyme preparation revealed that there were at least two separate carboxylesterases, which had pI3.9 and pI6.2, a cholinesterase enzyme (pI4.3) and an unidentified protein that reacts with [3H]DiPF and has a pI5.0. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of these enzymes showed that the carboxylesterase enzymes at pI3.9 and pI6.2 corresponded to the 80 000-Mr subunit (band I) and 58 000-Mr subunit (band II). The cholinesterase enzyme was also composed of 80 000-Mr subunits (i.e. the residual labelling in band I after bis-p-nitrophenyl phosphate treatment). The unidentified protein at pI5.0 corresponded to the residual labelling in band II (Mr 58 000), which was insensitive to neostigmine and bis-p-nitrophenyl phosphate. These studies show that the carboxylesterase activity of guinea-pig serum is the result of at least two separate and distinct enzymes.
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PMID:The identification and characterization of two separate carboxylesterases in guinea-pig serum. 662 82

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