Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

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

The inhibitory power of organophosphorus compounds in vitro was compared against neurotoxic esterase (also known as neuropathy target esterase, NTE), acetylcholinesterase and carboxylesterase activities in brains from chickens, turkeys, quail and rats. Brains from the species most susceptible to clinical signs of organophosphorus-induced delayed neuropathy (chicken, turkey) contained more NTE than did rat and quail. Higher concentrations of organophosphorus compounds were required to inhibit rat NTE and quail acetylcholinesterase than were necessary for inhibition of these enzymes in chicken and turkey brains. Total carboxylesterase and acetylcholinesterase activities were less in rats than in the avian species.
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PMID:Comparative sensitivities of avian neural esterases to in vitro inhibition by organophosphorus compounds. 357 51

Cyclic phenyl saligenin phosphate (PSP) proved to be a potent delayed neurotoxin, eliciting clinical disease and lesions, and depressing neuropathy target esterase and plasma cholinesterase at much lower doses than the protoxicant tri-ortho-tolyl phosphate (TOTP). Using adult White Leghorn chickens, we noted qualitative similarities in clinical signs and peripheral nerve and spinal cord lesions elicited by PSP and the TOTP. Ataxia and weakness were prominent clinical effects. Lesions began as a distal axonopathy affecting larger myelinated fibers in spinal cord white matter and peripheral nerve. The latter were studied in detail. Major features of the lesion were intra-axonal collections of mitochondria, dense and lamellar bodies, and granular degeneration of neurofilaments. These led to Wallerian-like degeneration. Percentages of teased peripheral nerve fibers demonstrating such degeneration correlated with severity of clinical signs.
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PMID:Neuropathological effects of phenyl saligenin phosphate in chickens. 360 Dec 42

Dilute solutions in cold dry ethyl acetate of 98-100% pure specimens of each of the four stereoisomers of soman were tested against enzymes in hen brain homogenate at 37 degrees and pH 8.0. Rate constants for progressive inhibition of acetylcholinesterase were 10(7)-10(8)/mole/min for both P(-) isomers and less than 10(5) for both P(+) isomers. All isomers inhibited neuropathy target esterase non-progressively to some degree. Rate constants for progressive inhibition of neuropathy target esterase were 2.7-3.8 X 10(5)/mole/min for C(-) P(+) and 2-6 X 10(4) for the others. Forced reactivation by KF was 90% initially and aging was slow in each case. Spontaneous reactivation of inhibited neuropathy target esterase was substantial during 18 hr for both P(-) isomers but not for P(+). By comparison of rate constants for the two enzymes we predict that pure P(+) isomers may cause delayed neuropathy in hens dosed at about unprotected LD50: prophylaxis and therapy against acute cholinergic effects would have to raise LD50 1000-fold before birds could tolerate potentially neuropathic doses of P(-) isomers.
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PMID:Interaction of the four stereoisomers of soman (pinacolyl methylphosphonofluoridate) with acetylcholinesterase and neuropathy target esterase of hen brain. 400 9

Phosphamidon (PSM) is an organophosphorus insecticide widely used in agriculture. This study was undertaken to examine the interaction of PSM with acetylcholinesterase (AChE) and neuropathy target esterase (NTE) of hen brain in vitro and in vivo. PSM was a potent inhibitor of AChE, with an I50 of 2.9 microM and second-order rate constant (ka) of 1.2 x 10(4) M-1 min-1 at 37 degrees C. PSM-inhibited AChE aged rapidly (t1/2 = 1.9 h). Pyridinium oximes pralidoxime, trimedoxime, obidoxime and HI-6 were effective reactivators of PSM-inhibited AChE, providing up to 75% reactivation. PSM was one of the weakest inhibitors of NTE among organophosphorus compounds, with an I50 of 19 mM and ka of 1.8 M-1 min-1 at 37 degrees C. Inhibited NTE did not reactivate spontaneously and KF-induced reactivation was not obtained even at the earliest tested moments, so it was not clear whether aging of PSM-inhibited NTE occurred very quickly or the KF molecule could not affect the stability of phosphoryl-NTE bond. From the ratio of kas for NTE and AChE (0.00015) it was predicted that delayed neuropathic effects of PSM in vivo would appear only at doses far above the acute LD50. The LD50 value of PSM p.o. for hens was 9 mg/kg. Hens were treated with a single oral dose of PSM, combined with standard antidotal treatment which included atropine, physostigmine, pralidoxime and anticonvulsant midazolam. Doses of 90 and 250 mg/kg caused up to 27% and 45% NTE inhibition 48 h after poisoning, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of phosphamidon with neuropathy target esterase and acetylcholinesterase of hen brain. 749 83

Chlorpyrifos (diethyl 3,5,6-trichloro-2-pyridyl phosphorothionate) is a broad-spectrum organophosphorus (OP) insecticide. Anticipated increases in the already extensive use of this compound have prompted this reassessment of its neurotoxicity. Because chlorpyrifos and other OP insecticides are designed to produce acute cholinergic effects through inhibition of acetylcholinesterase (AChE) and some OP compounds can cause OP compound-induced delayed neurotoxicity (OPIDN) via chemical modification of neurotoxic esterase (neuropathy target esterase, NTE), this review focuses on the capacity of chlorpyrifos to precipitate these and other adverse neurological consequences. Chlorpyrifos exhibits only moderate acute toxicity in many mammalian species, due largely to detoxification of the active metabolite, chlorpyrifos oxon, by A-esterases. Rats given large doses of chlorpyrifos (sc in oil) have prolonged inhibition of brain AChE, possibly due to slow release of the parent compound from a depot. Associated cognitive and motor deficits return to normal well before recovery of AChE activity and muscarinic receptor down-regulation, as expected from classic tolerance. Controlled studies of OP compound exposures in humans also indicate that cognitive dysfunction requires substantial AChE inhibition. Information is relatively sparse on neurological dysfunction that is secondary to theoretical reproductive, developmental, or immunological effects, but the best available data indicate that such effects are unlikely to result from exposures to chlorpyrifos. In accord with the much greater inhibitory potency of chlorpyrifos oxon for AChE than for NTE, clinical reports and experimental studies indicate that OPIDN from acute exposures to chlorpyrifos requires doses well in excess of the LD50, even when followed by repeated doses of the OPIDN potentiator phenylmethanesulfonyl fluoride (PMSF). Likewise, studies in hens show that subchronic exposures at the maximum tolerated daily dose do not result in OPIDN. Although exposure to chlorpyrifos as a result of normal use is unlikely to produce classical OPIDN, a recent report stated that mild reversible sensory neuropathy had occurred in eight patients who had been exposed subchronically to unknown amounts of chlorpyrifos. It is not clear whether these cases represent an incorrect linkage of cause and effect, a newly disclosed reversible sensory component of OPIDN, or an entirely new phenomenon. The question of the potential for chlorpyrifos to cause this mild sensory neuropathy could be resolved by the use of quantitative tests of sensory function in animal experiments and/or prospective studies of humans with known exposures to chlorpyrifos.
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PMID:Assessment of the neurotoxic potential of chlorpyrifos relative to other organophosphorus compounds: a critical review of the literature. 753 75

1. Activities of acetylcholinesterase (AChE), neuropathy target esterase (NTE), and carboxylesterase (CbxE) were compared in neuroblastoma cells of human origin (SH-SY5Y) and murine origin (NB41A3). 2. Mouse neuroblastoma cells had lower specific activities of NTE and CbxE than did human neuroblastoma cells; specific activities in the murine cells correlated with specific activities in mouse brain. 3. AChE activities in mouse and human neuroblastoma cells were considerably lower than AChE activities in mouse or hen brain. 4. Inhibition of esterases did not demonstrate interspecies differences for 12 of the 17 anti-esterase compounds tested with human and mouse neuroblastoma cells.
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PMID:Esterase comparison in neuroblastoma cells of human and rodent origin. 755 40

Methamidophos (O,S-dimethyl phosphorothioamidate) causes polyneuropathy in man and hens. However, experiments in the hen show that lower doses of methamidophos either protect from or promote the neuropathy caused by certain organophosphates. The initiation of neuropathy as well as protection from neuropathy are thought to be related to neuropathy target esterase (NTE), whereas promotion is likely to be due to interactions with another unknown target. Methamidophos is a racemate and we report studies with its resolved optical isomers, aimed at elucidating which isomer is responsible for the described effects. The time-course of acetylcholinesterase (AChE) and NTE activity in nervous tissues of hens after inhibition by single doses of either isomer showed that after D-(+) methamidophos (25 mg/kg PO) peak inhibition of both enzymes was achieved within 24 h (80-90%). However, after L-(-) methamidophos (15 mg/kg PO), peak inhibition (80-90%) was obtained within 24 h for AChE, whereas similar NTE inhibition (120 mg/kg PO) was observed only 4 days after dosing. The minimal neuropathic doses of D-(+) and L-(-) methamidophos were 60 and 120 mg/kg PO, respectively, and correlated with > 80% NTE inhibition in nervous tissues. OPIDP initiation by either isomer was slightly promoted by phenylmethanesulfonyl fluoride (120 mg/kg SC). D-(+) Methamidophos (25 mg/kg PO) partially protected from dibutyl dichlorovinyl-phosphate (DBDCVP) neuropathy (up to 0.8 mg/kg SC). This effect correlated with about 70% NTE inhibition. L-(-) Methamidophos (15 or 60 mg/kg PO) did not protect from DBDCVP neuropathy (0.2-0.8 mg/kg SC).
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PMID:Organophosphate polyneuropathy and neuropathy target esterase: studies with methamidophos and its resolved optical isomers. 765 38

1. Organophosphates can cause acute toxicity, which follows inhibition of acetylcholinesterase (AChE), or delayed neuropathy, which follows inhibition of neuropathy target esterase (NTE). 2. Human neuroblastoma SH-SY5Y cells contain AChE and NTE. 3. Organophosphates actively able to inhibit AChE in animal models inhibited AChE in neuroblastoma cells. 4. Inhibition of NTE in neuroblastoma cells could identify active organophosphates capable of causing delayed neuropathy in animal models and distinguish these organophosphates from those that do not cause delayed neuropathy in animal models.
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PMID:Using neuroblastoma cell lines to address differential specificity to organophosphates. 767 43

Inhibition of neuropathy target esterase (NTE, neurotoxic esterase) and acetylcholinesterase (AChE) activities was compared in brain and spinal cords of adult While Leghorn hens and adult male Long Evan rats 4-48 hr after administration of triortho-tolyl phosphate (TOTP po, 50-500 mg/kg to hens; 300-1000 mg/kg to rats), phenyl saligenin phosphate (PSP im 0.1-2.5 mg/kg to hens; 5-24 mg/kg to rats), mipafox (3-30 mg/kg ip to hens and rats), diisopropyl phosphorofluoridate (DFP sc, 0.25-1.0 mg/kg to hens; 1-3 mg/kg to rats), dichlorvos (5-60 mg/kg ip to hens; 600-2000 mg/kg to rats), and carbaryl (300-560 mg/kg ip to hens; 30-170 mg/kg to rats). Inhibitions of NTE and AChE were dose-related after administration of all compounds to both species. Hens and rats given TOTP, PSP, mipafox, and DFP demonstrated delayed neuropathy 3 weeks later, with spinal cord lesions and clinical signs more notable in hens. Ratios of NTE/AChE inhibition in hen spinal cord, averaged over the doses used, were 2.6 after TOTP, 5.2 after PSP, 1.3 after mipafox, and 0.9 after DFP, which contrast with 0.53 after dichlorvos, 1.0 after malathion, and 0.46 after carbaryl. Rat NTE/AChE inhibition ratios were 0.9 after TOTP, 2.6 after PSP, 1.0 after mipafox, 0.62 after DFP, 1.3 after dichlorvos, 2.2 after malathion, and 1.1 after carbaryl. The lower NTE/AChE ratios in rats given dosages of the four organophosphorus compounds that caused delayed neuropathy interferred with survival, an effect that was not a problem in hens.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the relative inhibition of acetylcholinesterase and neuropathy target esterase in rats and hens given cholinesterase inhibitors. 771 47


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