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)

Eight liver biopsy specimens from five patients with PAS-negative intracisternal hyalin were investigated by immunofluorescence for: (1) immunoglobulins (Ig) G, A, M, D, E; (2) light chains (kappa and lambda); (3) complement components C1q, C4, C3c, C5, C9; (4) C1-inactivator; (5) C3-activator; (6) alpha 1-antitrypsin; (7) alpha 1-antichymotrypsin; (8) plasminogen; (9) fibrinogen; (10) fibrinogen breakdown products D and E; (11) fibronectin; (12) prealbumin; (13) albumin; (14) betalipoprotein; (15) apolipoprotein; (16) alpha 1- and alpha 2-glycoprotein; (17) cholinesterase; (18) ceruloplasmin; (19) haemopexin; (20) myoglobin; (21) placenta lactogen; (22) transferrin; (23) actin; (24) myosin; (25) cathepsin D; and (26) hepatitis B surface and core antigens (HBsAg and HBcAg). The globules reacted significantly with antisera against C3c (three patients), C4 (three patients), C3-activator (one patient) and fibrinogen (two patients). The cause of the protein accumulation is not clear. Serial studies indicate the possibility of a disturbance of protein secretion and an as yet unidentified immune complex disorder.
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PMID:Immunohistological investigations of PAS-negative globular intracisternal hyalin in human liver biopsy specimens. 285 88

The acetylcholinesterase activity of the fruit fly, Drosophila melanogaster, was characterized biochemically. The activity is associated with a glycoprotein which is divided between a detergent-extractable membrane-bound fraction and a soluble fraction. The acetylcholinesterase activity is concentrated in the head of the insect. Through pharmacological methods, greater than 95% of the cholinesterase is judged to be true acetylcholinesterase, and not pseudocholinesterase. As expected for an acetylcholinesterase, the enzyme has a high affinity for acetylthiocholine and is inhibited by excess concentrations of acetylthiocholine. The soluble enzyme is found predominantly as a 7.8 S form; a smaller amount of an approximately 6 S form is also present, and a greater than or equal to 14 S form may exist. The detergent-solubilized acetylcholinesterase has a sedimentation coefficient of 7.5 S in the presence of detergent. The thermal inactivation rates for the soluble and the membrane bound enzymes are markedly different.
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PMID:Characterization of acetylcholinesterase activity from Drosophila melanogaster. 286 Oct 64

To obtain information about the evolution of acetylcholinesterase (AChE), we undertook a study of the enzyme from the skeletal muscle of the lamprey Petromyzon marinus, a primitive vertebrate. We found that the cholinesterase activity of lamprey muscle is due to AChE, not pseudocholinesterase; the enzyme was inhibited by 1,5-bis(4-allyldimethylammonium phenyl) pentane-3-one (BW284C51), but not by tetramonoisopropyl pyrophosphortetramide (iso-OMPA) or ethopropazine. Also, the enzyme had a high affinity for acetylthiocholine and was inhibited by high concentrations of substrate. A large fraction of the AChE was found to be glycoprotein, since it was precipitated by concanavalin A-agarose. Optimal extraction of AChE was obtained in a high-salt detergent-containing buffer; fractional amounts of enzyme were extracted in buffers lacking salt and/or detergent. These data suggest that globular and asymmetric forms of AChE are present. On sucrose gradients, enzyme that was extracted in high-salt detergent-containing buffer sedimented as a broad peak of activity corresponding to G4; additionally, there was usually a peak corresponding to A12. Sequential extraction of AChE in conjunction with velocity sedimentation resolved minor forms of AChE and revealed that the G1, G2, G4, A4, A8, and A12 forms of AChE could be obtained from the muscle. The identity of the forms was confirmed through high-salt precipitation and collagenase digestion. The asymmetric forms of AChE were precipitated in low ionic strength buffer, and their sedimentation coefficients were shifted to higher values by collagenase digestion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acetylcholinesterase from the skeletal muscle of the lamprey Petromyzon marinus exists in globular and asymmetric forms. 288 57

A major glycoprotein of rat hepatoma plasma membranes was selectively released as a soluble form by incubating the membrane with phosphatidylinositol-specific phospholipase C. The soluble form corresponding to the glycoprotein was also prepared by butan-1-ol extraction of microsomal membranes at pH 5.5, whereas extraction at pH 8.5 yielded an electrophoretically different form with a hydrophobic nature. The soluble glycoprotein extracted at pH 5.5 was purified by sequential chromatography on concanavalin A-Sepharose, Sephacryl S-300 and anti-(alkaline phosphatase) IgG-Sepharose, the last step being used to remove a contaminating alkaline phosphatase. The glycoprotein thus purified was a single protein with Mr 130,000 in SDS/polyacrylamide-gel electrophoresis, although it behaved as a dimer in gel filtration on Sephacryl S-300. The glycoprotein was analysed for amino acid and carbohydrate composition. The composition of the carbohydrate moiety, which amounted to 64% by weight, suggested that the glycoprotein contained much larger numbers of N-linked oligosaccharide chains than those with O-linkage. It was confirmed that the purified glycoprotein was immunologically identical not only with that released by the phospholipase C but also with the hydrophobic form extracted with butan-1-ol at pH 8.5. The results indicate that the glycoprotein of rat hepatoma plasma membranes, which has an unusually high content of carbohydrate, is another membrane protein released by phosphatidylinositol-specific phospholipase C, as documented for alkaline phosphatase, acetylcholinesterase and Thy-1 antigen.
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PMID:Purification and characterization of a major glycoprotein in rat hepatoma plasma membranes. One of the membrane proteins released by phosphatidylinositol-specific phospholipase C. 303 62

A fluorescence assay for the quantitation of acetylcholinesterase (AchE) has been adapted for measurement of megakaryocytic maturation in short-term serum-free cultures of murine marrow. When marrow cells were cultured for 3 days in the presence of pokeweed mitogen-stimulated spleen cell conditioned medium (PWM-SCM) under serum-free conditions, AchE production was found to be related to the concentration of PWM-SCM. Interleukin 3 (IL3), a purified glycoprotein promoting the proliferation of several early hematopoietic progenitors including megakaryocytic colony-forming cells, also induced AchE production in a dose-responsive manner. The response to IL3 was linearly related to the number of cells cultured. When marrow was first subjected to plastic adherence and the nonadherent cells then separated on Percoll gradients, a small megakaryocyte-enriched population markedly depleted of colony-forming cells and large megakaryocytes, responded to IL3 in a similar dose-responsive manner. A significant amount of AchE was produced in the absence of any added factors. The data show that AchE production can be measured in 3-day serum-free cultures, and suggest that IL3, a factor promoting megakaryocytic proliferation in vitro, also promotes maturation.
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PMID:Interleukin 3 promotes maturation of murine megakaryocytes in vitro. 309 Nov 16

The Cl content of isolated tracheal submucosal gland cells was studied using 36Cl as a tracer. 36Cl uptake reached a steady state within 10 min, yielding an estimate of intracellular Cl concentration of approximately 40 mM. Intracellular Cl fell rapidly when ouabain or furosemide was added, indicating that isolated tracheal submucosal gland cells concentrate Cl above its electrochemical equilibrium concentration. Acetylcholine (ACh) caused a Ca2+-dependent decline in cell Cl, with an effective concentration for a 50% response (EC50) of 62 nM; this loss of cell Cl was blocked by atropine or pirenzepine. The EC50 was 6 nM in cells when 95% of the acetylcholinesterase activity was abolished by diisopropylfluorophosphate (DFP) treatment. ACh continued to cause a decline in cell Cl even after a 7-day course of DFP treatment, which has been shown to abolish ACh-stimulated mucous glycoprotein secretion (23). After the 7-day course of DFP treatment, the EC50 for ACh increased to 77 nM. Thus the Cl economy of the tracheal submucosal gland cell resembles that of cells in epithelia that secrete fluid; in addition, the transmitter-dependent loss of cell Cl is under long-term metabolic control of the cell.
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PMID:Acetylcholine-stimulated chloride flux in tracheal submucosal gland cells. 314 66

Dissociated cerebral hemisphere cells from 4- to 7-day-old chick embryos were cultured either on a collagen or a polylysine substrate in a serum-containing medium. Neurons were characterized by the demonstration of acetylcholinesterase, the presence of D2/N-CAM glycoprotein and neurofilament proteins. The proliferation of neuronal precursor cells was shown by morphological observations, autoradiographic analysis and measurements of [3H]-thymidine incorporation. Neuronal precursors derived from the 6-day-old embryos showed the highest proliferative activity. Neuroblast proliferation was found to be dependent on the culture substrates (i.e. polylysine or collagen), which yielded either isolated cells or cell aggregates, and the latter favored the mitogenic effect.
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PMID:Comparison of the proliferative activity of neuroblasts from chick embryo cerebral hemispheres of different ages in culture. 314 57

A large Hutterite kindred was examined for possible linkage between the chromosome 3 markers; cholinesterase (CHE1), transferrin (TF), and alpha-2HS glycoprotein (AHSG). Linkage between TF and AHSG was suggested in males (z = 1.515, theta = 0.08) and between CHE1 and TF(z = 0.661, theta = 0.21). However, linkage between CHE1 and AHSG in males was not established. Based on lods and a nuclear family informative for all three loci a possible chromosomal alignment for the loci is presented.
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PMID:The sequence of chromosome 3 loci AHSG:TF:CHE1. 355 58

Acetylcholine receptors (AChRs) are packed in the postsynaptic membrane at neuromuscular junctions at a density of approximately 20,000/micron 2, whereas the density a few micrometers away is less than 20/micron 2. To understand how this remarkable distribution comes about during nerve-muscle synapse formation, we have attempted to isolate factors from neural tissue that can promote the accumulation of AChRs and/or alter their distribution. In this paper we report the purification of a polypeptide from chick brains that can increase the rate of insertion of AChR into membranes of cultured chick myotubes at a concentration of less than 0.5 ng/ml. Based on SDS PAGE and the action of neuraminidase, the acetylcholine receptor-inducing activity (ARIA) appears to be a 42,000-D glycoprotein. ARIA was extracted in a trifluoroacetic acid-containing cocktail and purified to homogeneity by reverse-phase, ion exchange, and size exclusion high pressure liquid chromatography. Dose response curves indicate that the activity has been purified 60,000-fold compared with the starting acid extract and approximately 1,500,000-fold compared with a saline extract prepared from the same batch of brains. Although the ARIA was purified on the basis of its ability to increase receptor incorporation, we found that it increased the number and size of receptor clusters as well. It is not yet clear if the two effects are independent. The 42-kD ARIA is extremely stable: it was not destroyed by exposure to intact myotubes, low pH, organic solvents, or SDS. Its action appears to be selective in that the increase in the rate of receptor insertion was not accompanied by an increase in the rate of protein synthesis. Moreover, there was no change in cellular, surface membrane, or secreted acetylcholinesterase. The effect of ARIA is apparently independent of the state of activity of the target myotubes as its effect on receptor incorporation added to that of maximal concentrations of tetrodotoxin.
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PMID:Purification and characterization of a polypeptide from chick brain that promotes the accumulation of acetylcholine receptors in chick myotubes. 373 76

Muscle membranes were partially purified from rat leg muscles. Externally oriented membrane functions were used to monitor and characterize the resulting membrane fractions. Na(+)K(+)-stimulated Mg(++)-adenosinetriphosphatase, acetylcholinesterase, and cholinergic receptor activities are present and enriched in the density-gradient subfractions of crude sarcolemma when compared with the first pellet. The physical separation of the cholinesterase and receptor activities on the gradient subfractions is demonstrated. Receptor activity, determined by specific (125)I-labeled alpha-bungarotoxin binding, appears in fractions with densities similar to other plasma membranes (D(4) (20) 1.1015-1.1520). Acetylcholinesterase, on the other hand, is preferentially distributed in lighter density fractions (D(4) (20) 1.0507-1.0780) and parallels the gradient distribution of the ATPase. In sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a high-molecular-weight glycoprotein sediments with the higher density fractions only. The data suggest a molecular dissection of the layers of the sarcolemma. The receptor is tentatively felt to be an integral component of the junctional plasma membrane. Acetylcholinesterase is felt to be superficially located on the ectolamina of the junctional sarcolemma, and may be woven within the matrix of the intersynaptic basement membrane.
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PMID:In vitro analysis of the general properties and junctional receptor characteristics of skeletal muscle membranes. Isolation, purification, and partial characterization of sarcolemmal fragments. 427 96


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