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)

1. The molecular composition of acetylcholinesterase (AChE) obtained from cockroach neural, and rat brain tissues was different. Vertebrate enzyme exhibited a higher degree of polymerization than insect enzyme. 2. Acephate was a potent inhibitor of cockroach AChE, but a poor inhibitor of rat AChE. Unlike acephate, methamidophos was a potent inhibitor of both cockroach and rat enzymes. Acephate exhibited greater affinity for the cockroach-AChE than for the rat-AChE, and acephate phosphorylated the cockroach-AChE several times faster than the rat enzyme. The rate of phosphorylation of insect and rat AChE was similar in the presence of methamidophos. Solubilization of AChE by Triton X-100 altered the kinetics of inhibition of rat AChE by acephate. However, solubilization did not alter the kinetics of inhibition of rat AChE by methamidophos or the kinetics of inhibition of cockroach AChE by acephate or methamidophos. 3. The mechanism of acephate-cockroach AChE interaction was different than the mechanism of acephate-rat AChE interaction. It is proposed that both the rat and cockroach enzyme may contain, along with the anionic and esteratic sites, an "electron deficient" (ED) binding site which may exhibit selectivity for acephate and nefopam. The ED site in rat-AChE has allosteric properties, whereas the cockroach-AChE does not. It is also proposed that the ED site in cockroach-AChE may be situated in or adjacent to the active site and, therefore, acephate may be bound to the ED site such that the phosphate moiety of acephate interacts with the enzyme's "esteratic" site. Although nefopam also bound to the ED site in cockroach AChE, it did not inhibit the enzyme. This study also indicated that the ED site in rat-AChE may be peripheral to the active site, and that the binding of acephate to this site prevented the phosphorylation by methamidophos of the rat-AChE. Unlike acephate, methamidophos specifically bound to the active site in both the rat- and cockroach-AChE.
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PMID:Molecular properties and inhibition kinetics of acetylcholinesterase obtained from rat brain and cockroach ganglion. 209 19

Despite the fact that the significance of red cell membrane acetylcholinesterase (AChE) is unknown, this enzyme of red cell assumes importance since many of its properties have been found to be similar to purified enzyme form of brain tissues. Our investigations on the effect of insulin-dependent diabetes mellitus on red cell AChE revealed that the activity of this enzyme is significantly decreased in diabetes. Insulin treatment restored the activity to the normal level. Solubilization of normal, diabetic and insulin treated diabetic red cell membranes with Triton X-100 (0.2% v/v) caused a general decline in AChE activity, however the per cent decline in activity of diabetic enzyme was lower as compared to normal and insulin treated conditions. From our results it is inferred that the decreased red cell AChE activity in diabetes is due to lesser number of active enzyme molecules and also due to altered membrane microenvironment.
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PMID:Regulation of red cell acetylcholinesterase activity in diabetes mellitus. 219 39

Esterase activity is monitored in mosquitoes and other arthropod species because high levels of these enzymes can be associated with pesticide resistance. In the 1950s, G. Gomori devised a colorimetric method to detect esterase activity based on their capacity to hydrolyze aryl-esters. We modified this method for use in microtiter plates. Mosquito homogenates (Culex quinquefasciatus Say and C. pipiens L.) from strains susceptible and resistant to insecticides were allowed to hydrolyze alpha-naphthyl acetate in the presence of Triton X-100 and a specific acetylcholinesterase inhibitor. The alpha-naphthol product was detected colorimetrically by a diazo-coupling reaction with Fast Garnet GBC salt. Triton X-100 improved the extraction of esterases and maintained the azo compound in solution. The linear range of the method was 2-20 nmoles of alpha-naphthol; this high sensitivity permitted accurate determinations in 1/30 portions of single adult mosquitoes from the strain with the lowest esterase activity. To avoid variations due to changes in temperature and duration of assay, results were normalized to equivalent enzyme activity units obtained in a spectrophotometer at 25 degrees C. Depending on the number of homogenate dilutions required, performance of the assay in microplates allowed the simultaneous analysis of 20-80 samples. Female mosquitoes showed higher enzyme activity than males when expressed in nmoles/min per mosquito, but differences were reduced when results were expressed as specific activity (nmoles/min per mg protein). A mosquito strain resistant to organophosphates due to the presence of high levels of esterases showed about 200 times more esterase activity than a susceptible strain or a strain resistant due to insensitive acetylcholinesterase.
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PMID:Microplate adaptation of Gomori's assay for quantitative determination of general esterase activity in single insects. 228 47

In recent years an increasing number of proteins has been shown to be membrane-anchored by a covalently attached PtdIns-glycan residue. In mammalian cells little is known about PtdIns-glycan-specific phospholipases which might play a role in the metabolism of PtdIns-glycan-anchored proteins. In order to identify PtdIns-glycan-specific phospholipases, a rapid and sensitive assay for such enzymes was developed using the PtdIns-glycan-anchored amphiphilic membrane form of acetylcholinesterase as substrate. The rate of product formation was monitored by the increase in soluble hydrophilic acetylcholinesterase in the aqueous phase after separation in Triton X-114. With this assay we established the presence of a PtdIns-glycan-specific phospholipase in bovine brain. This enzyme was soluble and could be partially purified by a heat step followed by chromatography on DEAE-cellulose and by gel filtration on Sepharose CL-6B. PtdIns-glycan-specific phospholipase had a high affinity for the PtdIns-glycan anchor of the substrate (Km = 52 nM) and did not degrade either PtdCho or PtdIns. Hydrophobic labeling of the anchor of the substrate with 3-trifluoromethyl-3-(m-[125I]iodophenyl)diazirine [( 125I]TID) caused a marked decrease in the cleavage rate and methylation of the amino group of the glucosamine residue of the anchor decreased the cleavage rate to zero. Using [125I]TID-labeled substrate, diradylglycerol phosphate was identified as the second product showing that the cleavage specificity of PtdIns-glycan-specific phospholipase was that of a phospholipase D. PtdIns-glycan-specific phospholipase D was inhibited by mercurials, omicron-phenanthroline and EGTA. It was stimulated by Ca2+ in micromolar concentrations indicating that PtdIns-glycan-phospholipase D is a Ca2(+)-regulated enzyme.
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PMID:Isolation and characterization of a phosphatidylinositol-glycan-anchor-specific phospholipase D from bovine brain. 237 84

Native molecular forms of acetylcholinesterase (AChE) present in a microsomal fraction enriched in SR of rabbit skeletal muscle were characterized by sedimentation analysis in sucrose gradients and by digestion with phospholipases and proteinases. The hydrophobic properties of AChE forms were studied by phase-partition of Triton X-114 and Triton X-100-solubilized enzyme and by comparing their migration in sucrose gradient containing either Triton X-100 or Brij 96. We found that in the microsomal preparation two hydrophilic 13.5 S and 10.5 S forms and an amphiphilic 4.5 S form exist. The 13.5 S is an asymmetric molecule which by incubation with collagenase and trypsin is converted into a 'lytic' 10.5 S form. The hydrophobic 4.5 S form is the predominant one in extracts prepared with Triton X-100. Proteolytic digestion of the membranes with trypsin brought into solution a significant portion of the total activity. Incubation of the membranes with phospholipase C failed to solubilize the enzyme. The sedimentation coefficient of the amphiphilic 4.5 S form remained unchanged after partial reduction, thus confirming its monomeric structure. Conversion of the monomeric amphiphilic form into a monomeric hydrophilic molecule was performed by incubating the 4.5 S AChE with trypsin. This conversion was not produced by phospholipase treatment.
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PMID:Amphiphilic and hydrophilic molecular forms of acetylcholinesterase in membranes derived from sarcoplasmic reticulum of skeletal muscle. 237 90

Acetylcholinesterase is a key enzyme in cholinergic neurotransmission for hydrolyzing acetylcholine and has been shown to possess arylacylamidase activity in addition to esterase activity. The enzyme is found at various loci, where its functional significance remains to be clarified, and it exists in multiple molecular forms. Sheep platelets have been shown to exhibit acetylcholinesterase activity associated with plasma membrane (Bp), endoplasmic reticulum (Cp), mitochondria granules (Dp), and soluble (As) fractions. These activities show differences in some physicochemical and kinetic properties. The soluble acetylcholinesterase is the most thermostable, and the enzyme from the Cp fractions shows the lowest affinity for the acetylthiocholine substrate and the strongest inhibition by fluoride. In all cases a noncompetitive inhibition of the enzyme by this ion is found. When membrane-bound acetylcholinesterases were assayed at temperatures between 12 degrees C and 33 degrees C, the Arrhenius plots of all activities exhibited a break point at about 17 degrees C. This discontinuity was abolished by addition of detergent to the assay medium (0.02% Triton X-100, final concentration). Their Hill coefficients were calculated in the presence of fluoride, showing unitary values in all cases, which points to a noncooperative effect and nonallosteric behavior in the particulate enzyme. These results suggest that the sheep platelet acetylcholinesterase associated with membrane-bound systems is modulated by the physical state of its environment, despite the fact that the enzyme might be lipid- or nonlipid-dependent.
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PMID:Subcellular distribution and characterization of acetylcholinesterase activities from sheep platelets: relationships between temperature-dependence and environment. 238 54

Amniotic fluid from neural tube defect-affected pregnancies (NTD) contains three forms of acetylcholinesterase (AChE), the major species of which is present only in trace amounts in normal pregnancies or those associated with a non-NTD fetal malformation. The activity of this 'specific' AChE is increased 62-fold in the presence of NTD and its measurement provides a sensitive and specific test for the biochemical detection of this disorder. The sedimentation coefficient of 'NTD specific' AChE (10.3S) indicates that it is a tetrameric species, and that the two additional forms present, (4.0S and 5.5S) are monomer and dimer, respectively. Gel filtration studies also support these findings. Combining these data, the molecular masses of monomer, dimer and tetramer are shown to be 78, 126 and 256 kDa (+/- 10%). 'NTD-Specific' AChE does not react with the detergent Triton X-100, indicating that it is a soluble, and probably secreted, species without membrane associating properties.
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PMID:Neural tube defect-specific acetylcholinesterase: its properties and quantitation in the detection of anencephaly and spina bifida. 244 4

Flounder (Platichthys flesus) muscle contains two types of cholinesterases, that differ in molecular form and in substrate specificity. Both enzymes were purified by affinity chromatography. About 8% of cholinesterase activity could be attributed to collagen-tailed asymmetric acetylcholinesterase sedimenting at 17S, 13S and 9S, which showed catalytic properties of a true acetylcholinesterase. 92% of cholinesterase activity corresponded to an amphiphilic dimeric enzyme sedimenting at 6S in the presence of Triton X-100. Treatment with phospholipase C yielded a hydrophilic form and uncovered an epitope called the cross-reacting determinant, which is found in the hydrophilic form of a number of glycosyl-phosphatidylinositol-anchored proteins. This enzyme showed catalytic properties intermediate to those of acetylcholinesterase and butyrylcholinesterase. It hydrolyzed acetylthiocholine, propionylthiocholine, butyrylthiocholine and benzoylthiocholine. The Km and the maximal velocity decreased with the length and hydrophobicity of the acyl chain. At high substrate concentrations the enzyme was inhibited. The p(IC50) values for BW284C51 and ethopropazine were between those found for acetylcholinesterase and butylcholinesterase. For purified detergent-soluble cholinesterase a specific activity of 8000 IU/mg protein, a turnover number of 2.8 x 10(7) h-1, and 1 active site/subunit were determined.
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PMID:Cholinesterases from flounder muscle. Purification and characterization of glycosyl-phosphatidylinositol-anchored and collagen-tailed forms differing in substrate specificity. 252 88

The activities of acetylcholinesterase and Ca2+ + Mg2+ ATPase were measured following treatment of human erythrocyte membranes with nonsolubilizing and solubilizing concentrations of Triton X-100. A concentration of 0.1% (v/v) Triton X-100 caused a significant inhibition of both enzymes. The inhibition appears to be caused by perturbations in the membrane induced by Triton X-100 incorporation. No acetylcholinesterase activity and little Ca2+ + Mg2+ ATPase activity were detected in the supernatant at 0.05% Triton X-100 although this same detergent concentration induced changes in the turbidity of the membrane suspension. Also, no inhibition of soluble acetylcholinesterase was observed over the entire detergent concentration range. The inhibition of these enzymes at 0.1% Triton X-100 was present over an eightfold range of membrane protein in the assay indicating an independence of the protein/detergent ratio. The losses in activities of these two enzymes could be prevented by either including phosphatidylserine in the Triton X-100 suspension or using Brij 96 which has the same polyoxyethylene polar head group but an oleyl hydrophobic tail instead of the p-tert-octylphenol group of Triton X-100. The results are discussed in regard to the differential recovery of enzyme activities over the entire detergent concentration range.
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PMID:The inhibitory effects of polyoxyethylene detergents on human erythrocyte acetylcholinesterase and Ca2+ + Mg2+ ATPase. 254 74

About 5% of the total adenylate kinase activity in the rat forebrain was found in a subcellular fraction enriched in synaptic plasma membrane (SPM). The enzyme remained membrane bound after washing by 1M potassium acetate. It was resistant to trypsin digestion under conditions which destroyed 90% of acetylcholinesterase activity. The SPM enzyme was solubilized by 0.25% Triton X-100 resulting in a 4-fold increase in activity. Similar effects were observed when SPM was treated with phospholipases, melittin and trifluoperazine. These results suggest the occurrence of an adenylate kinase closely associated with SPM the activity of which can only be fully expressed by disturbances to the hydrophobic lipid bilayer. The enzyme can be seen as strategically located to play a role in regenerating ATP required for the manifold activities of the synaptic membrane.
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PMID:Evidence for a synaptic plasma membrane associated adenylate kinase in the rat brain. 255 31

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