Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Active-site tryptic peptides were isolated from three genetic types of human serum cholinesterase. The active-site peptide was identified by labeling the active-site serine with [3H]diisopropylfluorophosphate. Peptides were purified by high-performance liquid chromatography. Amino acid composition and sequence analysis showed that the peptide from the usual genotype contained 29 residues with the sequence Ser-Val-Thr-Leu-Phe-Gly-Glu-Ser-Ala-Gly-Ala-Ala-Ser-Val-Ser-Leu-His-Leu- Leu-Ser-Pro-Gly-Ser-His-Ser-Leu-Phe-Thr-Arg. The active-site serine was the eighth residue from the N-terminal. The peptide containing the active-site serine from the atypical genotype contained 22 residues with the sequence Ser-Val-Thr-Leu-Phe-Gly-Glu-Ser-Ala-Gly-Ala-Ala-Ser-Val-Ser-Leu-His-Leu- Leu-Ser-Pro-Gly. The peptide from the atypical-silent genotype contained eight residues with the sequence Gly-Glu-Ser-Ala-Gly-Ala-Ala-Ser. Thus, the sequences of the atypical and atypical-silent active-site peptides were identical to the corresponding portions of the usual peptide.
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PMID:Amino acid sequence of the active site of human serum cholinesterase from usual, atypical, and atypical-silent genotypes. 374 70

Cholinesterases are serine esterases that rapidly hydrolyze the neurotransmitter acetylcholine. In humans, cholinesterases exhibit extensive polymorphism in terms of their substrate specificity, sensitivity to selective inhibitors, hydrophobicity, and cellular as well as subcellular localization. It is not yet known whether the various cholinesterase forms originate from different genes or are products of posttranscriptional and posttranslational processing. The extent to which these enzyme forms are homologous in their amino acid sequence is also not known. However, a consensus organophosphate-binding hexapeptide sequence Phe-Gly-Glu-Ser-Ala-Gly was found both in "true" acetylcholinesterase from the electric organ of Torpedo [McPhee-Quigley et al: J Biol Chem 260:12185-12189, 1985] and in "pseudocholinesterase" (butyrylcholinesterase) from human serum [Lockridge: "Cholinesterases--Fundamental and Applied Aspects." New York: de Gruyter pp 5-12, 1984], suggesting that this region in the protein is conserved in all cholinesterases. Based on this common sequence, we prepared synthetic oligodeoxynucleotides and used them as labeled probes to screen a cDNA library from fetal human brain mRNA, cloned in lambda gt10 phages. A cDNA clone of 770 nucleotides in length was isolated. It contains an open reading frame terminating with the sequence Ser-Val-Thr-Leu-Phe-Gly-Glu-Ser-Ala-Gly-Ala-Ala, which includes the consensus hexapeptide used for designing the DNA probe. Furthermore, the sequence of this 12-amino acid peptide is identical to the sequence reported for the organophosphate binding site of human serum pseudocholinesterase [Lockridge: "Cholinesterases--Fundamental and Applied Aspects." New York: de Gruyter, pp 5-12, 1984]. These findings confirm that the isolated clone is indeed part of a human cholinesterase cDNA.
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PMID:Use of synthetic oligodeoxynucleotide probes for the isolation of a human cholinesterase cDNA clone. 375 63

Two distinct classes of acetylcholinesterase exist in near equal amounts in the electric organ of Torpedo californica. A globular 5.6 S form is a dimer which possesses a hydrophobic region. The second form is present as elongated species that sediment at 17 and 13 S and contain structural subunits disulfide-linked to the catalytic subunits. Removal of the structural subunits by mild proteolysis yields a tetramer of catalytic subunits which sediments at 11 S. To compare the primary structures of the catalytic subunits of the 5.6 S and 11 S forms of acetylcholinesterase, amino acid sequences from the active sites and from the amino-terminal regions have been elucidated. Active site serines were labeled with [3H]isopropyl fluorophosphate. After digestion with trypsin, the resultant peptides were resolved by elution from a size-exclusion column followed by reverse-phase high performance liquid chromatography. Each active site tryptic peptide contained 24 residues and identical sequences were found in this peptide for the 5.6 S and 11 S forms of the enzyme. The sequence flanking the active site serine revealed extensive homology with the published sequence of human serum cholinesterase as well as a lesser degree of homology with other known serine proteases and esterases. The sequences of the amino-terminal region also appear to be identical for both enzyme forms although we note variation in the ratio of Glu and Gln at position 5. The amino-terminal sequence exhibits only partial homology with the published sequence of human serum cholinesterase.
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PMID:Primary structures of the catalytic subunits from two molecular forms of acetylcholinesterase. A comparison of NH2-terminal and active center sequences. 390 71

The interaction of serine protease (esterases) with 6-chloro-2-pyrones was investigated. Time-dependent inactivation of chymotrypsin, alpha-lytic protease, pig liver elastase, and cholinesterase was found with 3- and 5-benzyl-6-chloro-2-pyrone, as well as 3- and 5-methyl-6-chloro-2-pyrone. No inactivation was observed with the unsubstituted 6-chloro-2-pyrone. The substituted pyrones did not inactivate papain or carboxypeptidase A, as well as a number of other nonproteolytic enzymes. The substituted chloropyrones, therefore, show considerable selectivity toward serine proteases. Analogues in which the 6-chloro substituent is replaced by H or OH do not inactivate. The presence of the halogen is, therefore, essential for inactivation. Chymotrypsin catalyzes the hydrolysis of 3-benzyl-6-chloro-2-pyrone. At pH 7.5, (E)-4-benzyl-2-pentenedioic acid is the major product, and 2-benzyl-2-pentenedioic anhydride is a minor product. The ration of hydrolysis product found to the number of enzyme molecules inactivated varies from 14 to 40. The enzyme inactivated with the 3-benzyl compound does not show a spectrum characteristic of the pyrone ring. This suggests that inactivation by 3-benzyl-6-chloro-2-pyrone occurs in a mechanism-based fashion after enzymatic lactone hydrolysis. When the enzyme is inactivated with the 5-benzyl compound, absorbance due to the pyrone ring is observed. We suggest that inactivation occurs through an active site directed mechanism involving a 1,6-conjugate addition of an active site nucleophile to the pyrone ring.
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PMID:Novel inactivators of serine proteases based on 6-chloro-2-pyrone. 641 Nov 20

The usual E1u and atypical E1a human pseudocholinesterases (acylcholine acylhydrolase, EC 3.1.1.8) were purified to homogeneity. The active-site serine residue was conjugated with diisopropyl fluorophosphate and digested with trypsin. The tryptic peptide containing the active site was isolated by gel filtration followed by two-dimensional paper chromatography and electrophoresis. The amino acid sequence of the active site peptide obtained from the usual E1u enzyme was found to be Gly-Glu-Ser-Ala-Gly-Ala-Ser-Ala-Val-Ser-Leu. A remarkable structural homology exists between the human and the horse enzymes in their active sites. From the difference in electrophoretic mobility of the active-site peptides obtained from the usual and atypical enzymes, the probable structure of the atypical human enzyme was deduced as Gly-His-Ser-Ala-Gly-Ala-Ser-Ala-Val-Ser-Leu.
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PMID:Amino acid sequence of the active site of human pseudocholinesterase. 683 85

Nutritional status, assessed by anthropometric and biochemical methods, protein and amino-acid (AA) composition and muscle water were evaluated in 11 kidney transplanted children and in a control group of 10 children with normal renal function who were undergoing elective surgery. Samples of the rectus abdominis muscle were taken when surgery was performed in the control children and when the peritoneal catheter was removed in the transplanted children. The mean time from the transplantation to the study time was 97 +/- 14 days (range 72-114 days). Height was reduced in the transplanted children compared to the controls but skinfold thickness, arm muscle circumference and serum proteins (total protein, albumin, transferrin, pseudocholinesterase) were normal. The body mass index was over the 50 degree percentile in nine of the eleven children. The muscle contents of total, extracellular, and intracellular water, alkali-soluble protein (ASP), DNA and the ASP/DNA ratio were not significantly different in transplanted children from those in the controls. Plasma leucine and taurine levels were significantly decreased, whereas plasma citrulline and alanine levels and the glycine/serine ratio were increased. Muscle threonine, alanine+taurine, glycine and aspartic acid levels as well as the glycine/serine ratio were increased in the transplanted children. Transplanted children show an almost normal muscle AA profile and a plasma AA pattern that seems to be related to the prednisone therapy.
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PMID:Muscle and plasma amino acids and nutritional status in kidney-transplanted children. 770 64

Cholinesterases form a family of serine esterases that arise in animals from at least two distinct genes. Multiple forms of these enzymes can be precisely localized and regulated by alternative mRNA splicing and by co- or posttranslational modifications. The high catalytic efficiency of the cholinesterases is quelled by certain very selective reversible and irreversible inhibitors. Owing largely to the important role of acetylcholine hydrolysis in neurotransmission, cholinesterase and its inhibitors have been studied extensively in vivo. In parallel, there has emerged an equally impressive enzyme chemistry literature. Cholinesterase inhibitors are used widely as pesticides; in this regard the compounds are beneficial with concomitant health risks. Poisoning by such compounds can result in an acute but usually manageable medical crisis and may damage the CNS and the PNS, as well as cardiac and skeletal muscle tissue. Some inhibitors have been useful for the treatment of glaucoma and myasthenia gravis, and others are in clinical trials as therapy for Alzheimer's dementia. Concurrently, the most potent inhibitors have been developed as highly toxic chemical warfare agents. We review treatments and sequelae of exposure to selected anticholinesterases, especially organophosphorus compounds and carbamates, as they relate to recent progress in enzyme chemistry.
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PMID:Anticholinesterases: medical applications of neurochemical principles. 772 78

Loss of cholinergic function in the neocortex and hippocampus arising from death or atrophy of basal forebrain cholinergic neurons is a consistent feature of the Alzheimer brain at autopsy or biopsy. Replacement of lost cholinergic function, therefore, may be of therapeutic benefit to the Alzheimer's (AD) patients. This can be accomplished by enhancing endogenous levels of acetylcholine (ACh) through inhibition of its degradation by acetylcholinesterase on by directly mimicking its actions at postsynaptic muscarinic receptors. Initial efforts focused on inhibition of cholinesterase activity with tacrine (1,2,3,4-tetrahydroaminoacridine monochloride, CAS 1684-40-8, THA, Cognex). Tacrine is a mixed, reversible inhibitor of cholinesterase activity that binds near but not to the catalytically active serine in the active site of the enzyme. Through this action tacrine indirectly elevates ACh levels in the brains of animals and improves cognitive performance in rodents and monkeys. More importantly, tacrine has been shown to significantly improve several measures of cognitive performance in probable AD patients in well-controlled clinical trials, although not all patients respond to this agent. CI-979 ((E)-1,2,5,6-tetrahydro-1-methyl-3-pyridine-carboxyaldehyde-O-meth yl oxime, CAS 139886-04-7) is a non-subtype selective, partial muscarinic agonist that enhances cognitive performance and increases central cholinergic activity in rodents at doses below those required to increase peripheral cholinergic tone. In normal healthy volunteers, CI-979 is well tolerated at single and multiple doses (q 6 h) up to 1.0 mg. In normal healthy volunteers, CI-979 is well tolerated at single and multiple doses (q 6 h) up to 1.0 mg. Expected signs of mild to moderate peripheral cholinergic stimulation were noted at 0.5 to 1.0 mg doses (q 6 h).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cholinergic therapies for Alzheimer's disease. Palliative or disease altering? 776 38

The biochemical characterization of detergent-solubilized acetylcholinesterase (AChE) from subcellular particles of sheep platelets and the effects of different effectors on AChE activity from solubilized platelet crude membranes have been undertaken and studied. Solubilization of AChE with detergent increased the thermal stability of the enzyme from all particulate fractions. Solubilized AChE from the mitochondria-granule fraction was the most thermostable at 55 degrees C. The Km values against acetylthiocholine chloride and the Arrhenius plot obtained were very similar for the AChE from all the solubilized fractions. There were no differences in the ability of solubilized AChE from different subcellular fractions to bind concanavalin A (Con A). In solubilized platelet crude membranes, benzyl alcohol was a potent AChE inhibitor at a concentration of 10(-2) M, whereas ethanol was not. Mg2+ cations and, to a lesser extent, Ca2+ and Mn2+ cations, activated AChE at concentrations higher than 1 mM. Serine hydrolase inhibitors and cholinesterase-specific inhibitors were very effective in the inactivation of AChE, whereas EDTA and EGTA had no effect. Of all the monosaccharides tested, only N-acetylneuraminic acid exerted an inhibitory effect on AChE activity. Immobilized-lectin binding studies demonstrated the interaction of solubilized crude membrane-bound AChE with Con A, lentil lectin and wheat germ agglutinin. Taken together, these data suggest the presence of a unique form of the membrane-bound AChE which has at least alpha-mannose and N-acetylglucosamine residues in the glycan chain.
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PMID:Biochemical characterization of sheep platelet acetylcholinesterase after detergent solubilization. 785 52

Progressive inhibition of cholinesterases by organophosphates results from phosphorylation of the active-site serine. Phosphorylated cholinesterases may undergo a dealkylation reaction of the organophosphorus moiety leading to "aged" enzyme, i.e. conversion of the inhibited enzyme into a non-reactivable form. Aging occurs rapidly when the inhibitor is soman, a powerful nerve agent. This reaction promotes formation of a salt bridge between the protonated histidine of the active site catalytic triad and a negatively charged oxygen bound to the phosphorus atom. This reaction is accompanied by enzyme conformational and stability changes. In the research of compounds which retard or prevent the dealkylation reaction of organophosphate-cholinesterase conjugates, some allosteric effectors are relatively efficient by decreasing the velocity of the "aging" process. Knowledge of the three-dimensional structure of non-inhibited, inhibited and aged cholinesterases allows to understand the intimate mechanism of irreversible enzyme inhibition. Modeling of enzyme structure in the presence of effectors is essential to find out new therapeutic means against organophosphate poisoning.
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PMID:[Aging of cholinesterase after inhibition by organophosphates]. 825 Apr 87


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