Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 acetylcholinesterase from human erythrocytes was released from the plasma membrane with 0.2% Triton X-100 at low ionic strength and purified by two affinity chromatography steps on Sepharose-bound m-[6-(6-amino-caproylamino)caproylamino]phenyltrimethyl-ammonium. The synthesis of the inhibitor is described. The purified, detergent-free acetylcholinesterase was obtained with a specific activity of 4270 U/mg (158000-fold purification) and a 28% yield. The enzyme is a glycoprotein and aggregates in the absence of Triton X-100 into higher molecular complexes. The molecular weight was estimated by sodium dodecylsulfate electrophoresis to be 80000 +/- 3000 in the presence of 2-mercapto-ethanol and 154000 +/- 6000 in its absence.
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PMID:[Purification of the acetylcholinesterase from human erythrocytes by affinity chromatography (author's transl)]. 118 Dec 66

Electrophoretic patterns of acetylcholinesterase (acetylcholine hydrolase, EC 3.1.1.7) from rat erythrocyte were studied. The enzyme was solubilized by the following treatments: a) Triton X-100, b) sodium deoxycholate, or c) ultrasonic irradiation. When the erythrocyte membrane was solubilized by Triton X-100 at concentrations higher than 0.3%, by 10 mM sodium deoxycholate, or by ultrasonic irradiation for more than 5 min, a single band of acetylcholinesterase activity appeared in the gel. Two bands of activity were stained in the gel when the membrane was solubilized by Triton X-100 at concentrations between 0.1--0.2%, or by ultrasound for 5 min. Electrophoretic patterns of acetylcholinesterase from rats fed a fat-sufficient diet were similar to those for the enzyme from animals fed a fat-free diet. The recombination of lipids with the enzyme eluted from the gels confirmed the "phenotypic allosteric desensitization phenomenon".
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PMID:Multiple forms of acetylcholinesterase from rat erythrocytes. Effect of fat-free diet. 124 91

The action of ethanol on the activity of membrane-bound and soluble acetylcholinesterase (AChE) in sarcoplasmic reticulum of skeletal muscle has been studied. Treatment of membranes with 2.5-12.5% v/v ethanol produced a slight stimulation of the AChE activity and inhibition at higher concentration. The enzyme remained associated with the membranes after these treatments. The enzyme solubilized with Triton X-100 was inhibited by ethanol in a time-independent manner. Isolated 16 S (A12), 10.5 S (G4) and 4.5 S (G1) forms of AChE were inhibited by ethanol to a similar extent. Samples were reversibly inhibited by ethanol, up to 12.5% v/v, and irreversibly at higher concentrations. Kinetic studies performed with isolated forms in the presence of 5-12.5% v/v ethanol showed that the solvent behaved as a competitive inhibitor of the asymmetric form but as a mixed inhibitor of the tetrameric and monomeric forms. The results show that the solvent interacts with active and/or regulatory sites of AChE from muscle microsomes.
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PMID:Differential effects of ethanol on membrane-bound and soluble acetylcholinesterase from sarcoplasmic reticulum membranes. 140 68

The properties of a cholinesterase from mucosal cells of rat intestine have been characterized. The enzyme was identified as butyrylcholinesterase because it was more sensitive to iso-OMPA (IC50 = 1.0 x 10(-6) M) than to BW284C51 (IC50 = 5.5 x 10(-5) M) and was not inhibited by substrate excess. It displayed a higher affinity for acetylthiocholine than for butyrylthiocholine. A major molecular form was observed sedimenting at 5.9 S. Two other minor molecular forms were identified as a hydrophilic tetramer (G4, sedimenting at 10.5 S) and a monomer (G1, sedimenting at 4.3 S). The 5.9 S component was referred to as "G" form (G for globular) and not "G2" as usual dimers for the following reasons: (i) the G form was unaffected by the reducing agents, beta-mercaptoethanol and dithiothreitol, which converted disulfide-linked dimers of acetylcholinesterase into monomers, (ii) the G form was shifted from 5.9 to 3.4 S when the sucrose gradient contained Triton X-100. This value of 3.4 S (in Triton X-100) appeared too low for a typical G2 form. The shift in the S value was partly reversible: the 3.4 S form resedimented at 5.2 S in the absence of detergent. The behavior of the G form in sucrose gradients indicated that it was amphiphilic. This was confirmed in nondenaturing electrophoreses and also by quantitative binding of the G form to octyl-Sepharose. The hydrophobic domain of the G form was not a glycolipid, as shown by its insensitivity to Bacillus thuringiensis phosphatidylinositol-specific phospholipase C and its nonaggregating properties in the absence of nondenaturing detergent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amphiphilic forms of butyrylcholinesterase in mucosal cells of rat intestine. 142 Feb 1

The effect of eight different acetylcholinesterase inhibitors (AChEIs) on the activity of acetylcholinesterase (AChE) molecular forms was investigated. Aqueous-soluble and detergent-soluble AChE molecular forms were separated from rat brain homogenate by sucrose density sedimentation. The bulk of soluble AChE corresponds to globular tetrameric (G4), and monomeric (G1) forms. Heptylphysostigmine (HEP) and diisopropylfluorophosphate were more selective for the G1 than for the G4 form in aqueous-soluble extract. Neostigmine showed slightly more selectivity for the G1 form both in aqueous- and detergent-soluble extracts. Other drugs such as physostigmine, echothiophate, BW284C51, tetrahydroaminoacridine, and metrifonate inhibited both aqueous- and detergent-soluble AChE molecular forms with similar potency. Inhibition of aqueous-soluble AChE by HEP was highly competitive with Triton X-100 in a gradient, indicating that HEP may bind to a detergent-sensitive non-catalytic site of AChE. These results suggest a differential sensitivity among AChE molecular forms to inhibition by drugs through an allosteric mechanism. The application of these properties in developing AChEIs for treatment of Alzheimer disease is considered.
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PMID:Preferential inhibition of acetylcholinesterase molecular forms in rat brain. 152 56

A protein fatty acylesterase activity that catalyzes the removal of fatty acid from exogenous proteolipid protein (PLP) has been demonstrated in isolated rat brain myelin. Optimum enzyme activity for the deacylation of PLP was obtained in 0.5% Triton X-100, 1 mM dithiothreitol at pH 7.0 and at 37 degrees C. Other detergents (octyl beta-D-glucoside, Nonidet P-40, and Tween 20) have little or no effect, whereas deacylation was completely abolished by 0.1% sodium dodecyl sulfate or boiling the membrane fraction for 5 min prior to incubation. Under optimal conditions, the rate of deacylation was linear up to 20 min, and the apparent Km for bovine [3H]palmitoyl-PLP was 18 microM. The myelin-associated PLP fatty acylesterase has no apparent requirements for divalent cations (Ca2+, Mg2+, Mn2+), and chelators such as EDTA, [ethylenebis(oxyethylenenitrilo)] tetraacetic acid, and 1,10-phenantroline have little or no effect on enzyme activity. Sulfhydryl and histidine residues are needed for full enzyme activity, whereas the "active serine"-directed inhibitor phenylmethylsulfonyl fluoride has no effect. The myelin-associated protein fatty acylesterase was present throughout brain development and in all myelin subfractions, in agreement with the dynamic metabolism of PLP-bound fatty acids. Enzyme activity was also present in sciatic nerve, brain cortex, and heart whereas liver was devoid of activity. Several esterases, including phospholipase A2, glyoxalase II, and acetylcholinesterase, did not remove fatty acid from PLP. Myelin basic protein, palmitoyl-CoA hydrolase, and myelin-associated nonspecific esterase were also ruled out as the PLP fatty acylesterase. Thus, all data seem to indicate that this enzyme is different from esterases of the lipid metabolism. Finally, stimulation of protein phosphorylation with Ca2+, but not with cyclic-AMP, inhibited PLP deacylation, suggesting that the myelin-associated protein fatty acylesterase activity is regulated by endogenous Ca(2+)-dependent protein kinases.
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PMID:Characterization of proteolipid protein fatty acylesterase from rat brain myelin. 156 18

To obtain information about the mode of attachment of amphiphilic monomers of acetylcholinesterase (AChE) in sarcoplasmic reticulum (SR) of skeletal muscle, attempts were made to release the enzyme by alkaline hydroxylamine. About half of the activity measured in microsomes preincubated with 0.5% (w/v) Triton X-100 is detached by incubation of SR with bicarbonate buffer (pH 10.5). Addition of 1 M hydroxylamine to the alkaline buffer did not improve enzyme solubilization. Molecular forms of 16S (A12), 10.5S (G4) and 4.0S (G1) are separated by sedimentation analyses of Triton X-100 or bicarbonate-solubilized AChE. Monomeric AChE, released under alkaline conditions (G1A), displays amphiphilic properties. G1A, but not G4 and A12, forms are retained in a phenyl-Sepharose column and this allows its separation from hydrophilic forms. Isolated monomers extracted with Triton X-100 (G1D) or alkaline buffer showed identical kinetic behaviour. The two forms reacted with lectins in a similar manner. However, thermal inactivation experiments revealed that about 90 and 40% of the activity in the G1D and G1A forms were lost by heating at 50 degrees C, following the same rate constant (k = 0.130 min-1). Addition of Triton X-100 to the G1A form leads to an increase of its thermal sensitivity, the enzyme being fully inactivated very rapidly (k = 0.230 min-1). The results suggest that the hydrophobic moiety of the enzyme might be exposed or hidden depending on the environmental hydrophobicity. Changes in the composition of the solvent will determine the final conformational state of the protein.
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PMID:Alkaline treatment of muscle microsomes releases amphiphilic and hydrophilic forms of acetylcholinesterase. 159 55

Membrane-bound acetylcholinesterase (AChE) from the human erythrocyte is inhibited by chlorpromazine (CPZ) in a concentration range within this amphiphilic drug has been demonstrated to interact with erythrocyte membranes, causing a large spectrum of physical and structural effects; membrane solubilization with 0.5% Triton X-100 results in a complete loss of CPZ inhibitory potency. Although these observations might suggest a role of membrane lipid environment in mediating human erythrocyte AChE inhibition, we observed that CPZ retains its full inhibitory effect on the fraction of enzyme (5-6% of total) that is solubilized from erythrocytes upon treatment with phosphatidylinositol-specific phospholipase C (PI-PLC) from Bacillus thuringiensis; furthermore, Triton X-100 is able to reverse the CPZ effect also in the case of PI-PLC-solubilized enzyme. These results demonstrate unequivocally that CPZ inhibits human erythrocyte AChE through direct molecular interaction. The inhibition kinetics displayed by CPZ on human erythrocyte AChE are dependent on drug concentration: evidence is provided that this phenomenon may be related to formation of CPZ micellar aggregates.
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PMID:A study of human erythrocyte acetylcholinesterase inhibition by chlorpromazine. 165 84

We investigated the enzymatic properties of phosphatidylinositol-specific phospholipase C (PI-PLC) from Bacillus cereus towards glycosyl-phosphatidylinositol anchored acetylcholinesterase (AChE) from bovine erythrocytes and Torpedo electric organ as substrate. The conversion of membrane from AChE to soluble AChE by PI-PLC depended on the presence of a detergent and of phosphatidylcholine. In presence of mixed micelles containing Triton X-100 (0.05%) and phosphatidylcholine (0.5 mg/ml) the rate of AChE conversion was about 3 times higher than in presence of Triton X-100 alone. Furthermore, inhibition of PI-PLC occurring at Triton X-100 concentrations higher than 0.01% could be prevented by addition of phosphatidylcholine. Ca2+, Mg2+ and sodium chloride had no effect on PI-PLC activity in presence of phosphatidylcholine and Triton X-100, whereas in presence of Triton X-100 alone sodium chloride largely increased the rate of AChE conversion. Determination of kinetic parameters with three different substrates gave Km-values of 7 microM, 17 microM and 2 mM and Vmax-values of 0.095 microM.min-1, 0.325 microM.min-1 and 56 microM.min-1 for Torpedo AChE, bovine erythrocyte AChE and phosphatidylinositol, respectively. The low Km-values for both forms of AChE indicated that PI-PLC not only recognized the phosphatidylinositol moiety of the anchor but also other components thereof.
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PMID:Glycosyl-phosphatidylinositol anchored acetylcholinesterase as substrate for phosphatidylinositol-specific phospholipase C from Bacillus cereus. 166 Jul 25

Microvessels were isolated from bovine and rat cerebral cortex by simple procedures involving mechanical homogenization, differential and density-gradient centrifugation, and chromatography on a column of glass beads. The preparations were composed of short capillaries with a diameter of 1-10 microns. Both purifications were monitored by assaying the activity of the marker enzyme gamma-glutamyl transpeptidase (gamma-GTase). The final bovine and rat preparations were enriched 20- and 14-fold over the homogenate respectively. gamma-GTase activity was measured in different fractions after bovine and rat membranes were solubilized with 0.5% and 0.3% Triton X-100 respectively. Measurement of 5'-nucleotidase and acetylcholinesterase activities indicated very low levels of contamination of the microvessel preparations by glial cells and neurons. The integrity of the capillary membranes was confirmed by the assay of a cytosolic marker enzyme, lactate dehydrogenase. Viability of the microvessels was demonstrated by the presence of detectable levels of adenylates and by tissue respiration induced by glucose and succinate. Comparison of the proteins of homogenized bovine and rat brain cortex with those of purified capillaries separated by SDS/PAGE revealed enrichment of at least three predominant proteins of 14, 16 and 18 kDa in the capillary preparations. It is concluded that these methods allow rapid isolation of small blood vessels of the blood-brain barrier which are suitable for metabolic and structural studies in vitro.
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PMID:Purification and characterization of metabolically active capillaries of the blood-brain barrier. 171 99


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