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)

Electricus electrophorus acetylcholinesterase (AChE, EC 3.1.1.7) is reported to possess a trypsin-like activity. We found that purification of AChE removes over 99% of this protease activity, which resides in a single 25 kDa protein with an N-terminal sequence identical to bovine pancreatic trypsin. Digests of neuropeptides using purified eel AChE or bovine pancreatic trypsin gave identical peptide maps. These results indicate that the commercial preparation of eel AChE is contaminated by a trypsin, which is difficult to remove completely during AChE purification.
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PMID:Identification of the trypsin-like activity in commercial preparations of eel acetylcholinesterase. 175 64

In the substantia nigra, a protein (acetylcholinesterase) is secreted from the dendrites of dopaminergic pars compacta neurons, in a noncholinergic capacity. This non-classical phenomenon could be influenced by sensory stimulation: the effect of light flashing was investigated on the 'on-line' release of acetylcholinesterase and concomitant behaviour in the guinea-pig. The stimulus induced an increase in release of the protein and the appearance of chewing movements. Similarly, chewing could also be elicited by direct local application of exogenous acetylcholinesterase. The results suggest that visual stimulation causes release of AChE, which in turn facilitates movement. Therefore secretion of this protein within the substantia nigra might form an important intermediary step in visuo-motor interactions.
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PMID:The relationship between visual stimulation, behaviour and continuous release of protein in the substantia nigra. 176 Jul 24

Anatoxin-a(s) is a guanidine methyl phosphate ester (unprotonated molecular ion equals 252 daltons) isolated from the freshwater cyanobacterium (blue-green alga) Anabaena flos-aquae strain NRC 525-17. Previous work has shown anatoxin-a(s) to be a potent irreversible inhibitor of electric eel acetylcholinesterase (EC 3.1.1.7, AChE). In the present study the interaction of anatoxin-a(s) with AChE was investigated by protection studies and since similarities have been noted between anatoxin-a(s) and the synthetic organophosphate anticholinesterases, the ability of reactivators to reactivate the inhibited enzyme was investigated. Treatments directed toward eliminating poisoning symptoms and in vivo protection from anatoxin-a(s) poisonings were investigated using oxime reactivators and atropine or pretreatment with a carbamate and atropine. Anatoxin-a(s) was shown to be an active site-directed inhibitor of acetylcholinesterase which is resistant to oxime reactivation due to the structure of its enzyme adduct. In vivo pretreatment with physostigmine and high concentrations of 2-PAM were the only effective antagonists against a lethal dose of anatoxin-a(s).
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PMID:Anatoxin-a(s), a naturally occurring organophosphate, is an irreversible active site-directed inhibitor of acetylcholinesterase (EC 3.1.1.7). 177 May 3

A survey was made of the density of the cholinergic innervation of different parts of the brainstem of the rat and ferret. Sections of rat and ferret brainstems were stained for choline acetyltransferase (ChAT) immunoreactivity by using a sensitive immunocytochemical method. Adjacent sections were stained for acetylcholinesterase activity or Nissl substance. The density of the distribution of fine calibre, varicose ChAT-positive axons, assumed to represent cholinergic terminals, was categorised arbitrarily into high, medium, or low. A high density of ChAT-positive terminals was found in all or parts of these structures: interpeduncular nucleus, superficial grey layer of the superior colliculus (ferret), intermediate layers of the superior colliculus, lateral part of the central grey (rat), an area medial to the parabigeminal nucleus (rat), pontine nuclei, ventral tegmental nucleus (rat), midline pontine reticular formation, and an area ventral to the exit point of the 5th nerve (ferret). A medium density of ChAT-positive terminals was observed in all or parts of: the substantia nigra zona compacta (ferret), ventral tegmental area (ferret), superficial grey layer of the superior colliculus, intermediate and deep layers of the superior colliculus, lateral central grey, area medial to the parabigeminal nucleus, inferior colliculus, dorsal tegmental nucleus, ventral tegmental nucleus (ferret), pontine nuclei, ventral nucleus of the lateral lemniscus (ferret), midline pontine reticular formation, ventral cochlear nucleus, dorsal cochlear nucleus, lateral superior olive, spinal trigeminal nuclei, prepositus hypoglossal nucleus, lateral reticular nucleus, paragigantocellular nucleus, and the dorsal column nuclei including the cuneate, external cuneate, and gracile nuclei. A low density of ChAT-positive terminals was seen throughout the remainder of the brainstem of the rat and ferret, but these terminals were absent from the medial superior olive, substantia nigra zona reticulata (rat), and the central part of the ferret lateral superior olive. A pericellular-like distribution of ChAT-positive terminals was observed in the ventral cochlear nucleus and in association with some of the cells of the nucleus of the mesencephalic tract of the trigeminal nerve. A climbing fibre type arrangement of ChAT-positive terminals was found in the substantia nigra zona compacta (ferret) and medial reticular formation. In general, the distribution of staining for AChE activity reflected that of the distribution of ChAT immunoreactivity in the brainstem, except in a few regions where there were also species differences in the distribution of ChAT-positive terminals, e.g., in the superficial grey layer of the superior colliculus and in the substantia nigra.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Distribution of choline acetyltransferase immunoreactive axons and terminals in the rat and ferret brainstem. 179 70

The regulation of acetylcholine (ACh) lifetime by acetylcholinesterase (AChE, EC 3.1.1.7) and butyrylcholinesterase (BuChE, EC 3.1.1.8) was evaluated in vitro in canine tracheal smooth muscle preparations. Selective inhibition of AChE by low concentrations of 1,5-bis(N-allyl-N,N-dimethyl-4-ammoniumphenyl)-pentane-3-one dibromide (BW 284C51) led to increases in the amplitude and half-relaxation time of contractions elicited by electric field stimulation. Maximal responses were observed in the presence of 10(-6) M BW 284C51, where the amplitude and half-relaxation time were increased by 84 and 198%, respectively. Higher concentrations of BW 284C51, on the other hand, depressed the amplitude and shortened the decay of electric field stimulation-induced contractions by a mechanism involving blockade of muscarinic receptors. Selective inhibition of BuChE by tetraisopropylpyrophosphoramide (iso-OMPA) led to monotonic increases in the electric field stimulation amplitude and duration. These alterations were less marked than those observed in the presence of BW 284C51. Co-application of BW 284C51 (10(-5) M) and iso-OMPA (10(-5) M) resulted in a 1330% prolongation in the decay of electric field stimulation-induced contractions and the development of a sustained contracture. Such contractures were not observed with either inhibitor alone at any concentration tested. The results indicate that both hydrolytic enzymes are involved in the regulation of ACh lifetime at the canine tracheal neuroeffector junction with AChE exerting the more prominent role. The finding that BuChE co-regulates ACh lifetime in canine trachealis muscle demonstrates a functional role for this enzyme.
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PMID:Regulation of acetylcholine hydrolysis in canine tracheal smooth muscle. 181

The effects of acute intraperitoneal administration of paraoxon on behavioral and biochemical parameters were studied in male rats. Rats were trained to press a lever under an FR10 schedule of reinforcement. Rats were injected with 3 sublethal doses of paraoxon (0.5, 0.75, and 1.0 mg/kg) and performance was monitored for four days after exposure. Response rates were depressed significantly for days 1 and 2 with 0.75 and 1.0 mg/kg, but not 0.5 mg/kg, even though there was inhibition of brain and plasma cholinesterases at all doses. Performance recovered prior to brain AChE recovery. There was no clear-cut threshold of brain AChE inhibition required to yield performance deficits, nor was there a direct correlation between significant inhibition in peripheral enzymes which could serve as markers (plasma aliesterases, butyrylcholinesterase, non-iso-OMPA-sensitive cholinesterase, and hepatic aliesterases) and performance deficits, suggesting that other noncholinergic targets may play a role in OP-induced behavioral deficits.
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PMID:Acute effects of the organophosphate paraoxon on schedule-controlled behavior and esterase activity in rats: dose-response relationships. 181 79

In order to examine the influence of acetylcholine on synaptic transmission and synaptic enhancement after tetanic stimulation in the hippocampal CA1 area, a cholinergic depletion model was used. It was found that bilateral lesions of the medial septal area (MSA) by microinjection of kainic acid produced a dramatic reduction of acetylcholinesterase-positive (AChE(+)) fibers, presumably cholinergic, in most of hippocampal areas. Electrophysiologically, MSA lesions caused a decrease of excitatory postsynaptic potential (EPSP) slope and population spike (PS) amplitude at a given stimulus intensity in the hippocampal CA1 area in vitro. Although hippocampal synapses could still be potentiated after tetanic stimulation, a faster decay of synaptic enhancement was found in slices from lesioned animals. Since no apparent tissue damage or ultrastructural abnormality was found in the hippocampal CA1 area, except the loss of cholinergic fibers, after MSA lesions, it was speculated that reduction in synaptic transmission and enhancement may be due to weakening of cholinergic amplification on synaptic responses mediated by excitatory amino acids.
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PMID:Effects of cholinergic depletion by medial septal area lesions on synaptic responses in CA1 area of hippocampal slices. 182 Aug 45

We describe an affinity chromatography method in which dimethylaminoethylbenzoic acid-Sepharose 4B is used, making it possible to separate in one step the molecular forms of globular acetylcholinesterase (AChE, EC 3.1.1.7) or butyrylcholinesterase (ChE, EC 3.1.1.8). A crude extract containing these enzymes was deposited onto the chromatography gel, washed, and eluted by a linear gradient of tetramethylammonium chloride (0-0.3 M). With rat brain AChE, two well-separated peaks were eluted in the presence of 1% Triton X-100; the first peak corresponded to 4 S forms and the second to 11 S forms. This separation was very efficient for salt-soluble activity and less efficient for the detergent-soluble AChE. In this case, the 4 S peak represented only 6.5% of total detergent-soluble activity and was cross-contaminated by the 11 S form. Rat serum ChE was efficiently separated into two peaks of 7 S and 11 S. This method could potentially be adapted to separate other multimeric proteins with varying numbers of affinity sites.
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PMID:Separation in a single step by affinity chromatography of cholinesterases differing in subunit number. 182 97

1. Coding sequences for the human acetylcholinesterase (HuAChE; EC 3.1.1.7) hydrophilic subunit were subcloned in an expression plasmid vector under the control of cytomegalovirus IE gene enhancer-promoter. The human embryonic kidney cell line 293, transiently transfected with this vector, expressed catalytically active acetylcholinesterase. 2. The recombinant gene product exhibits biochemical traits similar to native "true" acetylcholinesterase as manifested by characteristic substrate inhibition, a Km of 117 microM toward acetylthiocholine, and a high sensitivity to the specific acetylcholinesterase inhibitor BW284C51. 3. The transiently transfected 293 cells (100 mm dish) produce in 24 hr active enzyme capable of hydrolyzing 1500 nmol acetylthiocholine per min. Eighty percent of the enzymatic activity appears in the cell growth medium as soluble acetylcholinesterase; most of the cell associated activity is confined to the cytosolic fraction requiring neither detergent nor high salt for its solubilization. 4. The active secreted recombinant enzyme appears in the monomeric, dimeric, and tetrameric globular hydrophilic molecular forms. 5. In conclusion, the catalytic subunit expressed from the hydrophilic AChE cDNA species has the inherent potential to be secreted in the soluble globular form and to generate polymorphism through self-association.
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PMID:Recombinant human acetylcholinesterase is secreted from transiently transfected 293 cells as a soluble globular enzyme. 184 51

1. In a recent study, we distinguished two classes of amphiphilic AChE3 dimers in Torpedo tissues: class I corresponds to glycolipid-anchored dimers and class II molecules are characterized by their lack of sensitivity to PI-PLC and PI-PLD, relatively small shift in sedimentation with detergent, and absence of aggregation without detergent. 2. In the present report, we analyze the amphiphlic or nonamphiphilic properties of globular AChE forms in T28 murine neural cells, rabbit muscle, and chicken muscle. The molecular forms were identified by sucrose gradient sedimentation in the presence and absence of detergent and analyzed by nondenaturing charge-shift electrophoresis. Some amphiphilic forms showed an abnormal electrophoretic migration in the absence of detergent, because of the retention of detergent micelles. 3. We show that the amphiphilic monomers (G1a) from these tissues, as well as the amphiphilic dimers (G2a) from chicken muscle, resemble the class II dimers of Torpedo AChE. We cannot exclude that these molecules possess a glycolipidic anchor but suggest that their hydrophobic domain may be of a different nature. We discuss their relationship with other cholinesterase molecular forms.
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PMID:Amphiphilic, glycophosphatidylinositol-specific phospholipase C (PI-PLC)-insensitive monomers and dimers of acetylcholinesterase. 184 52

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