EC:3.1.1.7 - FACTA Search

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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)

Cholinesterase activities in the hearts and ganglia of an oyster (Crassostrea virginica) and a venerid clam (Macrocallista nimbosa) were measured and compared. Tissue extracts were partially purified by ammonium sulfate fractionation followed by gel column chromatography. Enzymatic activity was assayed spectrophotometrically; substrates were acetyl-, butyryl-, and propionylthiocholine (ATC, BTC, PTC). Kinetic constants characterizing each enzyme were derived. At all substrate concentrations, the hydrolysis rates of both clam enzymes were in the order: BTC greater than PTC greater than ATC. With oyster enzymes the ranking was ATC greater than or equal to PTC greater BTC. The specific activities of oyster heart and ganglion enzymes were similar. In contrast, clam ganglion extracts were 75-100 times more active than clam heart extracts and, with any substrate, had greater activity than either oyster enzyme. All enzyme preparations proved to be homogeneous on the bases of constant substrate activity ratios in successive column fractions, and of intermediate velocities with mixed substrates. Six cholinesterase inhibitors were tested. The specific acetylcholinesterase antagonist, B.W. 62C47, WAS MUCH MORE EFFECTIVE AGAINST OYSTER ENZYMES, WHILE THE SPECIFIC ANTIBUTYRYLCHOLINESTERASE, ISO-OMPA, almost totally inhibited calm enzyme activity, but had little effect on oyster. Eserine was the most effective inhibitor of both enzymes. In conclusion, the enzymes in oyster tissues are acetylcholinesterases, while clam enzymes are butyrylcholinesterases. Nevertheless, clam ganglion esterase is sifficiently active to hydrolyze the physiological substrate, acetylcholine. These results explain the long-observed differences in isolated heart pharmacology between ostreid and venerid bivalves.
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PMID:A comparison of the cholinesterases of an oyster (Crassostrea virginica) and a clam (Macrocallista nimbosa). 1 Mar 39

Psychotropic drugs such as the phenothiazine neuroleptics and tricyclic antidepressants are known to cause electrocardiographic abnormalities as well as a central anticholinergic syndrome. Physostigmine is known to reverse the central muscarinic anticholinergic manifestations by inhibition of the enzyme cholinesterase. An unusual case of trifluoperazine overdose, in which the patient presented with cardiac arrhythmias and a central anticholinergic syndrome, is presented. Treatment with physostigmine reversed the central anticholinergic syndrome as well as the electrocardiographic abnormalities. Effects of phenothiazines on altering cardiac status are also discussed.
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PMID:Physostigmine for cardiac and neurologic manifestations of phenothiazine poisoning. 3 May 64

1. A number of observations, as listed below, suggested a cholinergic basis for inhibitory interactions between photoreceptors of the eye in the nudibranch mollusk Hermissenda crassicornis. 2. The isolated eyes synthesized and accumulated acetylcholine but not other putative neurotransmitter substances. Synthesis and accumulation were determined by electrophoretic separation of products that incorporated radioactive label. Electron microscopic visualization of clear round vesicles within the photoreceptors' somata and axon hillocks was consistent with synthesis and storage of acetylcholine within these cells. 3. Pharmacologic experiments indicated the presence of cholinergic receptors on the terminal branches of the photoreceptors, which are pre- and postsynaptic to each other. Carbachol or nicotine produced hyperpolarization of the photoreceptors' membrane accompanied by a reduction of the input resistance. The reversal potential of carbachol-induced hyperpolarization coincided with the reversal potentials of the IPSPs that followed, one for one, impulses of neighboring photoreceptors. Eserine often caused blockade of the IPSPs. This blockade was associated with substantial membrane hyperpolarization and reduction of membrane resistance. 4. Neuronal endings within the optic tract in the area of the photoreceptor's terminal branches stained for acetylcholinesterase. 5. The results of these different experiments, especially when considered together, strongly suggest, although by no means unequivocally demonstrate, that the neurotransmitter of the photoreceptors is acetylcholine.
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PMID:Cholinergic features of photoreceptor synapses in Hermissenda. 3 73

Physostigmine, a centrally acting cholinesterase inhibitor, antagonizes methylphenidate-induced stereotyped gnawing behavior in mice and rats. This effect is significantly attenuated when lithium chloride is concurrently administered, indicating that lithium chloride may antagonize central cholinergic activity. This observation may have theoretical implications for an adrenergic-cholinergic balance hypothesis of affective disorders.
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PMID:Lithium administration antagonizes cholinergic behavioral effects in rodents. 11 33

Rabbits were immunized versus either an acetylcholinesterase- or a cholinergic receptor-rich fraction isolated from the electric organ of Torpedo marmorata. In both groups of animals we obtained a production of specific antibodies detected by immunodiffusion without cross reaction for the two antigens. Only rabbits immunized with the receptor-rich fraction developed a progressive flaccid paralysis, which affected first the leg muscles, progressively the neck muscles and eventually the respiratory muscles. The paralysis lasted in several animals up to 20 days. Eserine reversed the paralysis only in the first days but was ineffective in the "chronic" stage of the disease. In these animals high frequency stimulation of sciatic nerve induced a rapid failure of the responses of the anterior tibialis muscle while the muscle responded normally to a direct stimulation. A period of rest allowed a complete recovery of the muscle from fatigue. Tetani did not evoke the post-tetanic potentiation. Abnormalities, such as lymphocytic infiltration, fibers atrophy and necrosis, smearing and widening of Z line were sometimes present in muscles of Cho-R-immunized rabbits. In ACh-E immunized animals the neuromuscular transmission and the muscle morphology were similar to that of normal animals. Glycogen, ATP, cytochrome C oxidase, phosphorylases and acetylcholinesterase did not change significantly in the muscles of the immunized animals, while a large increase of cholineacetyltransferase activity was present. Red blood cell acetylcholinesterase showed a particularly high activity in ACh-E-immunized animals. The autoimmune paralysis induced in Cho-R-immunized rabbits may be a useful experimental model for further studies on human myasthenia gravis.
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PMID:Immunization of rabbits with secific components of postsynaptic membrane. Acetylcholinesterase and cholinergic receptor. 18 67

1. The time sequence of the development of acetylcholinesterase (AChE), acetylcholine (ACh) receptors and functional synapses on the embryonic muscle membrane in a tunicate larva (Halocynthia roretzi) was investigated in vivo.2. The fertilized tunicate egg was incubated in natural sea water at 9 degrees C. Sixty-eight hr after fertilization the free-swimming larva was hatched, which had six striated muscle fibres in the tail. The developmental stage of the embryo was indicated by the developmental hours after fertilization.3. The transmitter at the neuromuscular junction in the hatched larva is ACh. (i) Neuromuscular transmission was completely blocked by D-tubocurarine (1-5 x 10(-5)M). (ii) Eserine (5-10 x 10(-7)M) approximately doubled the time constant of the falling phase of miniature excitatory junctional currents (e.j.c.s). (iii) The reversal potential of the membrane response to iontophoretically applied ACh was -10 mV and similar to that of e.j.c.s. (iv) AChE was present on the muscle membrane surface.4. AChE activity became visible histochemically on the embryonic cell membrane in the presumptive muscle region as early as the late gastrula stage (27 hr after fertilization, 12 hr before the ACh response appeared).5. The response to iontophoretically applied ACh was present at 39 hr after fertilization but could not be evoked at 38 hr.6. Between 39 and 41 hr after fertilization, the ACh responses increased rapidly, then remained relatively unchanged until larval hatching.7. The stage of the initial appearance of the ACh response corresponded to the stage when the Ca current abruptly increased in the muscle membrane.8. The first sign of neuromuscular transmission was appearance of a giant excitatory junctional potential (e.j.p.) with uniform amplitude (about 15-20 mV) and slow time course (time constant of the falling phase of a giant e.j.c. was 23.4 +/- 6.9 msec, mean and S.D., at -60 mV and 11 degrees C).9. Within a few hours, these giant e.j.p.s disappeared and were successively replaced by medium-sized e.j.p.s and then e.j.p.s similar to those seen in hatched larvae (time constant of the falling phase of a miniature e.j.c. was 8.5 +/- 1.8 msec at -60 mV and 11 degrees C).
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PMID:Development of neuromuscular transmission in a larval tunicate. 19 33

After discussion of the modern concepts of pathophysiology of ocular myasthenia the ocular symptoms such as ptosis and eye muscle palsies are discussed. As important diagnostic sign the Simpson lid fatigue test before and after application of Tensilon is described. For diagnosis of myasthenic eye muscle palsies electrooculography has a special significance especially in connection with the application of Edrophonium, which normalizes myasthenic hypometric saccades and transforms them even in hypermetric saccades. In doubtful cases of eye muscle palsies the electromyogram of the affected muscle in connection with the Edrophonium-test is extremely valuable. With regard to modern treatment apart from cholinesterase inhibitors (Pyridostigmine, Neostigmine) thymectomy, the application of corticosteroids, ACTH and especially also immune suppressive drugs (Imurel etc.) is discussed. Of great significance in ocular myasthenia is the local application of cholinesterase inhibitors like Eserine, Prostigmin or Phospholine Iodide.
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PMID:[Diagnosis and treatment of ocular myasthenia (author's transl)]. 20 42

Preparations from alloxan diabetic rats showed a reduced sensitivity to the neuromuscular blocking action of (+)-tubocurarine but no alteration in sensitivity to the depolarizing neuromuscular blocking drug decamethonium. Physostigmine was less effective in augmenting twitch height in preparations from alloxan diabetic rats and such preparations had a significantly lowered total cholinesterase activity compared with control preparations. An additional observation was a reduction in the effectiveness of the pre-junctionally active agent beta-bungarotoxin in producing neuromuscular blockade in physostigmine-treated preparations from alloxan diabetic rats. All the changes produced by alloxan administration were prevented by treatment with insulin.
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PMID:The effect of acute alloxan diabetes on the sensitivity of the rat skeletal neuromuscular junction to drugs. 21 52

The present electrophysiological study shows that methacholine (MCh), generally regarded as a muscarinic agonist, stimulates the carotid chemoreceptors in pentobarbitone anaesthetized cats. The response consisted of a primary increase in discharge, attributable to nicotinic actions of MCh since it was unaffected by atropine but abolished by mecamylamine, and a delayed secondary increase in discharge, due mainly to bronchoconstriction evoked by MCh. Physostigmine caused similar potentiation of responses to acetylcholine and MCh which implies that acetylcholinesterase is located close to the site(s) at which the drugs act to stimulate chemoreceptor activity. The findings are in agreement with the general principle that chemosensory activity is increased by nicotinic agonists but not by muscarinic agonists.
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PMID:Effects of methacholine on the carotid chemoreceptors. 24 34

The effect of physostigmine salicylate (0.5 mg/kg, i.p.) alone and in combination with atropine sulfate (25 mg/kg, i.p.) on levels of acetylcholine (ACh) and choline (Ch) and turnover of ACh has been studied in whole brain and striatum of mice. The animals were killed by focussed microwave irradiation and the turnover of ACh was studied after i.v. injection of deuterium labelled Ch by employing mass fragmentography. Physostigmine increased the levels of ACh in whole brain from 24.5--28.0 nmol/g(P less than 0.001) whereas there was no significant increase in striatum. The levels of Ch were also increased. The turnover rate of ACh was decreased in whole brain from 15.4 to 8.4 and in striatum from 52.9 to 24.4 nmol/g . min. Physostigmine given before or after atropine did not completely block the ACh lowering effect of atropine. When atropine was given before physostigmine the turnover rate of ACh in whole brain was increased to 24.2 nmoles/g . min. The results seem to indicate that there is no clear cut relation between the turnover rate and level of ACh in vivo. The increase of the turnover rate induced by atropine is masked unless a cholinesterase inhibitor is given to protect the newly synthesized labelled ACh released by atropine.
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PMID:Effect of physostigmine and atropine on acetylcholine turnover in mouse brain. 49 54

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