Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.7 (acetylcholinesterase)
 28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Toxicological findings in 1,345 fatal general aviation accidents from fiscal year 1968 through 1974 are summarized. Methods used in examination of specimens for alcohol, drugs, carbon monoxide, cyanide, and cholinesterase activity are described. Blood ethanol levels in excess of 0.050% were found in 117 of the 1,345 pilots (8.7%). Drugs were found in 16 cases (1.2%). These and other toxicological findings indicate that in more than 40% of the cases, information worthy of consideration in developing the human-factors history of an accident or the cause of death from survivable crashes was obtained.
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PMID:Toxicological findings in fatal civil aviation accidents, fiscal years 1968-1974. 116 35

The acetylcholinesterase (AChE) activity in striatum rat was determined before and shortly after death using the in vivo microspectrophotometric method. This technique allowed us to monitor the Ellman colorimetric reaction directly inside the brain using an optical probe implanted in a live animal and to determine locally the AChE activity. Whatever the cause of the animals death, we observed a drastic postmortem decrease of the AChE activity of about 35-50%, 10 min after death. We have verified that the postmortem decrease of brain temperature or pH and postmortem optical properties changes could only explain a fraction of the AChE activity fall (16%). This phenomenon seems to be related to events strictly localized at the cellular level, since local injection of cyanide at the measuring site promotes a decrease of the enzymatic activity (40%) close to the levels observed after death. The origin of this rapid postmortem fall of the AChE activity is discussed. The technical properties of the microspectrophotometric method exclude a decrease of the ectocellular pool of enzyme after death. Our results allow us to envisage the existence of an in vivo endogenous regulation of the AChE activity which disappears shortly after death.
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PMID:Rapid postmortem decrease in the ectocellular acetylcholinesterase activity in rat striatum as assessed by in vivo microspectrophotometry. 181 33

In rats treated with sodium cyanide (5-20 mg/kg, ip) dopamine was dose dependently decreased in the striatum within 60 sec. One of the main metabolites of dopamine in the central nervous system, 3-methoxy-4-hydroxyphenylacetic acid (HVA), was decreased in striatum, olfactory tubercle, and hippocampus. However, the oxidatively deaminated metabolite, 3,4-dihydroxyphenylacetic acid (DOPAC), was not significantly altered in any of the brain regions studied. Naturally occurring levels of 3,4-dihydroxy-L-phenylalanine (L-dopa), as well as L-dopa accumulated after inhibition of the neuronal L-aromatic amino acid decarboxylase, increased in cyanide-treated rats. The dopamine receptor antagonist spiperone (0.05 mg/kg, ip) slightly increased the survival in acute cyanide intoxication. Sodium cyanide increased the levels of glutamine in frontal cortex and striatum at all doses studied. Glutamic acid was increased in the cerebellum, striatum, and hippocampus after sodium cyanide (5-10 mg/kg, ip). Higher doses decreased glutamic acid in the cerebellum, the frontal cortex, and the striatum. gamma-Aminobutyric acid (GABA) concentrations were diminished at high doses in all regions studied. Cyanide increased the levels of cyclic GMP in the cerebellum. In the striatum cyclic GMP was decreased after sodium cyanide (10 and 20 mg/kg). No significant alterations in the concentrations of acetylcholine or choline were seen in the striatum of cyanide-treated rats. The acetylcholinesterase inhibitor physostigmine and the muscarinic receptor antagonist atropine decreased the survival of mice given sodium cyanide. Acute cyanide intoxication thus produces rapid and fairly specific changes in central dopaminergic and GABA-ergic pathways.
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PMID:Acute cyanide intoxication and central transmitter systems. 286 59

The effects of acute exposure to acrylonitrile (ACN), 10, 20, or 40 mg/kg by gavage, on the ability of metrazol (MTZ) to induce seizures was studied in adult, male Sprague-Dawley rats. The frequency of seizure occurrence and the frequency of a lethal seizure was greater when the high ACN dosage was given in combination with metrazol. This dosage of ACN was not lethal when given alone. Examination of brain tissue in these animals revealed no difference in cyanide levels when MTZ was combined with ACN. However, brain cytochrome c was significantly lower in animals given ACN+MTZ and brain cholinesterase was significantly higher. These results suggest that the enhanced lethality occurring in animals exposed to the combination of ACN+MTZ is not due to cyanide, a metabolic product of ACN, but rather to a potentiation of other effects of ACN perhaps involving cholinergic neurotransmission.
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PMID:Effect of acute acrylonitrile exposure on metrazol induced seizures in the rat. 298 62

Acetylcholine and choline release was measured by using an automated and modified version of the chemiluminescence technique of Israel & Lesbats [(1981) Neurochem. Int. 3, 81-90]. A comparison of acetylcholine and choline release from synaptosomes demonstrated that acetylcholine release was K+-stimulated and inhibited by the Ca2+ ionophore A23187 and cyanide. Choline release, however, did not vary markedly under different conditions, suggesting that it is not associated with acetylcholine release at the nerve ending. Total acetylcholine synthesis in synaptosomal preparations was measured concurrently with the incorporation of [14C]acetyl and [3H]choline moieties by using the chemiluminescence method. Under sub-optimal glucose concentrations or in the absence of treatment of the synaptosomes with the acetylcholinesterase inhibitor phospholine, the incorporation of radioactivity exceeded total synthesis, indicating that cycling between acetylcholine and its precursors may occur. After treatment with phospholine, acetyl-group incorporation from D-[U-14C]glucose occurred without dilution of the precursor at optimal (1.0 mM) and low (0.1 mM) glucose concentrations; however, at very low (0.01 mM) glucose concentrations, dilution by a small endogenous pool occurred. [14C]Acetyl incorporation into acetylcholine was compared with various metabolic parameters. A closer correlation was observed between [14C]acetyl-group incorporation into acetylcholine and the calculated acetyl-carrier efflux from the mitochondria than with the calculated pyruvate-dehydrogenase-complex flux. The results are discussed with respect to the regulation of acetylcholine concentrations at the synapse and the mechanism whereby turnover occurs.
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PMID:Compartmentation and regulation of acetylcholine synthesis at the synapse. 309 Oct 3

Male and female F344/N rats and B6C3F1 mice were exposed to lethal and sublethal concentrations of methyl isocyanate by inhalation. Mortality, clinical signs, body and organ weights, and changes in clinical pathology and hematology were monitored immediately after 2-hr exposures and during the ensuing 3 months. Additional studies investigated the possible involvement of cyanide in the toxicity of methyl isocyanate. During exposures, signs of restlessness, lacrimation, and a reddish discharge from the nose and mouth were evident in rats and mice. Following exposures, rats and mice were dyspneic and weak. Deaths of rats and mice exposed to lethal concentrations (20 to 30 ppm) began within 15-18 hr, with males more prone to early death than females. A second wave of deaths occurred after 8 to 10 days, affecting primarily female rats and mice exposed to 20 to 30 ppm of methyl isocyanate, and male and female rats exposed to 10 ppm. Most deaths occurred during the first month following the exposures and were preceded by periods of severe respiratory distress. Body weights decreased in proportion to dose early, but then weight gain resumed in survivors at control rates. The only organ with a consistent, dose-related weight change was the lung, which was heavier throughout the studies in animals exposed to high concentrations of methyl isocyanate. No significant clinical pathology, or hematologic changes were observed in exposed rats. Blood and brain cholinesterase were not inhibited. Studies attempting to measure cyanide in the blood of methyl isocyanate-exposed rats, and attempting to affect lethality with a cyanide antidote (sodium nitrite and sodium thiosulfate) gave negative results.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Toxicity of inhaled methyl isocyanate in F344/N rats and B6C3F1 mice. I. Acute exposure and recovery studies. 362 44

Primary cultures of bovine adrenomedullary cells actively take up ascorbic acid and alpha-aminoisobutyric acid (AIB). Following a brief incubation with L-[14C] ascorbic acid and alpha-[methyl-3H]aminoisobutyric acid, cells stimulated with the nicotinic agonist 1,1-dimethyl-4-phenylpiperazinium iodide or by membrane depolarization with high [K+] or veratridine released newly acquired ascorbic acid (NA-ascorbate) and AIB. NA-ascorbate and endogenous catecholamines are differentially released under a variety of conditions suggesting that release of both substances cannot originate from the same subcellular compartment. In contrast, the release profile for NA-ascorbate and AIB, a putative cytosolic marker, suggest that both of these molecules are released from a cytosolic compartment. Cells permeabilized with the detergent digitonin release catecholamines only in the presence of external Ca2+, whereas release of NA-ascorbate and AIB is Ca2+-independent and time- and detergent concentration-dependent. If the osmolality of the external medium is made either hyper- or hypoosmotic, 1,1-dimethyl-4-phenylpiperazinium iodide-induced release of endogenous catecholamines is inhibited. Release of NA-ascorbate and AIB, however, is progressively inhibited with increasing osmolality and enhanced with decreasing osmolality. Furthermore, differential release of NA-ascorbate and AIB as compared to soluble acetylcholinesterase, which is apparently released form the cisternae of the endoplasmic reticulum, was also observed. To determine the mechanism by which NA-ascorbate and AIB are released from the cell, the requirements for their maximal release were investigated. Release of NA-ascorbate and AIB was sensitive to inhibitors (both metabolic and transport) and to changes in the external ionic environment. The metabolic inhibitors carbonyl cyanide p-trifluoromethoxyphenylhydrazone and KCN (when incubated simultaneously with 2-deoxyglucose) inhibited NA-ascorbate and AIB release by greater than 75%. In contrast, the Na+-K+-ATPase inhibitor ouabain enhanced veratridine-induced release of NA-ascorbate by nearly 100% and had an even greater effect on AIB release. Changes in the external ionic environment (i.e. Na+ and/or Cl- substitution) inhibited both NA-ascorbate and AIB release to varying degrees. Substitution of Cl- by various anions inhibited NA-ascorbate and AIB release to a much greater degree than endogenous catecholamine release. Complete substitution of NaCl with sucrose inhibited release of NA-ascorbate and AIB release by greater than 80%, while Na+ substituted with Li+ inhibited release of all three molecules by about 50%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evidence for the release of newly acquired ascorbate and alpha-aminoisobutyric acid from the cytosol of adrenomedullary chromaffin cells through specific transporter mechanisms. 365 52

Male Sprague-Dawley rats injected s.c. with an acute non-lethal dose (200 micrograms/kg) of ethyl N,N-dimethylphosphoramidocyanidate (tabun) showed onset of hypercholinergic activity within 10-15 min. The maximal severity of toxicity signs was evident within 0.5-1 h and persisted for 6 h. Except for mild tremors no overt toxicity signs were evident after 24 h. Within 1 h a dramatic decline of acetylcholinesterase (AChE) activity occurred in all the brain structures (less than 3%) and skeletal muscles (less than 10% in soleus and hemi-diaphragm; and 32% in extensor digitorum longus (EDL)). No significant recovery was seen up to 48-72 h. Within 7 days rats became free of toxicity signs and AChE activity had recovered to about 40% in brain structures (except cortex, 14%) and 65-70% in skeletal muscles. Within 1 h the 16 S molecular form of AChE located at the neuromuscular junction was most severely inhibited in soleus, followed by hemi-diaphragm and least in the EDL, and had fully recovered in all the muscles when examined after day 7. Muscle fiber necrosis developed within 1-3 h in soleus and hemi-diaphragm and after a delay of 24 h in EDL. The highest number of necrotic lesions in all muscles was seen at 72 h with the hemi-diaphragm maximally affected and EDL the least. To determine detoxification of tabun by non-specific binding, the activity of butyrylcholinesterase (BuChE) and carboxylesterase (CarbE) was measured. The inhibition and recovery pattern of BuChE activity was quite similar to that of AChE, except that the rate of recovery was more rapid. Within 1 h the remaining activity of CarbE was 10% in plasma, about 30% in brain structures, and 79% in liver; recovery was complete within 7 days. The inhibition of BuChE and CarbE can serve as a protective mechanism against tabun toxicity by reducing the amount available for AChE inhibition. The prolonged AChE inhibition in muscle and brain may indicate storage of tabun and delayed release from non-enzymic sites. Since tabun is a cyanophosphorus compound, the toxic effects from the released cyanide (CN) could be another reason for the delayed recovery after tabun.
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PMID:Acute tabun toxicity; biochemical and histochemical consequences in brain and skeletal muscles of rat. 367 38

HI 6 has been shown to be efficacious in soman intoxication of laboratory animals by reactivation of acetylcholinesterase. To assess possible risks involved in the administration of HI 6 its degradation products were analyzed at pH 2.0, 4.0, 7.4, and 9.0. At pH 2.0, where HI 6 in aqueous solution has its maximal stability, attack on the aminal-acetal bond of the "ether bridge" predominates, with formation of formaldehyde, isonicotinamide, and pyridine-2-aldoxime. Besides, HI 6 decomposes at the oxime group yielding 2-cyanopyridine. Liberation of hydrocyanic acid at pH 2.0 is below 5%. At pH 7.4, primary attack is on the oxime group, resulting in formation of the corresponding pyridone via an intermediate nitrile. The pyridone has been isolated and identified as 2-pyridinone, 1-[(4-carbamoylpyridinio)methoxy)methyl)formate. This major metabolite deaminates further to the 2-pyridinone, 1-[(4-carboxypyridinio)methoxy)methyl) derivative, which ultimately decomposes into formaldehyde, isonicotinic acid, and 2-pyridone. Hydrolysis of the acid amide group probably also occurs with HI 6 itself. Significant amounts of free hydrocyanic acid were only detected in the presence of an alkali trap; otherwise hydrocyanic acid reacts with formaldehyde to yield hydroxyacetonitrile from which hydrocyanic acid can be liberated again. Up to 0.6 equivalents of hydrocyanic acid were evolved at pH 7.4. After repetitive administration and impaired renal elimination of HI 6, e.g. during renal shock, there might be some risk of cyanide intoxication.
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PMID:Studies on the decomposition of the oxime HI 6 in aqueous solution. 382 94

1. The methods for the assay of choline acetyltransferase were based on the reaction between labelled acetyl-CoA and unlabelled choline to give labelled acetylcholine. 2. Both synthetic acetyl-CoA and acetyl-CoA formed from sodium [1-(14)C]acetate or sodium [(3)H]acetate by incubation with CoA, ATP, Mg(2+) and extract from acetone-dried pigeon liver were used. 3. [1-(14)C]Acetylcholine was isolated by extraction with ketonic sodium tetraphenylboron. 4. [(3)H]Acetylcholine was precipitated with sodium tetraphenylboron to remove a ketone-soluble contaminant in sodium [(3)H]acetate and then extracted with ketonic sodium tetraphenylboron. 5. The values of choline acetyltransferase activity obtained in the presence of sodium cyanide or EDTA and synthetic acetyl-CoA were similar to those obtained with acetyl-CoA synthesized in situ. 6. The assay of acetylcholinesterase was based on the formation of labelled acetate from labelled acetylcholine. The labelled acetylcholine could be quantitatively removed from the acetate by extraction with ketonic sodium tetraphenylboron. 7. The methods were tested with samples from central and peripheral nervous tissues and purified enzymes. 8. The blank values for choline acetyltransferase and acetylcholinesterase corresponded to the activities in 20ng. and 5ng. of brain tissue respectively.
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PMID:Radiochemical micro assays for the determination of choline acetyltransferase and acetylcholinesterase activities. 498 85


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