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)

In order to define metabolic profiles of smooth muscle cell (SMC) modulation, 16 enzyme activities linked to nucleotide hydrolysis, lipolysis, lysosomal reactivity and intermediate glucose catabolism were compared in four rat arterial models, exhibiting four metabolic phenotypes of modulated smooth muscle cells: (i) "primary synthetic" statein immature aorta; (ii) "contractile" state in adult aorta; (iii) "hypertensive" state in aorta of hypertensive rat, SHR; (iiii) "secondary synthetic" state in diffuse intimal thickening of ligated carotid artery. Contractile SMC presented strong activities of enzymes linked to nucleotide ester hydrolysis and contractility (ATP-A-Ca, ATP-A-Mg, ATP-A-Ca/Mg, 5'nucleotidase) and to lipolytic process (butyryl cholinesterase, acid esterase). These enzyme activities were more pronounced in "hypertensive SMC". Incontrast, the same enzymes were weakly active or not expressed in "synthetic SMC". Increased lysosomal enzyme reactivity was a particular expression of "secondary synthetic SMC". The observed enzyme abnormalities in reactively modulated SMC (proliferative-synthetic phenotype) might be related to the loss of contractility and to the enhanced cell proliferation and lipid accumulation, characteristic features of modulated SMC in atherogenesis.
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PMID:Enzyme histochemical expressions of smooth muscle cell modulation in arterial development, hypertension and remodeling. 193 22

It is demonstrated by experiments with rabbits that the Ca2+-ATP-ase activity is stabilized when using combined anesthetics (diacetylcholine + halothane + N2O) as distinct from application of halothane. A decrease in the cholinesterase activity is less pronounced than under the halothane action but more than with the diacetylcholine application. A decrease in the Na+, K+-ATP-ase activity is observed with all types of anesthesia. A considerable inhibition of creatine kinase under the action of combined anesthesia and halothane and an increase of the lactate dehydrogenase activity under diacetylcholine application in mitochondria are shown. Reliable differences in the succinic dehydrogenase activity are not detected.
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PMID:[Effect of combined anesthetics on the activity of various myocardium enzymes]. 303 46

1. Nicotine produced a transient contraction of isolated strips of guinea-pig urinary bladder. The response to nicotine was antagonized by the nicotinic receptor antagonist, hexamethonium but was insensitive to tetrodotoxin. 2. The nicotine-induced contraction was potentiated by the cholinesterase inhibitor, physostigmine, and was reduced to 50% and 70% by the muscarinic cholinoceptor antagonist, atropine and the sympathetic neurone blocking drug, guanethidine, respectively. Chemical denervation with 6-hydroxydopamine abolished the inhibitory effect of guanethidine. Simultaneous treatment with atropine and guanethidine did not abolish the response to nicotine, but the degree of inhibition was comparable to that obtained with atropine alone. 3. The nicotine-induced contraction was insensitive to bunazosin and yohimbine (alpha 1- and alpha 2-adrenoceptor antagonists, respectively), and exogenously applied noradrenaline did not cause a contraction even in the presence of blockade of noradrenaline uptake mechanisms with desipramine and normetanephrine and of beta-adrenoceptors with propranolol, suggesting a non-adrenergic nature of the sympathomimetic effect of nicotine in this tissue. 4. The nicotine-induced contraction in the presence of atropine was abolished after desensitization of P2-purinoceptors with alpha, beta-methylene adenosine 5'-triphosphate, a slowly degradable ATP analogue selective for P2-purinoceptors. By this desensitization, the response to ATP, but not to histamine, was also abolished. 5. A cyclo-oxygenase inhibitor flurbiprofen partially inhibited the nicotine-induced contraction. The degree of the inhibition was more pronounced in the presence of atropine than in its absence. Flurbiprofen antagonized the response to exogenously applied ATP in an unsurmountable manner, but not that to carbachol. 6. The present results suggest that nicotine might induce a contraction through an interaction with nicotinic receptors located on the terminals of, possibly, (i) parasympathetic cholinergic, (ii) sympathetic non-adrenergic and (iii) non-sympathetic purinergic nerves in guinea-pig detrusor preparations, and that a portion of the contraction due to the purine nucleotide released is possibly potentiated by intramural prostaglandin(s). Parasympathetic cholinergic output might be modulated by an unknown excitatory substance released by nicotine from sympathetic nerve. 7. Nicotine reveals a latent excitatory effect of the sympathetic hypogastric nerve which innervates guinea-pig detrusor.
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PMID:Mechanism of action of nicotine in isolated urinary bladder of guinea-pig. 322 73

Rats treated intravenously with an organophosphorus anticholinesterase compound, paraoxon or soman, were sacrificed 2 to 131 min later, using 0.7 sec of focused microwave irradiation (25 kW at 915 MHz). Brain regional rates of glucose utilization during 3-min intervals were determined with labeled glucose and fluorodeoxyglucose as tracers. Levels of glucose, lactate, ATP, and creatine phosphate were assayed in the same samples. The two compounds differed markedly in their effects on brain metabolism. Paraoxon (0.8 LD50) depressed rates of glucose use in all brain regions, without causing consistent changes in brain metabolite levels. This depressant effect was most pronounced during the first 30 min after toxin exposure and had largely disappeared by 2 hr. Soman (0.8-0.95 LD50) was variable in its effects. Animals that showed seizure-like behavior had marked increases in glucose use in diencephalon and cerebrum but no changes in cerebellum or brain stem. Rapid rates of glucose use were associated with high levels of lactic acid and lower levels of creatine phosphate. In cerebrum, but not diencephalon, levels of ATP fell by as much as 50% in strongly affected animals by 30-130 min after soman. All of these effects were reversible with atropine. Soman-treated animals that did not have seizure-like activity did not exhibit these brain metabolic changes. These results and those of others show that cholinergic compounds vary greatly in their effects on brain glucose and energy metabolism. Although noncholinergic mechanisms are a possibility, the most parsimonious explanation for these findings is that cholinesterase inhibitors vary in their affinity for different central nervous system (CNS) acetylcholine receptor populations.
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PMID:Cerebral metabolic effects of organophosphorus anticholinesterase compounds. 350 39

An enzymatic method for the determination of serum cholinesterase (ChE) activity is described. The method is based on the liberation of acetate from acetylcholine as a substrate by ChE and the conversion of the acetate to acetylphosphate and ADP in the presence of ATP by acetate kinase. The produced ADP is coupled with pyruvate kinase and lactate dehydrogenase in the presence of phosphoenolpyruvate and NADH. The amount of NADH consumed is determined by absorbance at 340 nm. The reaction proceeds stoichiometrically, and the dilution curve is linear up to 3300 U/liter. The results obtained by this method show a good correlation with those obtained by the usual methods.
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PMID:Ultraviolet spectrophotometric method for determination of cholinesterase activity with acetylcholine as a substrate. 409 50

Several dibenzazepines, thioxanthene, and phenothiazine stereoisomers were studied for their abilities to inhibit plasmid replication, intracellular transfer of R-plasmid, bacterial ATP-ase, and mouse serum cholinesterase isoenzyme. Partially saturated derivative of desipramine inhibited plasmid replication and transfer, but the fully saturated derivative was inactive. The inhibition of plasmid curing and transfer patterns did not correlate with the inhibition of ATP-ase and cholinesterase. Trans-clopenthixol was more effective in plasmid elimination than the cis-isomer. On the other hand, the cis-isomer inhibited ATP-ase and cholinesterase more than the trans-isomer. The levo- and dextro-methoxytrimeprazine also inhibited plasmid replication and enzyme activity. We believe that the tricyclic configuration of the drugs tested for stereospecific binding to bacterial receptors is more important than its side chain orientation. We believe that there is a similarity between bacterial receptor sites and neural receptor sites. Therefore, this model may be useful in the study of neuropharmacological agents as potential antibacterial agents.
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PMID:Inhibition of bacterial plasmid replication by stereoselective binding by tricyclic psychopharmacons. 636 55

It has been shown in rat experiments that armin in doses that inhibit blood cholinesterase by 50 and more per cent lowers the content of nicotinamide coenzymes in the myocardium and liver of the animals, primarily at the expense of the diminution of the oxidized forms. In the rat liver, armin decreases the content of adenyl nucleotides, mainly at the expense of ATP. Dipyroxime prevents changes induced by armin, which is accompanied by partial reactivation of cholinesterase. It is suggested that in the mechanism of antidote action of dipyroxime, of importance is its normalizing effect on redox and energy processes in the body.
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PMID:[Effect of armin and dipyroxime on the nicotinamide coenzyme and adenine nucleotide content of the rat myocardium and liver]. 705 78

The objective of this investigation was to determine the distribution of cholinergic (acetyl-cholinesterase, AChE) and noncholinergic markers in slow-, fast-, and mixed-fiber containing muscles (soleus, SOL; extensor digitorum longus, EDL; and diaphragm, DIA, respectively). Noncholinergic markers included high-energy phosphates (adenosine triphosphate, ATP; phosphocreatine, PCr; and their metabolites), and the activity of creatine kinase (CK) and lactate dehydrogenase (LDH) and their isoenzymes and subforms. All three types of muscles had only one CK isoenzyme, CK-MM, which totally consisted of MM3 subform. Levels of these determinants were highest in EDL followed by DIA and least in SOL. Another objective was to determine alterations of these markers under the influence of acute carbofuran (1.5 mg/kg) or methyl parathion (MPTH, 5 mg/kg) toxicity. Rats receiving either insecticide showed cholinergic signs with maximal severity including muscle fasciculations and convulsions within 15-30 min that lasted for about 2 h. At 1 h postinsecticide injection, when AChE was maximally inhibited (81-96%), significant depletion of ATP and PCr was evident in muscles (DIA > SOL > EDL), and activities of CK-MM and LDH were elevated in muscles and consequently in serum. Serum CK-MM3 activity was markedly reduced with sequential increase in MM2 and MM1 subforms, probably due to induced higher carboxypeptidase activity. These findings suggested that (1) the differences in levels of biochemical constituents in muscles depend upon the fiber type, (2) anticholinesterase insecticide-induced increased muscle activity produces characteristic changes in CK and LDH isoenzymes patterns, and (3) leakage of these enzymes/isoenzymes into serum is due to depletion of ATP and PCr, which are required to maintain the cell membrane permeability.
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PMID:Cholinergic and noncholinergic changes in skeletal muscles by carbofuran and methyl parathion. 796 39

The rhabdomyosarcoma tumors were subjected to different doses of 2.0, 3.8 and 7.0 Gy from a neutron beam facility p(66 MeV)/Be. Elevated levels of cholinesterase activity are observed in which there is a correlation between the different doses of neutron radiation and the augmentation response of this enzyme. The increase of cholinesterase activity after 7 Gy neutron irradiation as a feature of involvement in the homeostatic mechanism maintaining the proper choline/acetylcholine ratio in the cell is also observed at 1 and 24 h in both tissues, rhabdomyosarcoma and small intestine. The activity of the enzyme after neutron irradiation with prior administration of ATP showed smaller increases when compared with increases observed after neutron irradiation alone. Moreover in the present work the protective mechanism of ATP in the response of cholinesterase activity is marked differential between both, normal and tumoral tissue and correlated inversely with the administered of the following concentrations of exogenous ATP (8, 25, 80, 250, and 700 mg/kg body weight) prior to exposure to 7 Gy neutron radiation. These results reflect the radioprotective ability of exogenous ATP to exert a number of metabolic adaptations as a defense mechanism in which the cell exposed to neutron radiation could remain viable because the injury is potentially repairable.
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PMID:Cholinesterase response in the rhabdomyosarcoma tumor and small intestine of the BALB/c mice and the radioprotective actions of exogenous ATP after lethal dose of neutron radiation. 850 91

Common molecular and cellular targets for alkaloids sanguinarine and ellipticine, isolated from well-known antitumor plants (as well as from their various natural and synthetic derivatives), have been studied and described. Sanguinarine and ellipticine are characterized by significant biological activities including a high antitumor potential. Among the important targets of their action the following are to be noted. 1. DNA and other double helical polynucleotides. Due to the ability of DNA-intercalation sanguinarine, ellipticine and some of their derivatives can modify the double helical structures and topological forms of polynucleotides. The results of these modifications in intercalative complexes manifest themselves in the inhibition of numerous enzymatic reactions, dependent on the structures and topological forms of DNA and other polynucleotides. 2. ATP synthesis in mitochondria. Most of DNA-intercalators, including sanguinarine and ellipticine, belong to a group of penetrating (hydrophobic) cations, which are accumulated near the external side of inner mitochondrial membranes during the membrane energization. They neutralize negative charges, arising just as the inner mitochondrial membranes become energized. By this neutralization of membrane charges the ATP synthesis in inhibited and the oxidative phosphorylation renders to be uncoupled. All studied DNA-intercalators under certain conditions uncouple the mitochondrial oxidative phosphorylation. Apparent correlation between the agents' ability for DNA-intercalation and for mitochondrial ATP synthesis inhibition seems to be determined by the importance for both types of reactions of molecule hydrophobicity and positive charges. 3. Cholinesterase systems. Sanguinarine, ellipticine and some of their derivatives, like other DNA-intercalators studied, inhibit also the enzymatic activities of cholinesterase systems due to hydrophobicity and positive charges of their molecules. 4. Sanguinarine (and chelerythrine), are also capable of inhibiting the biological activity of SH-dependent enzymes and proteins. Due to the reactivity of iminium groups in sanguinarine and chelerythrine molecules with nucleophilic reagents, e.g. thiol groups of enzymes and other proteins, the activities of SH-enzymes and proteins are inhibited. In particular, sanguinarine and chelerythrine inhibit enzymatic activity of some SH-dependent ATPases, including membrane-bound cation-transport ATPases. The earlier accumulated experience of the application in medicine of plant saps and extracts containing these alkaloids, and of the treatment of many diseases (including benign and malignant tumors) by isolated alkaloids may be explained, to a certain extent, by the inhibition of activities of the above mentioned cellular targets. The selective toxicity of these alkaloids for the number of transformed cells can be explained in the same manner.
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PMID:[Sanguinarine and ellipticine cytotoxic alkaloids isolated from well-known antitumor plants. Intracellular targets of their action]. 931 9

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