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)

Membrane vesicles which constitute the sarcotubular system were separated and the fraction enriched in T-tubules purified by a calcium loading procedure. The preparations of unfractioned microsomes and T-tubules have been analyzed for their relative content of enzyme markers and acetylcholinesterase. The amount of this enzyme in the T-tubule fraction was higher than in mixed microsomes but less than two-fold the value of vesicles derived from sarcoplasmic reticulum. Arrhenius plots of membrane-bound and soluble acetylcholinesterase from either mixed microsomes or fractions enriched in T-tubules show an anomalous behaviour as two break points were obtained. The first discontinuity was found at about 17 degrees C for membrane-bound, and 12-14 degrees C for soluble acetylcholinesterase. The second one being at about 25 degrees C for both particulate and detergent-solubilized enzyme. The changes in activity with temperature suggest that lipid-protein, detergent-protein and protein-protein interactions might be involved in the stabilization of the enzyme both in the natural membrane and in the soluble state.
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PMID:The effect of temperature on the acetylcholinesterase activity of muscle microsomes. 293 87

The mechanism of the anaesthetic effect of toluene on the central nervous system (CNS) was studied by using rat erythrocyte and synaptosome membranes as nerve cell models both in vitro and in vivo. The activities of the membrane-bound integral enzymes acetylcholinesterase (AChE), total adenosine triphosphatase (total ATPase) and magnesium-activated adenosine triphosphatase (Mg2+-ATPase) were determined. A short-term exposure to 2000 p.p.m. of toluene had an inhibitory effect on the enzyme activities studied. The degree of inhibition in erythrocyte membranes in vitro and in vivo, and in synaptosome membranes in vitro were in good correlation. In in vivo conditions, the synaptosome-bound enzymes were, however, significantly more inhibited by toluene, which indicates that membranes in vivo are even more vulnerable to the toxic effects of organic solvents than they are as isolated membranes in vitro. However, our results show that in vitro experiments can be used to predict the toxic nerve cell membrane effects of organic solvents. Toluene caused similar enzyme inhibitions both in neural cell membranes and in erythrocyte membranes. Thus, even peripheral non-excitable cell membranes, like erythrocytes, can be used as nerve cell membrane models in studies on the mechanism of the anaesthesia caused by solvents.
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PMID:The effect of in vitro and in vivo toluene exposure on rat erythrocyte and synaptosome membrane integral enzymes. 296 6

Crude synaptic membranes isolated from calf brain cortex were subjected to an aqueous two-phase system and the partition of the various membrane constituents and activities between the phases were studied. These constituents were phosphate, cholesterol and protein. The activities measured were acetyl-cholinesterase, succinate dehydrogenase, 2',3'-cyclicnucleotide-3'-phosphohydrolase and stereospecific opiate-binding. The successful fractionation of the membranes was achieved by the use of an aqueous two-phase system in a counter-current distribution process. A ligand bound to poly(ethylene glycol) with an affinity for opiate receptors was synthesized by reacting 6-aminonaloxone with tresylpoly(ethylene glycol). The ligand-polymer was used to extract membrane-bound opiate receptors into the upper, poly(ethylene glycol)-rich phase. This use of affinity partitioning resulted in membrane fractions with a 3-4 fold higher ability to bind stereospecifically etorphine than the original preparations of synaptic membranes.
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PMID:Affinity partitioning and centrifugal counter-current distribution of membrane-bound opiate receptors using naloxone-poly(ethylene glycol). 299 69

The presynaptic plasma membrane (PSPM) of cholinergic nerve terminals was purified from Torpedo electric organ using a large-scale procedure. Up to 500 g of frozen electric organ were fractioned in a single run, leading to the isolation of greater than 100 mg of PSPM proteins. The purity of the fraction is similar to that of the synaptosomal plasma membrane obtained after subfractionation of Torpedo synaptosomes as judged by its membrane-bound acetylcholinesterase activity, the number of Glycera convoluta neurotoxin binding sites, and the binding of two monoclonal antibodies directed against PSPM. The specificity of these antibodies for the PSPM is demonstrated by immunofluorescence microscopy.
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PMID:Large-scale purification of presynaptic plasma membranes from Torpedo marmorata electric organ. 299 33

The neural membrane-bound enzymes, acetylcholinesterase, Na/K-ATPase and Ca-ATPase were examined in six brain areas in perinatal rats at 5, 15 and 25 days of age following alcohol exposure in utero. Female Wistar rats were mated with adult male Wistar rats and maintained on either a liquid diet containing ethanol (5% w/v) or on a control liquid diet for various periods during gestation and the perinatal period. These periods were: before and during gestation only (until birth of the offspring); before and during gestation and following birth; during only a period of gestation and continuing postnatally. Enzyme activity was determined by spectrophotometric methods in the following areas of the brain in each offspring: telencephalon, cerebellum, hippocampus, septal area, preoptic area, and medial basal hypothalamic area. Analysis of the data indicates that alcohol exposure in utero will heterogeneously decrease enzyme activity among the six brain areas when compared to enzyme activity in the same brain areas in animals which were not exposed to alcohol in utero. The activity of the three enzymes were most significantly reduced on day 5 of age, compared to levels in the control animals. Enzyme activity in each brain area was generally most significantly affected in animals exposed to alcohol both pre- and postnatally. The results indicate that fetal alcohol exposure reduces neuronal enzyme activity relative to the period of ethanol exposure in utero; the longer the period of time that alcohol was consumed by the mothers pre- and postnatally, the greater the effect of alcohol on the enzyme activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of alcohol exposure in utero on acetylcholinesterase, Na/K-ATPase and Ca-ATPase activities in six regions of rat brain. 300 3

The effect of cholesterol enrichment and depletion of rabbit erythrocytes on the activities of membrane-bound enzymes, namely (Na+,K+)-stimulated ATPase, NAD+ase and acetylcholinesterase was examined. The cholesterol content of erythrocyte membranes has been modified by incubation of intact cells with sonicated egg lecithin/cholesterol vesicles (cholesterol/phospholipid molar ratio approx. 2) and with egg lecithin vesicles for time intervals up to 10 hours. The cholesterol/phospholipid molar ratio (CH/PL) of untreated rabbit red blood cell membranes was 0.92-0.94. Linear increase (up to CH/PL molar ratio 1.72-1.9) or decrease (up to CH/PL molar ratio 0.27-0.43) in cholesterol content of erythrocyte membranes was observed over the 10 hours of incubation with egg lecithin/cholesterol and egg lecithin liposomes respectively. Fusion of liposomes to the membrane or their attachment to the membrane surface was not a significant factor in the alteration of CH/PL ratio. (Na+,K+)-stimulated ATPase, NAD+ase and acetylcholinesterase activities were measured as a function of membrane cholesterol. The specific activities of all three enzymes were progressively decreased with increase in cholesterol content. Partial reversibility of the inhibitory effect of cholesterol was demonstrated by measurement on cells depleted again after cholesterol enrichment. This was confirmed by the fact that a lowering in cholesterol content evoked an analogous activation of enzymes. The possible implications of physicochemical modifications of bulk and annular lipids of membrane-bound enzymes in the inhibition mechanism are discussed.
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PMID:Alterations in the activities of rabbit erythrocyte membrane-bound enzymes induced by cholesterol enrichment and depletion procedures. 301 May 90

The effect of Ep on different ATPases and acetylcholinesterase of rat RBC membrane was studied. Starvation caused a slight decrease in Mg2+-, Ca2+-, and Na+ + K+-ATPases. However, these enzyme activities were markedly increased on Ep treatment of starved rats. Specific activities of all three ATPases increased linearly with increasing concentration of Ep. Under identical conditions the hormone failed to stimulate the ATPase activity of liver plasma membrane. Desensitization by fluoride of allosteric inhibition of erythrocyte membrane-bound Na+ + K+-ATPase was observed under starvation which showed a return to normal n values on Ep administration. The enzyme from normal animals was inhibited almost completely at 0.1 mM fluoride whereas enzyme from starved and Ep-treated animals showed only about 50% inhibition at that fluoride concentration. Ep increased the acetylcholinesterase activity of normal RBC membrane to a small extent whereas the stimulation was much higher under starvation. The fluoride inhibition curve of this enzyme changed from sigmoidal to hyperbolic under starvation which again changed to allosteric on administration of Ep. These changes were closely correlated to n values. Red blood cells of Ep-treated animals became more susceptible to osmotic shock under the experimental conditions.
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PMID:Effect of erythropoietin on the different ATPases and acetylcholinesterase of rat RBC membrane. 302 76

The ability of phosphatidylinositol-specific phospholipase C (PIPLC) to solubilize acetylcholinesterase (AChE) in the electromotor system of adult Torpedo ocellata and in the developing electric organ was examined. PIPLC solubilizes significant amounts of the membrane-bound G2 form of AChE throughout embryonic development of the electric organ, as it does in the adult electric organ, the AChE of which we have shown to contain covalently bound inositol in its membrane-anchoring domain. In the electromotor system of the mature fish, PIPLC solubilizes almost quantitatively the AChE dimer in the electromotor axon as in the electric organ itself, but the corresponding fraction in the electric lobe is almost totally resistant to the phospholipase. This finding implies that the covalently bound phosphatidylinositol is added concomitantly with axonal transport. A substantial part of the G2 form in back muscle is sensitive to PIPLC, whereas the G4 tetramer of Torpedo brain is completely resistant.
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PMID:Differential susceptibility to phosphatidylinositol-specific phospholipase C of acetylcholinesterase in excitable tissues of embryonic and adult Torpedo ocellata. 304 Jan 64

The purification and characterization of acetylcholinesterase from heads of the fruit fly Drosophila are described. Sequential extraction procedures indicated that approximately 40% of the activity was soluble and 60% membrane-bound and that virtually none (less than 4%) corresponded to collagen-tailed forms. The membrane-bound enzyme was extracted with Triton X-100 and purified over 4000-fold by affinity chromatography on acridinium resin. Hydrodynamic analysis by both sucrose gradient centrifugation and chromatography on Sepharose CL-4B revealed an Mr of 165,000 similar to that observed for dimeric (G2) forms of the enzyme in mammalian tissues. In contrast, the purified enzyme gave predominant bands of about 100 kDa prior to disulfied reduction and 55 kDa after reduction on polyacrylamide gel electrophoresis in sodium dodecyl sulfate, values that are significantly lower than those reported for purified G2 enzymes from other species. However, the presence of a faint band at 70 kDa which could be labeled by [3H]diisopropyl fluorophosphate prior to denaturation suggested that the 55-kDa band as well as a 16-kDa species arose from proteolysis. This was confirmed by reductive radiomethylation and amine analysis of the 70-, 55-, and 16-kDa bands. All three contained ethanolamine and glucosamine residues that are characteristic of a C-terminal glycolipid anchor in other G2 acetylcholinesterases. The catalytic properties of the enzyme were examined by titration with a fluorogenic reagent which revealed a turnover number for acetylthiocholine that was 6-fold lower than eel and 3-fold lower than human erythrocyte acetylcholinesterase. Furthermore, the Drosophila enzyme hydrolyzed butyrylthiocholine much more efficiently than these eel or human enzymes, an indication that the fly head enzyme has a substrate specificity intermediate between mammalian acetylcholinesterases and butyrylcholinesterases.
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PMID:Isolation and characterization of acetylcholinesterase from Drosophila. 311 78

Tissue-cultured chicken embryo muscle cells synthesize several molecular forms of acetylcholinesterase (AChE) which differ in oligomeric structure and fate as membrane-bound or secreted molecules. Using irreversible inhibitors to inactivate AChE molecules we show that muscle cells rapidly synthesize and assemble catalytically active oligomers which transit an obligatory pathway through the Golgi apparatus. These oligomers acquire complex oligosaccharides and are ultimately localized on the cell surface or secreted into the medium. Immunoprecipitation of isotopically labeled AChE shows that the oligomers are assembled shortly after synthesis from two allelic polypeptide chains. About two-thirds of the newly synthesized molecules are assembled into dimers and tetramers, and once assembled these forms do not interconvert. Comparison of newly synthesized catalytically active AChE molecules with isotopically labeled ones indicates that a large fraction of the immature molecules are catalytically inactive. Pulse-chase studies measuring both catalytic activity and isotopic labeling indicate that only the catalytically active oligomers are further processed by the cell, whereas inactive molecules are rapidly degraded intracellularly by an as yet unknown mechanism. Approximately 70-80% of the newly synthesized AChE molecules are degraded in this manner and do not transit the Golgi apparatus. These studies indicate that muscle cells synthesize an excess of this important synaptic component over that which is necessary for maintaining normal levels of this protein. In addition, these studies indicate the existence of an intracellular route of protein degradation which may function as a post-translational regulatory step in the control of exportable proteins.
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PMID:Biogenesis of acetylcholinesterase molecular forms in muscle. Evidence for a rapidly turning over, catalytically inactive precursor pool. 319 32


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