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)

Acetylcholine (ACh) hyperpolarized the guinea-pig atrium and increased the maximum rate of rise of the spike and ionic conductance. There was a dose-dependent decrease in action potential duration in most preparations. However, some atrial showed a contractility decrease without a concomitant change in action potential duration. This was not related to acetylcholinesterase activity. Reduction in contractility by ACh resulted from doses 10 times lower than were required for action potential shortening. Small quantitative differences in electrical response were seen between the left and right atria. 4-Aminopyridine lengthened the action potential and increased spike amplitude. These effects were not frequency-dependent but were potentiated by low Ko+. This drug antagonized both the electrical and contractile effects of ACh, suggesting that they are mediated by an increase in KO+ permeability. Modification of excitation-contraction coupling by ACh is discussed and a role for cyclic guanosine 3':5'-monophosphate suggested.
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PMID:Cholinergic mechanisms in heart: interactions with 4-aminopyridine. 44 50

In order to gain insight into the possible role of the ACh-system in the smooth muscle cell, the presence of choline acetyltransferase, acetylcholinesterase and butyrylcholinesterase was studied in the longitudinal muscle of the guinea-pig ileum after the mechanical removal of Auerbach's plexus. Such treatment completely removes all nerve elements as confirmed by histochemistry and electron-microscopic examination. It was found that in the longitudinal muscle devoid of all nervous elements a substantial percentage of the activity of all three enzymes still remained. Ultrastructural localization of acetylcholinesterase and butyrylcholinesterase was observed on the sarcolemma, sarcoplastic reticulum, nuclear membrane and invaginations of the sarcolemma. The localization of cholinesterases coincides with sites which are presumably involved in calcium movements during contraction and relaxation. It is well known that the depolarized smooth muscle responds to exogenous ACh with a reversible, calcium dependent contraction and it was suggested that ACh may act by increasing the influx of calcium through the cell membrane or by liberating calcium from its bound form. The presence of choline acetyltransferase and cholinesterase activities in the muscle cell proper, as well as the localization of cholinesterases on structures connected with calcium movements, support the coexistence of an intrinsic cholinergic mechanism in the smooth muscle.
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PMID:Cholinesterases and choline acetyltransferase in the longitudinal muscle of the guinea pig ileum. 51

The effects of methylmercury chloride and other mercury compounds on cholinergic parameters were studied in vitro. Methylmercury chloride (MMC) and phenylmercury acetate inhibited choline acetyltransferase (ChA) with 20 microM of I50, and mercury nitrate (MN) with 100 microM of I50. All the three compounds had little effect on cholinesterase activity. MMC inhibited a high affinity choline uptake with 41 microM of Ki, as well as a low affinity choline uptake with 250 microM of Ki. MMC did not affect a spontaneous and potassium-stimulated ACh release from brain tissue slices incubated in eserinized Krebs-Ringer's solution up to the concentration of 100 microM. It was shown that the organic mercury compounds, such as methylmercury, were potent inhibitors of the choline uptake systems, as well as ChA activity.
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PMID:Effects of methylmercury chloride on various cholinergic parameters in vitro. 54 84

After 30 days of isolation, 45% of the rats exhibited mouse-killing behavior. The killing response was suppressed by atropine (5 mg/kg and 8 mg/kg, IP) and scopolamine (8 mg/kg, IP), whereas methylatropine was ineffective. Acetylcholine (ACh) content and acetylcholinesterase (AChE) activity were measured in 5 discrete areas of rat brain. As compared with the aggregated rats only the killer rats exhibited higher ACh levels in the diencephalon. The activity of AChE in all brain areas was unchanged by isolation; no significant difference was found between the killer and nonkiller rats. These results suggest that central cholinergic mechanisms participate in the mediation of mouse-killing behavior in the rat.
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PMID:Biochemical correlates in mouse-killing behavior of the rat: prolonged isolation and brain cholinergic function. 55 19

1. Acetylcholine increases the potential difference across rat proximal colon both in vivo and in vitro.2. There is a sigmoid relationship between the change in potential difference and the logarithm of the dose of acetylcholine. The dose-response curve is shifted to the left by neostigmine and to the right by atropine, suggesting that the action of acetylcholine is mediated by a muscarinic type of receptor.3. The dose-response curve for acetylcholine in vivo is not altered by the ganglion-blocking agents hexamethonium and pentolinium, suggesting a direct effect of this transmitter on the colon.4. Acetylcholine causes an increase in potential difference, a small decrease in resistance and hence a rise in the current generated by both normal and stripped everted sacs of rat colon.5. In the absence of sodium, the calculated current change produced by acetylcholine is reduced, and the removal of chloride has a similar inhibitory effect. The absence of bicarbonate does not significantly affect the response.6. Acetylcholine virtually abolished net sodium movement and induced net chloride secretion and these changes accounted for the increased short-circuit current.7. Acetylcholine had no effect on oxygen consumption by rings of colon.8. Tracts staining for acetylcholinesterase were observed running from the submucous plexus towards the mucosal epithelium.9. This study shows that acetylcholine can influence ion movement by rat colonic mucosa and suggests that the autonomic nervous system might be involved in the regulation of transport mechanisms in this tissue.
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PMID:The role of acetylcholine in the regulation of ion transport by rat colon mucosa. 59 12

Specific and non specific cholinesterase activities were demonstrated in the ABRM of Mytilus edulis L. and Mytilus galloprovincialis L. by means of different techniques. The results were found identical for both species: neuromuscular junctions "en grappe"-type scarely distributed within the ABRM, contain AChE. According to the histochemical inhibition tests, (a) the eserine inhibits AChE activity of the ABRM with a level of 5-10(-5) M or higher, (b) the ChE non specific activities are inhibited by iso-OMPA level between 5.10(-5) to 10(-4) M. The histo- and cytochemical observations were completed by showing the existence of neuromuscular junctions containing small clear vesicles: they probably are the morphological support for ACh presence. Moreover, specific and non specific ChE activities were localized in the glio-interstitial cells. AChE precipitates were developed along the ABRM sarcolemma, some muscle mitochondria and in the intercellular spaces remain enigmatic.
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PMID:[Innervation of the anterior byssus retractor muscle (ABRM) in Mytilus edulis L. and in Mytilus galloprovincialis Lmk. V. Cytochemical localization of cholinesterase activities (author's transl)]. 64 Aug 63

Acetylcholine (ACh) concentration, choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) were measured in 60 discrete areas dissected from the rat forebrain. All 3 substances were detectable in every region examined. The range for ACh levels was approximately 9-fold, with highest levels in the striatal and mesolimbic areas. Wider ranges were found for ChAT and AChE. In addition to not having a uniform distribution ACh, ChAT and AChE did not always show proportional variations. ACh levels did not appear to relate to the activity of either enzyme in a simple manner. There was a better correlation (r = 0.902) between the activities of ChAT and AChE, with AChE activities always being higher. In some regions, AChE was disproportionately low or high relative to ChAT. In general, the biochemical results presented here are compatible with histochemical studies of AChE. Such measurements in small brain regions should prove valuable in future experiments designed to determine cholinergic function and localize cholinergic pathways.
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PMID:A mapping of the distribution of acetycholine, choline acetyltransferase and acetylcholinesterase in discrete areas of rat brain. 68 83

Four methods for measuring serum cholinesterase activity have been applied to sera of normal individuals and of patients shown to be sensitive to short-acting muscle relaxants of the succinyldicholine type. They have been assessed according to their ability to differentiate between sensitive and insensitive individuals on the basis of enzyme activity measurements alone. The method described, based upon that of Dietz et al. [Clin. Chem. 19, 1309 (1973)], in which propionylthiocholine is used as substrate, is best for this purpose, being capable of identifying over 90% of affected individuals with no false positives. Acetylcholine and butyrylthiocholine are slightly inferior substrates in this respect, and benzoylcholine gives little useful information.
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PMID:Is serum cholinesterase activity a predictor of succinyl choline sensitivity? An assessment of four methods. 69 86

Sensory neurons with somata in the antennae of the moth, Manduca sexta, make synapses in the antennal lobes of the brain. These lobes develop during metamorphosis of the pupa to the adult while the antennae themselves develop and send presumably cholinergic sensory fibers into the lobes. Levels of acetylcholine, choline acetyltransferase, and acetylcholinesterase rise dramatically in the lobes as sensory axons grow from the antennae to the lobes through the antennal nerves. An [125I]alpha-bungarotoxin-binding activity, which may represent ACh-receptors, develops in the lobes with a time course different from that of the other cholinergic components, rising gradually throughout metamorphosis. This activity is specific to nervous tissue and is blocked by cholinergic agents (carbamylcholine, atropine, curare, and nicotine). Levels of acetylcholine, choline acetyltransferase, and acetylcholinesterase, but not of toxin-binding activity, are greatly reduced in lobes deafferented by amputation of developing antennae.
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PMID:Cholinergic neurochemical development of normal and deafferented antennal lobes during metamorphosis of the moth, Manduca sexta. 83 Mar 92

Acetylcholine (ACh) content of the central nervous system in the sipunculid P. japonicum was estimated by application of extracts from the nervous tissue to dental retractor of the sea urchin using ACh solutions with known concentration as a standard. It was shown that the nervous tissue contains 46 (from 41 to 51) microng of ACh (calculated as cation) per 1 g of wet material. In the presence of the nervous homogenate from Physcosoma, 880 micronM of ACh are hydrolyzed by 1 g of wet tissue per 1 hour. The content of ACh and the activity of cholinesterase are comparable with those in the brain of molluscs, arthropods and mammals. Anticholinesterase drugs (physostigmine and neostigmine) evoked spontaneous contractions of the proboscis retractor when applied to the nervous cord and enhanced the response of this muscle to electrical stimulation of this cord. Cholinolytics (arpenal and pentaphen) also caused spontaneous muscle contractions, but prevented the increase in muscular activity in response to electrical stimulation in presence of physotigmine. The data obtained suggest cholinergic nature of the transmission in the central nervous system of sipunculids.
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PMID:[Cholinergic mechanisms in the central nervous system of the sipunculoid Physcosoma japonicum]. 86 96

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