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

We estimated the concentrations, multiple forms, and lectin binding of five microsomal enzymes in particle free extracts from human kidney, pancreas, jejunal mucosa, and normal and cancerous liver. While arylesterase markedly reacted only with concanavalin A, arylamidase, alkaline phosphatase, gamma-glutamyltransferase, and cholinesterase were intensely precipitated by lectins from Ricinus communis 120, Canavalia ensiformis, Triticum vulgare and Phaseolus vulgaris S. Agglutinins from Glycine max, Arachis hypogaea and Ulex europaeus proved less effective. The reaction mainly depended on the origin of enzymes not on their species. Desialylation always decreased precipitation, and in extracts of normal liver parenchyma it even totally abolished precipitation, by Triticum vulgare lectin. Sialoenzymes therefore appear to be normal intracellular constituents. Differences between enzymes from normal and cancerous liver were not reflected by variant properties of the corresponding activities in sera. The same held true for multiple forms. The reasons for these differences are discussed.
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PMID:[Catalytic concentration, multiple forms, and lectin affinity of microsomal enzymes from human tissues: lectins as reagents, II (author's transl)]. 612 Feb 6

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

Three Japanese patients showed very low butyrylcholinesterase activity in their sera and appeared to be homozygous for silent genes for butyrylcholinesterase. From DNA analysis, all three patients were compound heterozygotes: GGA(Gly) to CGA(Arg) at codon 365 (G365R) and TTC(Phe) to TCC(Ser) at codon 418 (F418S) in patient 1, G365R and CGT(Arg) to TGT(Cys) at codon 515 (R515C) in patient 2 and ACT(Thr) to CCT(Pro) at codon 250 (T250P) and AGA(Arg) to TGA(Stop) at codon 465 (R465X) in patient 3. The K-variant, GCA(Ala) to ACA(Thr) at codon 539, was also found in patients 1 and 2. Simple identification methods for all the mutations were developed and applied to family analysis and control individuals. The mutant alleles (with silent gene and K-variant) were segregated as predicted by theory in pedigrees of patients 1 and 2. Four of the mutations, F418S, R515C, T250P and R465X, were initially discovered in Japan and genetic heterogeneity among the human population for the butyrylcholinesterase gene was suggested.
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PMID:Genetic basis of the silent phenotype of serum butyrylcholinesterase in three compound heterozygotes. 763 91

Carbamate compounds marked for their cholinesterase (ChE) inhibition are widely used as therapeutics and as insecticides. Groups of closely related carbamate molecules provide an important tool in the understanding of the domains responsible for binding these ligands to ChEs. Comparative inhibition profiles were derived for five N-methyl carbamates, mostly carbofuran derivatives, differing in length and branching of their hydrocarbonic chain towards human erythrocyte acetylcholinesterase (H.AChE), human serum butyrylcholinesterase (H.BChE) in its normal form or in a mutant form containing the point mutation Asp70-->Gly, and Drosophila nervous system ChE. Carbofuran was more toxic to all three ChEs than any of the other derivatives, with IC50 values which differed by more than 1000-fold. Drosophila ChE appeared to be most sensitive to all of the examined carbamates, and H.AChE was consistently more sensitive than H.BChE. Moreover, inhibition efficiency for H.BChE decreased more effectively than it did for H.AChE with increased length and complexity of the side chain, indicating less flexible carbamate binding site in BChE as compared with AChE. The Asp70-->Gly mutation had no apparent effect on H.BChE inhibition by N-methyl carbamates, suggesting that the Asp70 domain localized near the rim of the active site groove is not important in carbamate binding. Comparison of the carbamate IC50 values with published LD50 values demonstrated correlation between the in vivo toxicity and inhibition of BChE by carbamates, suggesting a biological in addition to scavenging importance for BChE in mammals. Pinpointing different domains characteristic of carbamate binding in each member of the ChE family can thus shed light on the variable toxicity of these inhibitors to insects and mammals, predict the toxicity of yet untested inhibitor molecules and help in designing novel and improved ChE inhibitors.
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PMID:Molecular dissection of cholinesterase domains responsible for carbamate toxicity. 834 77

People with genetic variants of cholinesterase (ChE) have been reported to have prolonged apnea with the use of myorelaxant succinylcholine. For the silent type variant ChE, two cases of mutation have been reported. In one case, the exon 2 of ChE gene was disrupted by a 342 bp insertion of Alu element. In the other case, a frame shift mutation was identified at Gly-117 (GGT-->GGAG) to create a stop codon at nucleotide 384. Dibucaine resistant ChE was examined and found to have a point mutation at nucleotide 209 (A-->G) that converted Asp-70 to Gly, and consequently reduced the affinity of ChE for choline esters. In addition, another two types of a point mutation reducing ChE activity were reported on K variant (Ala-539-->Thr) and a case of (Gly-365-->Arg) in a patient with liver cirrhosis.
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PMID:[Gene analysis of human cholinesterase variants]. 846 62

Serine esterases and proteases are rapidly and irreversibly inhibited by organophosphorus (OP) nerve agents. To overcome this limitation, we selected several residues that were predicted to be within 3-10 A of both the active site Ser O gamma and the oxyanion hole of human butyrylcholinesterase for mutation to His (G115H, G117H, Q119H, and G121H). In remarkable contrast with wild-type (WT) and all other His mutants tested, G117H underwent spontaneous reactivation following OP inhibition to regain 100% of original esterase activity with maximum k3 values of approximately 6.8 x 10(-5) and 16 x 10(-5) s-1 for GB (sarin) and VX, respectively, in 0.1 M Bis-Tris, 25 degrees C. The free energy of activation for k3 was 19 kcal mol-1, and measurement of pH dependence suggested that reactivation resulted from an acidic group with pKa 6.2. To evaluate further the importance of His in achieving this result, we changed the same Gly to Lys (G117K) and compared its substrate and inhibitor kinetics with those of G117H. Both mutants retained esterase activity with Km values similar to those of WT for neutral ester hydrolysis, but G117K did not reactivate. Complete reactivation proves that G117H is not irreversibly inhibited but instead functions as a catalyst for OP hydrolysis. Dephosphonylation is the rate-limiting step, and G117H effects overall rate constant enhancements of approximately 100- and 2000-fold above the uncatalyzed hydrolysis of GB and VX, respectively, at pH 6.0, 25.0 degrees C. We conclude that an appropriately positioned imidazolium ion in the oxyanion hole catalyzes dephosphonylation and, thereby, confers a novel organophosphorus acid anhydride hydrolase activity upon butyrylcholinesterase.
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PMID:Design and expression of organophosphorus acid anhydride hydrolase activity in human butyrylcholinesterase. 851 49

The G117H mutant of human butyrylcholinesterase (EC 3.1.1.8) was expressed in Chinese hamster ovary cells. Substitution of Gly 117 with His to make the G117H mutant endowed butyrylcholinesterase with the ability to catalyze the hydrolysis of organophosphate esters. G117H was still able to hydrolyze butyrylthiocholine, benzoylcholine, and o-nitrophenyl butyrate, but in addition it had acquired the ability to hydrolyze the antiglaucoma drug echothiophate and the pesticide paraoxon. Wild-type butyrylcholinesterase was irreversibly inhibited by echothiophate and paraoxon, but G117H regained 100% activity within 2-3 min following reaction with these compounds. On a polyacrylamide gel, the same bands that stained for activity with butyrylthiocholine also stained for activity with echothiophate. G117H is the only enzyme known that hydrolyzes echothiophate. Diethoxyphosphorylated G117H aged with a half-time of 5.5 h, a rate 600 times slower than the rate of hydrolysis. Echothiophate and paraoxon were hydrolyzed with the same kcat of 0.75 min-1. This calculates to a rate acceleration of 100,000-fold for hydrolysis of echothiophate and paraoxon by the G117H mutant compared to the nonenzymatic rate.
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PMID:A single amino acid substitution, Gly117His, confers phosphotriesterase (organophosphorus acid anhydride hydrolase) activity on human butyrylcholinesterase. 902 Jul 76

The atypical variant of human butyrylcholinesterase has Gly in place of Asp 70. Patients with this D70G mutation respond abnormally to the muscle relaxant succinyldicholine, experiencing hours of apnea rather than the intended 3 min. Asp 70 is at the rim of the active site gorge 12 A from the active site Ser 198. An unanswered question in the literature is why the atypical variant has a 10-fold increase in Km for compounds with a single positive charge but a 100-fold increase in Km for compounds with two positive charges. We mutated residues Asp 70, Trp 82, Trp 231, Glu 197, and Tyr 332 and expressed mutant enzymes in mammalian cells. Steady-state kinetic parameters for hydrolysis of butyrylthiocholine, benzoylcholine, succinyldithiocholine, and o-nitrophenyl butyrate were determined. The wild type and the D70G mutant had identical k(cat) values for all substrates. Molecular modeling and molecular dynamics suggested that succinyldicholine could bind in two consecutive orientations in the active site gorge; formation of one complex caused a conformational change in the omega loop involving Asp 70 and Trp 82. We propose the formation of three enzyme-substrate intermediates preceding the acyl-enzyme intermediate; kinetic data support this contention. Substrates with a single positive charge interact with Asp 70 just once, whereas substrates with two positive charges, for example succinyldithiocholine, interact with Asp 70 in two complexes, thus explaining the 10- and 100-fold increases in Km in the D70G mutant.
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PMID:Role of aspartate 70 and tryptophan 82 in binding of succinyldithiocholine to human butyrylcholinesterase. 904 29

Effects of soman, an irreversible cholinesterase (ChE) inhibitor, on [3H]norepinephrine (NE) release evoked by N-methyl-d-aspartate (NMDA) were studied in rat brain cortical slices. Soman inhibited NMDA-stimulated [3H]NE release in a concentration-dependent manner. This effect was neither reversed by atropine, an antagonist of the muscarinic receptor, nor by d-tubocurarine, an antagonist of the nicotinic receptor. Incubation of the slices with NMDA antagonists, AP5, MK-801, ketamine or magnesium, resulted in inhibitory effects on NMDA-stimulated [3H]NE release. Soman significantly shifted the inhibition curves downward and significant interactions between these chemicals and soman were observed. Glycine potentiated the release of [3H]NE stimulated by NMDA, and soman did not alter this effect of glycine. Soman also inhibited the release of [3H]NE evoked by K+ in a concentration-dependent manner. NMDA-stimulated [3H]NE release was inhibited by tetrodotoxin (TTX), an antagonist of voltage-dependent sodium channels, and a significant interaction between soman and TTX was observed. The [3H]NE release induced by NMDA was dependent on extracellular calcium concentrations and was inhibited by nifedipine, a selective blocker of the L-type voltage-dependent calcium channels (VDCC), or cadmium, a non-specific blocker of VDCC. However, no significant interaction between the effects of soman and calcium, nifedipine, or cadmium was observed. Taken together, the results suggested that: (1) soman has a direct action at non-cholinergic sites; (2) soman may interfere with some of the regulatory sites of the NMDA receptor-ion channel complex; and (3) the voltage-dependent sodium channel, but not VDCC, may be a site of action for soman.
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PMID:Inhibition by soman of NMDA-stimulated [3H]norepinephrine release from rat cortical slices, studies of non-cholinergic effect. 951 77

Recombinant alpha-D-galactosidase (rGal) from soybean (Glycine max) hydrolyzed the immunodominant alpha-D-galactose residue from the B epitope of red blood cells. This converted type B erythrocytes to type O which are "universally" transfusable. Type B red blood cells were obtained from four different donors and enzymatically converted. Cell function parameters, including red cell indices, pH, methemoglobin, carboxyhemoglobin, osmotic fragility, hemolysis, 2,3-diphosphoglycerate, cholinesterase, ATP, and antigen typing of treated cells were compared to controls. These pilot studies indicate that rGal could have potential biotechnical application in the production of universally transfusable red blood cells.
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PMID:Seroconversion of type B to O erythrocytes using recombinant Glycine max alpha-D-galactosidase. 978 52


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