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)

The organophosphate cholinesterase inhibitor paraoxon produces a dose-dependent necrosis in rat skeletal muscle fibers after a single administration. The pathology, which is initiated at the motor end-plate region, is evident as early as 30 minutes after paraoxon administration and is characterized by dilated mitochondria, expanded sarcoplasmic reticulum, fused and widened subsynaptic folds, and coated cleft vesicles. By 24 hours, a generalized breakdown of muscle fiber architecture is evident with an accompanying infiltration of phagocytes. Electrophysiological studies have shown that paraoxon increases neurotransmitter release and causes spontaneous and impulse-related antidromic nerve activity, both of which can be reduced significantly by reactivation of inhibited acetylcholinesterase (AChE) with pyridine-2-aldoxime methiodide. The severity of the myopathy has been found to be positively correlated to the degree and duration of AChE inhibition. It appears that 2 hours of inhibition, with a critical loss in activity, viz., 85%, is necessary to initiate severe muscle fiber necrosis. Prior nerve transection prevents myopathic development and current data support the hypothesis that the induction of skeletal muscle fiber necrosis is triggered by inhibition of a neurally regulated fraction of AChE.
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PMID:Neuromuscular dysfunction induced by acetylcholinesterase inhibition. 21 51

Newly fused chick myotubes undergo simultaneous and rapid changes in cell membrane properties during synchronous differentiation in culture. These changes are coordinately regulated and include increases in acetylcholine receptor, acetylcholinesterase, and resting potential, as well as the appearance of action potentials in discrete membrane areas upon stimulation. Subsequently, the acetylcholine receptor reaches maximal levels, whereas the development of electrical properties is marked by a further increase in resting potential, changes in the characteristics of the elicited action potential, and the recruitment of additional membrane areas for action potential generation. Maturation of electrical excitability, marked by the acquisition of the ability to fire repetitively and to conduct action potentials along the membrane, occurs well after resting potential has reached a maximum. During post-maturational development, myotubes exhibit spontaneous electrical and contractile activity, and levels of acetylcholine receptor accessible to externally applied 125I-labeled alpha-bungarotoxin decrease markedly. It is suggested that electrophysiological membrane maturation is autonomously regulated with no requirement for neuronal intervention and involves the coordinated biosynthesis of discrete membrane components and their subsequent organization in the myotube membrane.
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PMID:Development of electrophysiological and biochemical membrane properties during differentiation of embryonic skeletal muscle in culture. 27 Jul 55

During differentiation of embryonic chick skeletal muscle in culture, elaboration of acetylcholine receptor (AChR) and acetylcholinesterase occurs shortly after myoblast fusion. During further development, AChR was found to decrease markedly on the myotube surface, while acetylcholinesterase continued to increase. Surface distribution of AChR, as followed by autoradiography using 125I-alpha-bungarotoxin, was homogeneous in newly fused myotubes. With further differentiation, clusters of AChR appeared on the surface of the myotubes, and their subsequent disappearance paralleled a decrease in overall AChR levels. Quantitative autoradiography showed a reduction of over 75% in the density of AChR on the surface of well differentiated, cross-striated myotubes. Thus the appearance of AChR on the cell surface, its condensation into clusters, and finally its depletion seem to be sequential events in the differentiation of skeletal muscle in culture in the absence of direct neuronal influence.
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PMID:Appearance and disappearance of acetycholine receptor during differentiation of chick skeletal muscle in vitro. 95 86

Muscle regeneration was studied by light and electron microscopy in soleus muscles of rat. After segmental crushing the number of fibres increased in some muscles within 30 days, indicating that numerical hyperplasia can take place. Locally applied Ringer solution of 60-70 degrees C caused necrosis of myofibres but left satellite cells and blood supply largely intact. Following phagocytosis, four mechanisms of regeneration were seen. (1) Lost fibres were replaced by clusters of myotubes formed by satellite cells within persisting basal lamina tubes. These clusters displaced the surrounding endomysium and looked like longitudinally 'split' fibres. (2) Viable fibre fragments fused with satellite cells. (3) Satellite cells of surviving fibres proliferated and fused to myotubes localized beneath the basal lamina. (4) Thin new fibres occurred in the interstitium. Their origin remained unknown. After 6 months the mean size of the new myofibres was normal, but the scatter of diameters was increased, central nuclei, fibre 'spliting' and branching, and fibrosis were prominent. Staining for acetylcholinesterase revealed that many fibres were short and not innervated. The similarity with dystrophic muscles in man suggested, that the most prominent histological changes in myopathic muscles may be due to attempts of regeneration.
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PMID:The morphology of regeneration of skeletal muscles in the rat. 102 21

The techniques of somatic cell hybridization allow a genetic analysis of differentiated functions of mammalian cells in vitro. Clonal lines of mouse neuroblastoma cells expressing a variety of differentiated neuroectodermal functions have been fused to L cells not expressing these functions. The resulting NL hybirds, on a clonal basis, express a variety of parental and non-parental phenotypes. Some hybrid clones inherit the ability to synthesize the neurotransmitter acetylcholine (Ach) (expression of high levels of choline acetyltransferase, CAT) while others do not. The ability to synthesize Ach and the ability to degrade this neurotransmitter (high levels of acetylcholinesterase activity, AChE) appear to segregate independently in NL hybrid progeny.--When a a variety of clonal cell lines replicating in culture are fused to cells freshly derived from the embryonic nervous system, interesting phenotypes result in the hybrid progeny. Neuroblastoma x rodent nervous tissue hybrids express AChE and in a few instances have developed the ability to synthesize CAT. Transformed human fibroblasts fused to normal rodent nervous tissue yield hybrid progeny that retain human and segregate mouse chromosomes and isozymes. No expression of differentiated functions has yet been found in these latter hybrids but they are useful for mapping mouse genes.
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PMID:Expression of phenotypes in hybrid somatic cells derived from the nervous system. 115 88

The construction of four vectors for high-level expression in Escherichia coli of the phosphatidylinositol-specific phospholipase C from Bacillus cereus or Bacillus thuringiensis is described. In all constructs the coding sequence for the mature phospholipase is precisely fused to the E. coli heat-stable enterotoxin II signal sequence for targeting of the protein to the periplasm. In one set of plasmids expression of the B. cereus or B. thuringiensis enzyme is under control of the E. coli alkaline phosphatase promoter, while in a second set of plasmids expression is under control of a lac-tac-tac triple tandem promoter. A simple and rapid procedure for complete purification of the phospholipase C overproduced in E. coli, involving isolation of the periplasmic proteins by osmotic shock followed by a single column chromatography step, is described. The largest quantity of purified enzyme, 40-60 mg per liter culture, is obtained with the plasmid expressing the B. cereus enzyme under control of the lac-tac-tac promoter. Lower quantities are obtained with the plasmids containing the alkaline phosphatase promoter (15-20 and 4-6 mg/liter for the B. cereus and B. thuringiensis enzymes, respectively) and with the plasmid expressing the B. thuringiensis phospholipase under control of the lac-tac-tac promoter (15-20 mg/liter). A comparison of the functional properties of the recombinant phospholipases with the native enzymes isolated from B. cereus or B. thuringiensis culture supernatant shows that they are identical with respect to their catalytic functions, viz., cleavage of phosphatidylinositol and cleavage of the glycosyl-phosphatidylinositol membrane anchor of bovine erythrocyte acetylcholinesterase.
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PMID:High-level expression in Escherichia coli and rapid purification of phosphatidylinositol-specific phospholipase C from Bacillus cereus and Bacillus thuringiensis. 166 69

The intraocular projection of the cat pterygopalatine (sphenopalatine) ganglion was examined by using retrograde axoplasmic transport techniques in order to investigate the possibility of the involvement of the facial nerve in ocular parasympathetic innervation. Following an injection of horseradish peroxidase (HRP) or wheat germ agglutinin-HRP into the eye, retrogradely labeled cells were observed in the ipsilateral pterygopalatine ganglion, principally in the caudal part. By dissection of silver-impregnated, acetylcholinesterase- and cholinesterase-stained orbital preparations, it was determined that two different nerve pathways link the pterygopalatine ganglion and the eye. One took a retrograde course to join the retro-orbital plexus and then traveled forward accompanying the ciliary artery, the long ciliary nerve, the short ciliary nerve, and/or the optic nerve sheath. The other entered the orbit directly, fused with the ethmoidal nerve or the infratrochlear nerve in a retrograde fashion, and then turned forward along the long ciliary nerve to enter the eye. All these nerves arose from the caudal part of the ganglion. These results are discussed in relation to recent biochemical and histochemical data demonstrating the involvement of the facial nerve in the control of ocular blood flow and intraocular pressure.
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PMID:Intraocular projections from the pterygopalatine ganglion in the cat. 170 52

We have isolated genetic variants of the C2 muscle cell line that are defective in expressing the acetylcholine receptor (AcChoR). Because the AcChoR is expressed only after C2 myoblasts have fused to form myotubes, we employed a replica technique to detect the variants. This technique yields two copies of each clone, one of which can be used for screening and the other, as a source of dividing cells. In a screening of about 10,000 clones derived from mutagenized cells, we found 2 that fused normally and expressed normal levels of acetylcholinesterase but had reduced amounts of AcChoR on their surface. One of these also had a reduced level of intracellular AcChoR, but, in the other, the amount of intracellular AcChoR was 5-fold higher than normal. Several variants were found that failed to fuse and had reduced levels of both AcChoR and acetylcholinesterase. Though we relied on 125I-labeled alpha-bungarotoxin to distinguish wild-type from deficient clones, we found that an antiserum to the AcChoR, followed by a biotinylated second antibody and a horseradish peroxidase-avidin complex, could also be used. Therefore, it should be possible to obtain muscle cell variants defective in the expression of a variety of proteins for which specific antibodies are available.
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PMID:Use of a replica technique to isolate muscle cell lines defective in expressing the acetylcholine receptor. 385 34

Differentiation of embryonic rat and chick myoblasts was investigated using a tridimensional support made of positively charged, uncoated DEAE-cellulose microcarriers (MC). Following rapid cell attachment, the MC interconnected to form large cell-MC conglomerates which remained floating in the nutrient medium. Cells within the conglomerates fused to form myotubes which synthesized muscle-specific proteins such as: creatine kinase, acetylcholinesterase, acetylcholine receptors, and contracted in response to electrical stimulation. Myotubes, at different stages of differentiation, showed characteristic morphology (as observed by transmission and scanning electron-microscopies). Upon addition of dissociated spinal cord cells to these muscle-MC cultures, intensive sprouting of nerve fibres took place. After a few days an extensive network of nerve fibres was formed on the top of muscle myotubes and nerve-muscle contacts were established.
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PMID:Differentiation of myoblasts with nerve cells on microcarriers in culture. 389 88

Butyrylcholinesterase purified from human plasma and acetylcholinesterase purified from human red blood cells were used to immunize separate groups of BALB/c mice. A solid-phase immunoadsorbance assay was developed to screen and characterize antibodies specific for the cholinesterases. Immunized spleen cells were fused with a non-immunoglobulin-secreting myeloma cell line (FO). After two subcultures at limiting dilution, several clones secreting antibodies to acetylcholinesterase or butyrylcholinesterase were obtained. Selected clones were expanded as ascites tumors in immunosuppressed BALB/c mice. All tested immunoglobulins consisted of kappa light chains and either G1 or G2b heavy chains. Two-dimensional gel electrophoresis confirmed the monoclonal nature of each isolated antibody. None of the antibodies to acetylcholinesterase cross-reacted with butyrylcholinesterase, and vice versa. All tested antibodies exhibited high avidity for human enzyme, independent of the tissue source (apparent dissociation constants: 1-3 nM for acetylcholinesterase antibodies; 2-13 nM for butyrylcholinesterase antibodies). Treatment of enzymes with monoclonal antibodies increased the sedimentation coefficients (from 6.5 S to 12 S for acetylcholinesterase, from 11 S to 18 S or 20 S for butyrylcholinesterase). All of the monoclonal antibodies displayed marked species specificity. Several antibodies reacted only with human enzyme; others reacted with enzyme from nonhuman primates as well. A few of the butyrylcholinesterase antibodies cross-reacted weakly with enzyme from dog, cat, and horse, but none reacted with the enzyme from rat, guinea pig, and chicken. One acetylcholinesterase antibody cross-reacted with acetylcholinesterase of rabbit and guinea pig. The avidity, species selectivity, and other properties of these antibody reagents will be useful in future studies on the regulation and disposition of cholinesterases.
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PMID:Production and characterization of separate monoclonal antibodies to human acetylcholinesterase and butyrylcholinesterase. 619 17


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