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)

A simple direct spectrophotometric method for the determination of butyrylcholinesterase (EC 3.1.1.8) and arylesterase (EC 3.1.1.2) activities has been developed. New chromogenic substrates, (3-carboxypropyl)trimethylammonium iodide o-nitrophenyl ester (I) and (3-carboxypropyl)trimethylammonium iodide p-nitrophenyl ester (II), as well as new fluorogenic substrate, (3-carboxypropyl)trimethylammonium iodide 4'-methylumbelliferyl ester (III), were used in this study. Horse serum butyrylcholinesterase equally catalyzed hydrolysis of the compounds, I, II and III. Hydrolysis of these compounds by trypsin, chymotrypsin, acetylcholinesterase and carboxylesterase was negligible or quite slow. By human serum butyrylcholinesterase, however, only the compound I was preferentially hydrolyzed. The compound III, by contrast, was found to be a specific substrate for arylesterase of human serum without being affected by the butyrylcholinesterase. All these measurements were carried out readily and efficiently, by analyzing highly colored products with I and II, and highly fluorescent product with III.
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PMID:New chromogenic and fluorogenic substrates for the determination of butyrylcholinesterase and arylesterase activities. 720 43

When studying enzymic activities in successively chosen portions of solutions of pyruvatekinase, hexokinase, lactatedehydrogenase, alkaline phosphatase, acetylcholinesterase and trypsin fast macroscopic fluctuations were revealed. These fluctuations were found earlier in protein preparations of the actomyosin complex and creatinkinase and described as "conformation fluctuations". Similar macroscopic fluctuations were also revealed when measuring the rate of reaction between ascorbic acid and dichlorphenolindophenol (DCAPI). The spectra of macroscopic fluctuations in solutions of different proteins and ascorbic acid+DCAPI are similar to each other in principle. This gives grounds to consider the ability towards macroscopic fluctuations to be a common property of solutions of different substances.
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PMID:[Macroscopic fluctuations--a general property of aqueous solutions of different proteins and other substances. Statistical spectral analysis of macroscopic fluctuations]. 739 55

Monoclonal antibodies were raised against amphiphilic detergent-soluble (DS) acetylcholinesterase (AChE) from human brain caudate nucleus. Three mAb, 132-4 (IgG1), 132-5 (IgG1) and 132-6 (IgG3), specific for brain DS-AChE were selected and subcloned. These mAb reacted with native as well as heat-denatured and SDS-denatured DS-AChE, indicating that the epitopes to which mAb bound are continuous determinants. The mAb cross-reacted with DS-AChE from bovine and mouse brain and with brain DS-AChE from river trout (Salmo trutta forma fario) and lake trout (Salmo trutta forma lacustris). No cross-reaction was detected with the following antigens: salt-soluble (SS) AChE from bovine brain, glycophospholipid-anchored AChE from human and bovine erythrocytes, DS-butyrylcholinesterase and SS-butyrylcholinesterase (BtChE) from the brains of human and bovine, DS-BtChE from chicken and BtChE from human serum. Deglycosylation of brain DS-AChE with N-glycosidase F did not abolish the binding of mAb to DS-AChE. After reduction of brain DS-AChE by dithiothreitol, the mAb no longer reacted with the antigen, indicating that a disulfide bridge is important for the epitope. Monomerization of brain DS-AChE by trypsin and limited proteinase K treatment also abolished the binding of mAb to DS-AChE. Sucrose-density-gradient centrifugation showed that mAb reacted only with native tetrameric forms, but not with dimeric and monomeric forms. Western blot, after SDS/PAGE under non-reducing conditions, showed that mAb reacted with those subunits carrying the hydrophobic anchor (i.e. tetramers, trimers and heavy dimers) but not with those devoid of it (light dimers or monomers). Since mAb 132-4, 132-5 and 132-6 recognized DS-AChE from fish up to mammalian brain in the evolutionary tree, it is concluded that the epitope to which these mAb bind, is conserved in nature.
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PMID:Monoclonal antibodies against brain acetylcholinesterases which recognize the subunits bearing the hydrophobic anchor. 768 3

Bovine erythrocyte acetylcholinesterase was prepared for tryptic digestion by radiomethylating with [14C]HCHO and NaCNBH3, cleaving with purified bacterial phosphatidylinositol-specific phospholipase C to remove the lipid portion of the glycoinositol phospholipid anchor, and reducing and alkylating the intersubunit disulfide bonds. Two alternative denaturation procedures were then compared prior to incubation with trypsin. In the conventional procedure, acetylcholinesterase was treated with 6 M guanidine hydrochloride for 40 min at room temperature and dialyzed. In a new procedure, acetonitrile (CH3CN) was added to 30% v/v for 10-15 min at room temperature and then removed by vacuum evaporation. The CH3CN concentration during evaporation could be estimated from the apparent pH of the solution (20 mM phosphate buffer), which varied linearly over the range of 0-75% CH3CN. CH3CN was removed in a mixture of constant composition (approximately 11% H2O-89% CH3CN), so that a final CH3CN content of 0-5% could be monitored by solution weight alone. The tryptic digests of the two denatured stocks yielded comparable HPLC profiles for A215 and radioactivity. This new denaturation protocol may be of general utility because of its convenience and gentle conditions.
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PMID:Protein denaturation by addition and removal of acetonitrile: application to tryptic digestion of acetylcholinesterase. 771 Jan 3

The effects of exogenous ganglioside GM1 (1 microM) from bovine brain on the morphological state and biochemical parameters (creatine kinase, acetylcholinesterase and adenylate cyclase activities as well as the protein, phospholipid and ganglioside content) have been studied in primary cultures of trypsin-treated dissociated cells of chicken embryonic brain. Ganglioside GM1 accelerated the growth and differentiation of cultured cells, increased the phospho- and glycolipid content and stimulated the activity of the enzymes.
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PMID:[Modification of biochemical changes in developing cultures of chick embryo nerve tissue cultures]. 781 90

Organophosphorus (OP) compounds can bind to and inactivate several target molecules other than acetylcholinesterase (AChE). In the present study, five sets of structurally related organophosphorus compounds were used to evaluate the relationships between organophosphorus binding sites of AChE, neuropathy target esterase (NTE), trypsin, and the target molecule(s) involved in inhibition of splenocyte activation by OP compounds. The concentration of each OP compound required to inhibit enzyme activity or splenocyte activation by concanavalin A by 50% was determined. The pattern of IC50 values indicated that AChE, trypsin, NTE, and the molecule(s) involved in inhibition of splenocyte activation are distinct with regard to patterns of inhibition by OP compounds. However, there was a striking similarity in the patterns of inhibition for trypsin and NTE with substantial differences for only 2 of 20 compounds. This pattern suggests similarity in the active sites of these molecules. There were also similarities in the IC50 patterns for lymphocyte activation and trypsin or NTE activity. However, the correlation was not as strong as between NTE and trypsin, and the data suggested the possibility of multiple target molecules for inhibition of splenocyte activation by OP compounds. More importantly, there was essentially no correlation between the pattern of IC50 values for AChE and splenocyte activation. This strongly suggests that acetylcholine and AChE of the type found in the brain are not important in the regulation of splenocyte activation by concanavalin A.
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PMID:A comparative study of inhibition of acetylcholinesterase, trypsin, neuropathy target esterase, and spleen cell activation by structurally related organophosphorus compounds. 789 68

It has been suggested previously that small amounts of the mature 115-kDa form of phosphatidylinositol (PtdIns)-glycan-specific phospholipase D from bovine serum may exist as a 47-kDa form which can also be generated in vitro by treatment with proteases. In this study, we investigated the possible proteolytic processing by trypsin of partially purified PtdIns-glycan- specific phospholipase D from bovine serum and found that tryptic digestion caused an apparent activation of the enzyme when assayed in the presence of 0.1% (mass/vol.) Triton X-100. Trypsin cleaved the 115-kDa form of PtdIns-glycan-specific phospholipase D into three major polypeptides with molecular masses of 33, 39, and 47 kDa. Under non-denaturing conditions, the polypeptides remained tightly but noncovalently associated with each other. However, in the presence of 6 M urea, the polypeptides could be separated by anion-exchange chromatography. After renaturation, PtdIns-glycan-specific phospholipase D activity was found to be associated with a 39-kDa fragment. Based on its size and its amino acid sequence, the active-site-containing fragment consisted of approximately 275 residues of the N-terminal region of PtdIns-glycan-specific phospholipase D. The active 39-kDa fragment hydrolyzed the PtdIns-glycan-anchors of solubilized acetylcholinesterase from bovine erythrocytes and variant surface glycoprotein from blood stream trypanosomes. However, this fragment was inactive on membrane-associated acetylcholinesterase and PtdIns.
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PMID:Generation by limited proteolysis of a catalytically active 39-kDa protein from the 115-kDa form of phosphatidylinositol-glycan-specific phospholipase D from bovine serum. 792 7

To characterize the structure of the active site of acetylcholinesterase (AChE) from the electric organ of E. electricus, we identified sites of incorporation of two active-site affinity labels, [3H]diisopropyl fluorophosphate ([3H]DFP), and 1-bromo-2-[14C]pinacolone ([14C]BrPin). AChE was isolated, purified, inactivated and digested with trypsin, and peptides containing 3H or 14C were purified by reverse-phase HPLC and characterized by N-terminal sequence analysis. [3H]DFP, labelling Ser-200, was found in a single peptide, QVTIFGESAGAASVGMHLLSPDSR, 83% identical with the sequence from Thr-193 to Arg-216 deduced for AChE of T. californica, with Gln, Ala, Leu, and Asp in place of Thr-193, Gly-203, Ile-210 and Gly-214, respectively, and 87% identical with that from bovine and human brain AChEs. Inactivation by [14C]BrPin led to two radioactive peptides. One, ASNLVWPEWMGVIHGYEIEFVFGLPLEK, was 96% identical with that extending from Ala-427 to Lys-454 of T. californica. Release of 14C in cycle 14 established reaction of [14C]BrPin with active-site His-440, protected by 5-trimethylammonio-2-pentanone (TAP). The other peptide, LLXVTENIDDAER, 77% homologous with that of T. californica extending from Leu-531 to Arg-543, had label associated with the third cycle, not protected by TAP, corresponding to Asn-533. The slow inactivation of eel AChE by reaction of [14C]BrPin at His-440 contrasts with that of AChE from T. nobiliana, where it reacts rapidly with a free cysteine, Cys-231, not present in eel AChE. For both AChEs, inactivation by BrPin prevents subsequent reaction with [3H]DFP, and prior inactivation by DFP does not prevent reactions with [14C]BrPin.
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PMID:Active-site peptides of acetylcholinesterase of Electrophorus electricus: labelling of His-440 by 1-bromo-[2-14C]pinacolone and Ser-200 by tritiated diisopropyl fluorophosphate. 794 65

A series of dipeptides which contained phosphonate analogs of proline and piperidine-2-carboxylic acid (homoproline) have been synthesized and tested as inhibitors of DPP-IV. The rates of inhibition of DPP-IV by these compounds are moderate, but the inhibitors are quite specific. The best inhibitor in the series is Ala-PipP(OPh-4-Cl)2 (13), which has a k(inact) of 0.353 s-1 and KI of 236 microM. The DPP-IV inhibitors Ala-ProP(OPh)2 (6), Ala-ProP(OPh-4-Cl)2 (12), and Ala-PipP(OPh-4-Cl)2 (13) do not inhibit trypsin, human leukocyte elastase (HLE), porcine pancreatic elastase (PPE), acetylcholinesterase, papain, and cathepsin B. However, compounds 12 and 13 inhibited chymotrypsin slowly. Most of these dipeptides containing a homoproline phosphonate residue (PipP) or a Pro phosphonate residue (ProP) at the P1 site are stable in a pH 7.8 buffer with half-lives of several hours to several days. DPP-IV inhibited by 6, 7 (Ala-PipP(OPh)2), 12, or 13 is quite stable, and no enzyme activity was recovered after removal of excess inhibitor and incubation in buffer for 1 day. Since the phosphonate inhibitors are specific toward DPP-IV and the inhibited enzymes are stable, they should be useful in establishing the biological functions of DPP-IV and may be useful therapeutically in the prevention of the rejection of transplanted tissue.
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PMID:Dipeptide phosphonates as inhibitors of dipeptidyl peptidase IV. 796 57

Several monoclonal antibodies were raised against chicken acetylcholinesterase (AChE; EC 3.1.1.7). Some of these antibodies react with quail AChE but not with AChEs from nonavian vertebrates or invertebrates and not with butyrylcholinesterase. They may be classified in several mutually compatible groups, i.e., that can bind simultaneously to the monomeric form of AChE. Most antibodies recognize a peptidic domain that does not exist in mammalian AChE and that may be digested by trypsin without loss of activity or dissociation of quaternary structure. The only exception is the antibody C-131, which is conformation dependent and preferentially recognizes active AChE. We have set up two-site immunoradiometric assays, using an immobilized capture antibody, C-6 or C-131, and a radiolabeled antibody, 125I-C-54. The C-6/C-54 assay quantifies the totality of inactive and active AChE subunits: It detects 10(-3) Ellman unit (approximately 40 pg of protein) and yields a linear response up to at least 25 10(-3) Ellman units. An analysis of gradient fractions, using C-6/C-54 and C-131/C-54 assays as well as activity determination, shows that the A12 and G4 forms are exclusively composed of active subunits, whereas inactive molecules cosediment with the active G2 and G1 forms. Both active and inactive G2 and G1 forms are amphiphilic, as indicated by the influence of detergents on their sedimentation coefficients and Stokes radii. In brain, the proportion of inactive forms decreases from 40% at embryonic day 11 (E11) to 20% at birth [day 1 (D1)]. In muscle, we observed no inactive AChE at E11 and a small proportion of inactive G1 at D1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two-site immunoradiometric assay of chicken acetylcholinesterase: active and inactive molecular forms in brain and muscle. 805 52


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