EC:3.1.1.8 - FACTA Search

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)

Serum cholinesterase (ChE) (E.C. 3.1.1.8) is a glycoprotein which has 36 potential sites of asparagine-N-linked sugar chains. The structures of oligosaccharides released from ChE on hydrazinolysis were studied by serial lectin affinity column chromatography, exoglycosidase digestion, and methylation analysis. Seventy-three % of the sugar chains occurred as biantennary oligosaccharides and the remainder as C-2 and C-2,4/C-2,6 branched tri- and tetraantennary oligosaccharides. Several percentages of the Lewis X antigenic determinant and fucosylated mannose core were linked to them, and their sialic acid residues were linked to nonreducing terminal galactose residues at the C-3 and C-6 positions. Aleuria aurantia lectin-reactive ChE with the Lewis X antigenic determinant increased in hepatocellular carcinomas and liver cirrhosis compared with chronic hepatitis; on the other hand, Aleuria aurantia lectin-reactive ChE did not change significantly after transcatheter arterial embolization and was not related to the serum levels of alpha-fetoprotein and carcinoembryonic antigen in patients with hepatocellular carcinomas. Accordingly, the analysis of Aleuria aurantia lectin-reactive ChE is clinically useful for differentiating liver cirrhosis from chronic hepatitis and to identify high risk groups for hepatocellular carcinomas, i.e., cirrhotic patients in Child's A grade.
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PMID:Increase of fucosylated serum cholinesterase in relation to high risk groups for hepatocellular carcinomas. 826 62

Differences in glycosylation between molecular forms of acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) in muscle and serum of normal and dystrophic mice have been studied by means of their adsorption to immobilized lectins. Application of a two-step extraction procedure, first with saline buffer, and second with saline buffer and Triton X-100, brought into solution most of the muscle AChE and BuChE activities. The AChE activity was five times greater than that of BuChE in normal (NM) and dystrophic muscle (DM). The AChE activity in the serum of dystrophic mice was twice that measured in control animals, but the BuChE activity remained almost unchanged. Both AChE and BuChE in muscle and serum bound completely to concanavalin A (Con A) and Lens culinaris agglutinin (LCA). A12, A8 and G4 AChE, but not the light G2 and G1 AChE forms, in NM and DM were completely adsorbed to wheat germ agglutinin (WGA). Similarly, G4 BuChE, but not the G2 and G1 forms, were associated to WGA. A high proportion of G4 and G1 AChE and G4 BuChE forms in mouse serum were fixed to WGA. Asymmetric AChE in NM and DM reacted with Ricinus communis agglutinin (RCA) but the light AChE and BuChE forms in muscle and serum did not bind to the lectin. G4 AChE and G4 BuChE in NM were not recognized by RCA, but the isoforms in DM bound fully to the lectin. Serum G4 AChE from control or dystrophic mice did not react with RCA, but G4 BuChE was fixed to the lectin. Since RCA is specific for galactose, the results suggest that in dystrophic muscle galactose is incorporated early in G4 AChE and this affects the level of the functional tetramers destined for insertion in the plasma membrane.
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PMID:G4 forms of acetylcholinesterase and butyrylcholinesterase in normal and dystrophic mouse muscle differ in their interaction with Ricinus communis agglutinin. 831 75

We analyzed acetylcholinesterase (AcChoEase; EC 3.1.1.7) activity and AcChoEase immunoreactive protein in chicken brain by using five monoclonal antibodies raised against chicken AcChoEase. Four of them specifically recognized AcChoEase catalytic subunits in Western blots and one, C-131, recognized only enzymatically active AcChoEase. We observed considerable differences in the ratio of immunoreactive protein to catalytic activity in various fractions, indicating the existence of inactive AcChoEase protein. This inactive AcChoEase component was more abundant in a low-salt-soluble extract than in a subsequent detergent-soluble extract. On the basis of the ratio between activity and immunoreactivity, we calculated that the inactive component represents about 30% of the total AcChoEase subunits in chicken brain. The immunoreactive AcChoEase protein sedimented in sucrose gradients like the active molecular forms; the G1 and G2 peaks contained inactive molecules, whereas the G4 peak appeared to contain only active AcChoEase. The bulk of inactive AcChoEase reacted with the organophosphate cholinesterase inhibitor O-ethyl S-[2-(diisopropylamino)ethyl]methylphosphonothioate (MTP) but was found to bind the active site affinity ligand N-methylacridinium poorly and was not recognized by the active-form-specific monoclonal antibody, C-131. In addition, most of this fraction is sensitive to endoglycosidase H and binds the lectin wheat germ agglutinin poorly, suggesting that it was not processed in the Golgi apparatus. From these observations, we propose that the active and inactive AcChoEase components are differently folded.
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PMID:Existence of an inactive pool of acetylcholinesterase in chicken brain. 846 Jan 61

We have established an enzyme-linked immunosorbent assay (ELISA) for total serum cholinesterase (ChE) using 2 new monoclonal antibodies (mAbs) to ChE (E.C.3.1.1.8). The ELISA results correlated very well with the results of a serum ChE activity assay, which has been widely used for differentiating patients with liver diseases, such as hepatocellular carcinoma, liver cirrhosis and chronic hepatitis, from normal individuals. We next established an ELISA for Aleuria aurantia lectin (AAL)-reactive serum ChE using one of the anti-ChE mAbs and AAL, which specifically recognizes L-fucose alpha 1-->2, L-fucose alpha 1-->3, and L-fucose alpha 1-->6 structures. The ratio of AAL-reactive ChE to total ChE in sera determined by the two ELISA procedures was increased in patients with hepatocellular carcinoma and liver cirrhosis compared with patients with chronic hepatitis and normal individuals. We then applied the ELISA for AAL-reactive ChE directly to 10-fold-diluted serum samples, and by using a cut-off value of the mean + 2S.D. for normal individuals, we could effectively differentiate liver cirrhosis from chronic hepatitis. This single ELISA for AAL-reactive ChE could be a useful aid in clinical diagnosis.
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PMID:Enzyme-linked immunosorbent assay (ELISA) for Aleuria aurantia lectin-reactive serum cholinesterase to differentiate liver cirrhosis and chronic hepatitis. 874 9

We have previously reported that Aleuria aurantia lectin (AAL)-reactive serum cholinesterase (ChE) activity increases in liver cirrhosis (LC) and hepatocellular carcinoma (HCC) compared with chronic hepatitis (CH) and normal controls (NC), and measurement of AAL-reactive ChE activity is useful in discriminating LC from CH. In the present study, we have demonstrated that the measurement of the ratio of AAL-reactive ChE to immuno-reactive ChE protein (AAL/ChE) is superior to the measurement of only AAL-reactive ChE for differentiating LC from CH. At a cut-off value of 4.0 arbitrary units of AAL/ChE, the diagnostic accuracy was 87.7%. This diagnostic accuracy is similar to that of serum hyaluronan, 88.8%. We also examined whether the AAL/ChE measurement is useful for differentiating Child's stage A LC from chronic active hepatitis (CAH) 2B. When mean + 2SD of AAL/ChE in patients with CAH2B was used as a cut-off value for the specific diagnosis of LC, the diagnostic accuracy was 70.2%. These results demonstrate that measurement of AAL/ChE is useful for discriminating LC from CH.
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PMID:Discrimination of liver cirrhosis from chronic hepatitis by measuring the ratio of Aleuria aurantia lectin-reactive serum cholinesterase to immunoreactive protein. 1021 25

Increasing evidence supports the involvement of cholinesterases in tumorigenesis. Several tumour cells show ChE activity, while the acetyl- (AChE) and butyrylcholinesterase (BuChE) genes are amplified in leukemias, ovarian carcinoma and other cancers. ChE activity was measured in 31 samples of tumoral breast (TB) and 20 of normal breast (NB). Despite the wide variations observed, BuChE predominated over AChE both in TB and NB. The mean AChE activity in NB was 1.61 nmol of the substrate hydrolysed per minute and per miligram protein (mU/mg), which rose to 3.09 mU/mg in TB (p = 0.041). The BuChE activity dropped from 5.24 mU/mg in NB to 3.39 mU/mg in TB (p = 0.002). Glycolipid-linked AChE dimers and monomers and hydrophilic BuChE tetramers and monomers were identified in NB and TB, and their proportions were unmodified by the neoplasia. The amount of AChE forms reacting with wheat germ agglutinin (WGA) decreased in TB while that of BuChE species was unaffected, demonstrating that the glycosylation of AChE was altered in TB. The binding of AChE and BuChE with antibodies was unaffected by the neoplasia. The difference in lectin reactivity between erythrocyte and breast AChE, the lack of AChE in blood plasma, and the finding of monomeric BuChE in breast but not in plasma suggest that breast epithelial cells produce AChE for membrane attachment and hydrophilic BuChE for secretion. Several reasons are provided to explain the altered expression of ChEs in breast cancer.
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PMID:Cholinesterase activity and acetylcholinesterase glycosylation are altered in human breast cancer. 1200 Feb 17

Glycosylphosphatidylinositol (GPI)-anchored proteins are ubiquitous in eukaryotes. The minimum conserved GPI core structure of all GPI-anchored glycans has been determined as EtN-PO4-6Manalpha1-2Manalpha1-6Manalpha1-4GlcN-myo-inositol-PO3H. Human placental alkaline phosphatase (AP) has been reported to be a GPI-anchored membrane protein. AP carries one N-glycan, (NeuAcalpha2-->3)2Gal2GlcNAc2Man3GlcNAc(+/-Fuc)GlcNAc, and a GPI anchor, which contains an ethanolamine phosphate diester group, as a side chain. However, we found that both sialidase-treated soluble AP (sAP) and its GPI-anchored glycan bound to a Psathyrella velutina lectin (PVL)-Sepharose column, which binds beta-GlcNAc residues. PVL binding of asialo-sAP and its GPI-anchored glycan was diminished by digestion with diplococcal beta-N-acetylhexosaminidase or by mild acid treatment. After sequential digestion of asialo-sAP with beta-N-acetylhexosaminidase and acid phosphatase, the elution patterns on chromatofocusing gels were changed in accordance with the negative charges of phosphate residues. Trypsin-digested sAP was analyzed by liquid chromatography/electrospray ionization mass spectrometry, and the structures of two glycopeptides with GPI-anchored glycans were confirmed as peptide-EtN-PO4-6Manalpha1-->2(GlcNAcbeta1-PO4-->6)Manalpha1-6(+/-EtN-PO4-->)Manalpha1-->4GlcN, which may be produced by endo-alpha-glucosaminidase. In addition to AP, GPI-anchored carcinoembryonic antigen, cholinesterase, and Tamm-Horsfall glycoprotein also bound to a PVL-Sepharose column, suggesting that the beta-N-acetylglucosaminyl phosphate diester residue is widely distributed in human GPI-anchored glycans. Furthermore, we found that the beta-N-acetylglucosaminyl phosphate diester residue is important for GPI anchor recognition of aerolysin, a channel-forming toxin derived from Aeromonas hydrophila.
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PMID:A beta-N-acetylglucosaminyl phosphate diester residue is attached to the glycosylphosphatidylinositol anchor of human placental alkaline phosphatase: a target of the channel-forming toxin aerolysin. 1285 98

Because of the probable involvement of cholinesterases (ChEs) in tumorigenesis, this research was addressed to ascertaining whether breast cancer metastasis alters the content of acetylcholinesterase (AChE) and/or butyrylcholinesterase (BuChE) in axillary lymph nodes (LN). ChE activity was assayed in nine normal (NLN) and seven metastasis-bearing nodes (MLN) from women. AChE and BuChE forms were characterised by sedimentation analyses, hydrophobic chromatography and western blotting. The origin of ChEs in LN was studied by lectin interaction. AChE activity dropped from 21.6 mU/mg (nmol of the substrate hydrolysed per minute and per milligram protein) in NLN to 3.8 mU/mg in MLN (p < 0.001), while BuChE activity (3.6 mU/mg) was little affected. NLN contained globular amphiphilic AChE dimers (G2A, 35%), monomers (G1A, 30%), hydrophilic tetramers (G4H, 8%), and asymmetric species (A4, 23%, and A8, 4%); MLN displayed only G2A (65%) and G1A (35%) AChE forms. NLN and MLN contained G4H (79%), G4A (7%), and G1H (14%) BuChE components. Neither the binding of ChE forms with lectins and antibodies nor the subunit size were altered by metastasis. The higher level of AChE in NLN than in brain and the specific pattern of AChE forms in NLN support its role in immunity. The different profile of AChE forms in NLN and MLN may be useful for diagnosis.
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PMID:Breast cancer metastasis alters acetylcholinesterase activity and the composition of enzyme forms in axillary lymph nodes. 1288 4

The presence of acetylcholinesterase (AChE) mRNA and activity in the tissues and cells involved in immune responses prompted us to investigate the level and pattern of AChE components in spleen. AChE activity was higher in mouse spleen (0.46 +/- 0.13 micromol of acetylthiocholine split per hour and per mg protein) than in muscle or heart, but lower than in brain. The spleen was essentially free of butyrylcholinesterase (BuChE) activity. About 40% of spleen AChE was extracted with a saline buffer, and a further 40% with 1% Triton X-100. Sedimentation analyses, the splitting of subunits in AChE dimers, phosphatidylinositol-specific phospholipase C (PIPLC) exposure, and phenyl-agarose chromatography showed that hydrophilic (G1H, 43%) and amphiphilic AChE monomers (G1A, 36%), as well as amphiphilic dimers (G2A, 21%), occurred in spleen. All these molecules bound to fasciculin-2-Sepharose, although the extent of binding was higher for G1H (77%) than for G1A (63%) or G2A (48%) forms. Differences in the extent to which wheat germ lectin (WGA) adsorbed with AChE of mouse spleen and of erythrocyte allowed us to discard the blood origin of spleen AChE activity. A 62 kDa protein was labeled in spleen samples using antibodies against human AChE. The protein was attributed to AChE monomers since its size was the same, regardless of whether disulfide bonds were reduced or not. Since cholinergic stimulation modulates proliferation/maturation of lymphoid cells, AChE may be important for regulating the level of acetylcholine (ACh) in the neighborhood of cholinergic receptors (AChR) in spleen and other lymphoid tissues.
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PMID:Molecular properties of acetylcholinesterase in mouse spleen. 1508 30

Classical studies of cholinesterase activity during liver dysfunction have focused on butyrylcholinesterase (BuChE), whereas acetylcholinesterase (AChE) has not received much attention. In the current study, liver and plasma AChE levels were investigated in rats with cirrhosis induced after 3 weeks of bile duct ligation (BDL). BDL rats showed a pronounced decrease in liver AChE levels (approximately 50%) compared with sham-operated (non-ligated, NL) controls; whereas liver BuChE appeared unaffected. A selective loss of tetrameric (G4) AChE was detected in BDL rats, an effect also observed in rats with carbon tetrachloride-induced cirrhosis. In accordance, SDS-PAGE analysis showed that the major 55-kd immunoreactive AChE band was decreased in BDL as compared with NL. A 65-kd band, attributed in part to inactive AChE, was increased as became the most abundant AChE subunit in BDL liver. The overall decrease in AChE activity in BDL liver was not accompanied by a reduction of AChE transcripts. The loss of G4 was also reflected by changes observed in AChE glycosylation pattern attributable to different liver AChE forms being differentially glycosylated. BDL affects AChE levels in both hepatocytes and Kupffer cells; however, altered AChE expression was mainly reflected in an alteration in hepatocyte AChE pattern. Plasma from BDL rats had approximately 45% lower AChE activity than controls, displaying decreased G4 levels and altered lectin-binding patterns. In conclusion, the liver is an important source of serum AChE; altered AChE levels may be a useful biomarker for liver cirrhosis.
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PMID:Changes in liver and plasma acetylcholinesterase in rats with cirrhosis induced by bile duct ligation. 1649 49

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