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)

Studies have been made on substrate specificity of acetylcholinesterase (AChE;EC 3-1-1-7) from the electric organ of the ray T. marmorata with respect of choline and thiocholine esters, as well as on the effect of pH, salts and organophosphorus inhibitors (OPI) on the activity of the enzyme. Acetylcholine (ACh), propionycholine (PrCh) acetyl-beta-methylcholine (MeCh), acetylthiocholine ((ATCh) and propionylthiocholine (PrTCh) were hydrolyzed by the enzyme studied at the following relative rates-100: 28.8: 18.3: 87.2: 18.9 correspondingly. In all the cases, inhibition of the enzyme by high concentrations of the substrate was observed. As compared to other AChE, the enzyme from T. marmorata exhibits the highest affinity to ACh. For all the substrates studied, pH dependence of AChE activity followed the curve with maximum 7.5 for ACh and PrCh, 8.0-8.5 for ATCh and MeCh and 7.5-8.5 for PrTCh. Various salts (MgCl2), KCl, NaCl, NaBr, KI) increased AChE activity, the increase being the highest with MgCl2 (3.3 times) and NaCl (2.5X). Biomolecular rate constants ((k) II) for the interaction of AChE investigated with OPI containing cationic group-methylsulfomethylates, O-ethyl-S-(beta-ethylmercapto) ethylmethylthiophosphonate and O,O-diethyl-S-(beta-ethylmercapto) ethylthiophosphate, as well as methyl iodide O,O-disopropyl-S-(beta-phenylmethylamino) ethylphosphate-were significantly higher as compared with k(II) values for corresponding compounds without the cation. The value of k(II) sharply decreased with the increase in the size of the acyl radicals at phosphorus atom in the molecule of OPI.
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PMID:[Acetylcholinesterase from the electric organ of the ray Torpedo marmorata]. 0 75

Microwave irradiation of 6 kw at 2450 MHz for 300 msec was sufficient to completely inactivate mouse brain cholinesterase and choline acetyltransferase. After this method of sacrifice, the acetylcholine contents of mouse brain regions, given in nanomoles per gram, were found to be: striatum, 81; medulla-pons, 44; diencephalon-midbrain, 34; hippocampus, 31; cerebral cortex, 26; and cerebellum, 17. Sodium pentobarbital caused a dose-dependent increase in whole brain acetylcholine. A maximal increase of 81% in whole brain was seen at 15 minutes with 80 mg/kg of sodium pentobarbital. The increase in acetylcholine after sodium pentobarbital treatment was not caused by anoxia from respiratory depression or by hypothermia. All brain regions except the cerebellum exhibited an increase in acetylcholine after pentobarbital treatment. Fifteen minutes after treatment, cerebellar acetylcholine was significantly decreased. However, at the time when half of the animals had regained the righting reflex, the unconscious mice showed an increase in cerebellar acetylcholine which was statistically significant as compared to control. The relative accumulation rate of acetylcholine calculated for cerebral cortex and hippocampus was higher than that for striatum although the absolute rate of accumulation of ACh was higher in the striatum. Thus, after sodium pentobarbital treatment, the cerebral cortex and hippocampus exhibit a greater cholinergic response than the striatum.
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PMID:Use of 300-msec microwave irradiation for enzyme inactivation: a study of effects of sodium pentobarbital on acetylcholine concentration in mouse brain regions. 0 94

Various parasympathomimetic drugs are discussed, including the choline esters, bethanechol, carbachol, methacholine chloride, and furtrethonium. Other cholinomimetic agents include muscarine, muscarone, arecholine, and pilocarpine. Anticholinesterase agents inhibit or inactivate acetylcholinesterase enzyme and thus result in a prolonged stimulation of cholinergic receptors by endogenous ACh. Bethanechol is the most widely used parasympathomimetic drug in the United States. Its action is mainly muscarinic with activity largely confined to the urinary bladder and to a lesser degree the gastrointestinal tract. It can be administered only subcutaneously or orally, and adequate dosage is necessary for a successful response.
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PMID:Uropharmacology: v. choline esters and other parasympathomimetic drugs. 1 40

Calcium activation of acetylcholine hydrolysis by bovine brain acetylcholinesterase (Acetylcholine hydrolase, EC 3.1.1.7) forms has been analyzed in terms of changes in kinetic constants and thermodynamic activation parameters. De-acetylation was determined to be the major rate-influencing step in acetylcholine hydrolysis by both 60 000- and 240 000-dalton forms of the brain enzyme and 10 mM Ca2+ increased the rate constant for this step (k+3) by approximately 30% for both forms. For the smaller acetylcholinesterase form the effects of Ca2+ on de-acetylation was equivalent to its effect on the overall rate constant (k) and occurred without an effect on pK. In the case of the 240 000-dalton species, the overall rate constant was increased by Ca2+ by 33% at pH 8.0 and 81% at pH 7.25 and involved a pK shift of -0.2 pH units. For both enzyme forms the rate constants for acetylation (k+2) were increased by Ca2+. Thermodynamic analysis suggested that Ca2+ activation of the acetylation step was entropically driven. Differences between the two enzymes forms in terms of Ca2+ appear to result from association of low molecular weight species.
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PMID:Kinetic analysis of calcium activation of brain acetylcholinesterase forms. 2 Sep 67

S.c. injections of cholinergic agents, carbachol, methacholine and bethanechol, into fasted rats caused rapid increases in the plasma concentration of cyclic GMP, with a sharp peak at 5--10 min after the injection. Acetylcholine gave rise to a rapid accumulation of cyclic GMP in plasma only when administered together with physostigmine which produced only a slight, if any, potentiation of the action of the cholinesterase-resistant choline esters. Cyclic AMP also increased after these drugs, but only subsequently to the rise of cyclic GMP; the primary action of the cholinergic drugs appeared to be the increase in cyclic GMP. Atropine was effective not only in abolishing the increase in plasma cyclic GMP induced by cholinergic drugs but also in lowering the baseline level of cyclic GMP. It was concluded that the plasma concentration of cyclic GMP could serve as a good parameter of cholinergic activity in rats.
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PMID:Plasma cyclic GMP: response to cholinergic agents. 2 43

1. In the posterior half of the pulvinar of cats anaesthetized with halothane and nitrous oxide, the majority of neurons were fired by ACh released with small electrophoretic currents. In the anterior part of that nucleus, ACh had more variable effects: excitation, depression or none. 2. In comparison with L-glutamate, DL-homocysteic acid and DL-aspartic acid, ACh appeared to be the most potent excitant. 3. ACh-induced discharges were easily and reversibly blocked by low doses of atropine. In most cases, ACh effects could not be blocked selectively by mecamylamine or dihydro-beta-erythroidine. 4. Nicotine failed to mimic ACh, whereas carbachol was a potent excitant and was readily blocked by low doses of atropine. 5. The histochemical reaction to acetylcholinesterase was moderate in the pulvinar. 6. These observations support the view that pulvinar cells differ from other thalamic cells.
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PMID:Micro-electrophoretic studies in the cat pulvinar region: effect of acetylcholine. 2 59

The subsynaptic area of mouse diaphragm fibres was hyperpolarized by 1--2 mV during local curarization of the junctional zone in the presence of the reversible anticholinesteraze prostigmine (6 X 10(-6) M), or after treatment of the muscle with organophosphate cholinesterase inhibitor Soman. In a solution containing 5 mM K+ the mean hyperpolarization was 1.1 +/- 0.27 mV at mean resting potential--70 mV. After adding 2 X 10(-5) M ouabain the hyperpolarization increased to 1.5 +/- 0.25 mV. Removal of potassium ions from the bathing medium also increased curare induced hyperpolarization to 1.80 +/- 0.40 mV. Reactivation of membrane ATP-ase by addition of K+ after a period in K+-free medium reduced the hyperpolarization to zero, where measurements were performed 10--20 min after the readdition. It was concluded that spontaneous non-quantal leakage of acetylcholine occurs at the mouse neuromuscular junction, as it does in the frog (ref. Katz and Miledi 1977). Conditions which block the Na+-K+-dependent ATP-ase of nerve terminals increased the continuous leakage of ACh and activation of the pump decreased it.
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PMID:Electrophysiological examination of transmitter release in non-quantal form in the mouse diaphragm and the activity of membrane ATP-ase. 3 68

The mechanism of neuronal excitation by H+ in the medullary chemosensitive structures was analyzed in brains slices of the rat in vitro. Responses of neurons to H+ in the ventral surface layer were compared with responses to various transmitter substances. Neurons excited by H+ were always also excited by acetylcholine (ACH). ACh increased the activity of 70% of superficial ventral medullary neurons. Effects of noradrenaline and serotonin on the activity of neurons were largely opposite to that of H+. Cholinergic blocking agents like atropine, hexamethonium and mecamylamine depressed the H+-elicited excitation of neurons. The cholinesterase inhibitor, eserine, increased the neuronal activity. In the presence of eserine, a solution of low pH caused further increase in discharge of most neurons. The low pH solution prolonged and augmented the excitatory action of ACh on the ventral medullary neurons. It is concluded that the H+-elicited excitation of neurons in the "chemosensitive" structures is dependent upon intact cholinergic transmission in the surface layer. This may be interpreted as resulting from facilitation and/or prolongation of such a chemical transmission by H+.
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PMID:A cholinergic mechanism involved in the neuronal excitation by H+ in the respiratory chemosensitive structures of the ventral medulla oblongata of rats in vitro. 3 26

In alert monkeys the time course for development of supersensitivity to topical acetylcholine in partially isolated frontal cerebral cortex was determined. Thresholds for paroxysmal discharge fell progressively and markedly during 3 weeks, further in 5 and somewhat more after 6 months. ACh supersensitivity was demonstrated in chronic "isolated" occipital cortex. Epileptiform discharges were recorded selectively from chronic partially isolated frontal cortex on peripheral nerve stimulation and these spread, causing a clinical convulsive siezure when the open end of the isolation extended into the precentral gyrus. The basic mechanisms responsible for the supersensitivity are unknown but evidence presented and much in the pertinent literature is in keeping with the hypothesis that partial isolation of cortical cells, i.e., denervation, deafferentation, or disuse may be important. It is suggrested that peripheral nerve stimulation, like arousal, may cause an outflow of ACh on the normal brain surface and over the open end of a partially isolated area, which, especially, in the presence of a diminished cholinesterase activity (in partially isolated cortex), could act like topical ACh, cause a DC shift and an epileptiform discharge.
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PMID:Time course of development of supersensitivity to topical acetylcholine in partially isolated cortex. 4

The morphological evidence of the primary nerve muscle contacts are described. They consist of areas of cholinesterase activity (detected histochemically) localized on the myotube membranes and of mutiple clusters of ACh receptors whose 125I-alpha-bungarotoxin binding sites are revealed by radio-autography. After the stage of the primary nerve muscle contacts, some of which seem transient, characteristic neuromuscular junctions appear. These neuromuscular junctions which possess subneural infoldings are similar to the end-plates of the Rat in vivo.
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PMID:[Formation of the neuromuscular junction in cultures of rat embryonic cells]. 9 7


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