EC:3.1.1.8 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.8 (cholinesterase)
12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In 25 years, at least eight of 50 total exposed employees in a small plant developed a mild neuropathy. Studies of urine or blood for lead, arsenic, mercury, cadmium, thallium, and antimony revealed no sign of toxic agents, but the atmosphere in one room contained toxic levels of n-hexane. The sourse was the glue used in the plant. Serum cholinesterase levels were reduced, offering a possible laboratory tests to alert clinicians to the possibility of n-hexane exposure. All patients recovered completely. Mechanical and administrative adjustments should prevent such industrial accidents.
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PMID:Polyneuropathy due to n-hexane. 18 98

Hydrophobity (coefficient in distribution in the hexane water system) and the content of cholinesterase organophosphorous inhibitors (OPI) of the structure Ro (CH3) P (O) SC2H4 SC2H5 were studied in the rat brain. When the O-alkyl radical is increased hydrophobity rises and the relative content of free OPI in the brain extracted by chloroform decreases. With an increase in R from the ethyl to butyl one the ability to the additional inhibition of the brain own cholinesterase lowers due to incubation of homogenate at 37 degrees C, that evidences for an essential drop in the studied series of the free OPI fraction relative to the free OPI extracted by chloroform.
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PMID:[Binding of phosphoorganic cholinesterase inhibitors in rat brain tissue]. 98 15

The article deals with the hydrophobic character (distribution coefficient in the systems hexane - water and chloroform - water) and certain peculiarities of distributing three cation-containing phosphoroganic inhibitors of cholinesterase and their uncharged analogues in the organisms. The distribution coefficients in the charged and uncharged compounds in the system hexane - water differ inconsiderably, whereas in the system chloroform-water by the thousands and millions times. In rabbits with intravenous administration the content of all inhibitors in blood decreases rapidly, the uncharged compounds accumulate selectively in the lungs and the charged ones are distributed evenly in the tissues.
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PMID:[The distribution of cholinesterase charged phosphorganic inhibitors and their uncharged analogues in tissues]. 120 7

This article reviews the biological indicators available for monitoring human neurotoxicity by exogenous chemicals with reference to the phases in which the neurotoxic process takes place, namely delivery, receptor-linkage, and toxicodynamic phase. Among the delivery phase tests, indicators are available for metals (lead, mercury) and some organic substances (CS2, n-hexane, DDT, etc.), but a correlation between neurotoxic effects and these indices is rather loose or not yet proved. The receptor-phase tests comprise well known enzymes, such as cholinesterase, less known but promising indicators, such as neuropathy target esterase (NTE), and new tools under study, such as acrylamide-hemoglobin adducts or 2,5-hexanedione-protein adducts. The toxicodynamic phase tests, which mainly consist of measuring substances released from the nervous system, have provided so far rather poor results, but more specific techniques of measurement (monoclonal antibodies) could offer new possibilities in the future.
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PMID:Biological indicators of neurotoxicity in central and peripheral toxic neuropathies. 307 8

Adult male rats were subjected to 4 weeks' respiratory treatment with n-hexane (5000 ppm, 16h/day, 6 days/week); motor conduction velocity was significantly decreased in tail nerves at all weekly intervals and did not approach normal values in the 4 weeks following interruption of treatment. Plasma acetylcholinesterase (AChE) levels were significantly increased at all weekly intervals during treatment (25-40%); 2 weeks after the end of treatment they had returned to baseline. Oral treatment with 2,5-hexanedione (HD) (1% in drinking water) caused a similar increase in plasma levels; this increase was statistically significant also when compared with pair-fed (PF) control rats. A sucrose density gradient analysis showed only one peak of AChE activity at approximately 10 S (as in normal plasma). The levels of butyrylcholinesterase were unaltered in plasma of both n-hexane-and HD-treated rats. Both the fast-contracting EDL and the slow-contracting soleus muscles lost weight in HD-treated rats with respect to free-fed (AL) and PF controls. AChE levels responded differently to HD treatment in the two muscle types: in EDL total extracts, AChE activity increased considerably with respect to AL controls (+ 70%, p less than 0.001), while the levels of the 16 S and 4 S molecular forms were unaltered. The increased levels of AChE found in plasma of rats intoxicated with n-hexane or with its metabolite HD may originate from muscle and correspond to an increased secretion of this molecular form.
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PMID:Cholinesterases in blood plasma and tissues of rats treated with n-hexane or with its neurotoxic metabolite 2,5-hexanedione. 343 86

Commercial hexane was concentrated by distillation. The distillation residue (0.43 ml/l original solvent) contains material which inhibits human serum cholinesterase (ChE) "in vitro" with a slight effect on acetylcholinesterase. Phosphorus was detected equivalent to 0.33 mumol monophosphorus compound/litre original solvent. The inhibition was progressive with the enzyme-inhibitor preincubation time. A partial reactivation of the inhibited enzyme was obtained by treatment with hydroxylamine and 2-PAM. The results are coherent with a covalent inactivation by more than one inhibitor which acylate (probably phosphorylate) ChE, although it seems likely that a reversible but unstable inhibitor could also be present in the hexane residue. The results are discussed in the context of the known neurotoxic effects of n-hexane and some organophosphorus esters.
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PMID:Serum cholinesterase inhibitors in the commercial hexane impurities. 688 13

The toxic effects of i.p. administered n-hexane and n-heptane on biochemical processes in rat liver, as indicated by the increase in alkaline phosphatase activity and decrease in FDP aldolase activity, and their reflection on blood chemistry, were studied. Serum cholinesterase activity and albumin and cholesterol content showed statistically significant decreases with the increase in FDP aldolase activity. The significance of the findings is discussed.
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PMID:Toxicity of n-hexane and n-heptane: some biochemical changes in liver and serum. 716 75

2,5-Hexanedione is a n-hexane metabolite with neurotoxic properties. We have previously demonstrated that acute administration of 2,5-hexanedione causes analgesia in the tail-flick test in rats. In the present investigation, we examined the possible involvement of a cholinergic component in the 2,5-hexanedione-induced antinociception, since literature data indicate that this hexacarbon compound may act as a competitive inhibitor of acetylcholinesterase and that cholinesterase inhibitors are analgesic to rodents. Rats were treated with saline or with 5 or 25 mg/kg atropine (intraperitoneally) 10 min. before the injection of vehicle or 800 mg/kg 2,5-hexanedione (intraperitoneally). 2,5-Hexanedione caused a significant increase in tail-flick latencies at 10, 30, 60 and 90 min. after hexacarbon injection. Atropine (5 or 25 mg/kg) partially reversed the analgesia caused by 2,5-hexanedione at 60 and 90 min. When effects of 2,5-hexanedione on brain acetylcholinesterase was assessed in vitro, the results demonstrated that a competitive component is involved in enzyme inhibition. Taken together, these data support the involvement of a cholinergic (muscarinic) component in 2,5-hexanedione-induced analgesia.
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PMID:Atropine reverses antinociception induced by 2,5-hexanedione in rats. 858 10

To examine the effects of occupational and environmental neurotoxicants on vestibular, cerebellar and spinocerebellar functions, the following three groups of subjects were examined, using a computerized posturography with sway frequency analysis: (1) 49 male chemical factory workers exposed to lead stearate, aged 27-63 (mean 43) years, with concurrent blood lead concentrations (BPbs) of 11-113 (mean 48) microg/100 g and past mean BPbs of 7-52 (mean 24) microg/100 g; (2) 29 male sandal, shoe and leather factory workers, aged 35-73 (mean 51) years, with urinary 2,5-hexanedione (HD) concentrations of 0.41-3.06 (mean 1.20) mg/g creatinine; and (3) 9 females, aged 19-58 (mean 29) years, who were exposed to sarin accidentally 6-8 months before the study (Tokyo Subway Sarin Poisoning, March 20,1995) and showed plasma cholinesterase (ChE) activities of 13-95 (mean 68) IU/l on the day of poisoning. The pattern of posturographic changes in lead workers suggested that the vestibulocerebellum (lower vermis), anterior cerebellar lobe and spinocerebellar afferent pathway were asymptomatically affected; the vestibulocerebellar change reflected concurrent lead absorption and the anterior cerebellar one reflected past absorption. Similarly, vestibulocerebellar and spinocerebellar functions were affected by n-hexane in solvent workers; the effect on the vestibulocerebellar function was probably inhibited by xylene. Also, the chronic (long-term) effect on the vestibulocerebellar function persisted in acute sarin poisoning. It is thus suggested that the vesitibulocerebellar function is most sensitive to all the three chemicals examined. It appears that the computerized posturography with frequency analysis is a useful technique for assessment of vestibular, cerebellar and spinocerebellar effects in occupational and environmental health.
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PMID:Computerized posturography with sway frequency analysis: application in occupational and environmental health. 1192 10

Enantiomers of leptophos were separated by high-performance liquid chromatography with a Whelk-O1 column using 3% dichloromethane in n-hexane as mobile phase. Toxicity tests of leptophos enantiomers and racemate were performed with daphnia. Enzyme inhibition of leptohpos was carried out by using butyryl cholinesterase from horse serum and acetylcholinesterase from housefly heads. From the inhibition test of butyrylcholinesterase, the half-inhibitory concentrations, IC(50), of (+)-leptophos, (-)-leptophos, and (+/-)-leptophos were 0.241, 1.17, and 1.05 gmL(-1), respectively. No significant difference in IC(50) in (-)-leptophos and (+/-)- leptophos was found. However, the IC(50) of (+)-leptophos was significantly different from those of the others. In the inhibition test of acetylcholinesterase, the IC(50) values of (+)-leptophos, (-)-leptophos, and (+/-)-leptophos were 14.01, 24.32, and 13.22 gmL(-1), respectively. There was no significant difference in IC(50) in (+)-leptophos and (+/-)-leptophos, although the IC(50) of (-)-leptophos was significantly different from those of the others. From these results, leptophos-both enantiomers and racemate-seems to have higher neurotoxicity for mammals than for the target insects. In the toxicity test of daphnia, the half-lethal concentrations, LC(50), of (+)-leptophos, (-)-leptophos, and (+/-)-leptophos were 0.0387, 0.802, and 0.0409 gL(-1), respectively. There is no significant difference in LC(50) in (+)-leptophos and (+/-)-leptophos. The LC(50) of (-)-leptophos is significantly higher than those of the others. From these results, (-)-leptophos has lower toxicity to daphnia.
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PMID:Separation and toxicity of enantiomers of organophosphorus insecticide leptophos. 1274 74

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