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)

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

The delayed neurotoxic organophosphate [3H]diisopropylfluorophosphate ([3H]DFP) binds with high affinity to membrane-bound proteins from the chicken spinal cord. The DFP binding proteins were solubilized from membrane preparations, using a detergent (CHAPS). The protein(s) sites that labeled with a low concentration of [3H]DFP, e.g. 10(-10)-10(-9) M, were defined as the high-affinity binding sites. The density (or concentration) of the high-affinity binding sites in protein(s) was determined by the difference between total and non-specific binding. The high-affinity binding sites were saturable, and the maximal amount of binding sites was estimated at 400 fmol/mg protein. [3H]DFP binding to solubilized proteins was not completely reversible. Concentration-dependent curves suggested that the [3H]DFP binding sites differ from the active sites of acetylcholinesterase, butyrylcholinesterase, and neuropathy target esterase, as well as from muscarinic acetylcholine receptors. The amount of DFP binding sites after a neurotoxic dose of tri-o-cresyl phosphate (TOCP) decreased markedly in membrane preparations from the chicken spinal cord. These results indicate that a TOCP metabolite(s) interacts with the DFP binding sites in vivo. Gel filtration chromatography of the solubilized membranes indicated at least two major high-affinity DFP binding proteins with apparent molecular weights of 300 and 110 kDa. The DFP binding sites corresponding to the 110 kDa protein were insensitive to eserine, a potent anti-cholinesterase agent.
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PMID:Characterization of high-affinity binding sites for diisopropylfluorophosphate (DFP) from chicken spinal cord membranes. 780 97

Incidence of numerous human poisonings by quinalphos (Ekalux, Bayrusil) in agricultural areas near Belgrade initiated this study on the ability of the compound to inhibit hen brain neuropathy target esterase, acetylcholinesterase and plasma butyrylcholinesterase in vivo. Hens were treated with a single oral dose ranging from 25 to 600 mg kg-1 quinalphos (LD50 = 72 mg kg-1) or 500 mg kg-1 triorthocresyl phosphate (positive control), sacrificed 24-96 h later for enzyme assays and monitored for 25 days for evaluation of walking impairments. High inhibition (> 80%) of both cholinesterases was obtained with 25 and 50 mg kg-1 quinalphos. Doses of 200 and 600 mg kg-1 of the agent inhibited up to 23 and 28% of hen brain neuropathy target esterase activity, respectively. Clinical signs of neuropathy were not seen. Quinalphos was slowly absorbed from the gastrointestinal tract, as indicated by the severity of the cholinergic symptoms and the inhibition of neuropathy target esterase, which reached its maximum 72 and 96 h after poisoning. The results suggest that quinalphos, at doses tested, has no ability to cause delayed neuropathy in hens without showing signs of severe cholinergic intoxication.
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PMID:Studies on the delayed neuropathic and anticholinesterase potential of quinalphos (diethyl 2-quinoxalyl phosphorothionate) in hens. 825 30

The kinetics of time- and concentration-dependent covalent organophosphorus inhibition of carboxylesterase isoenzymes (EC 3.1.1.1) and cholinesterase isoenzymes (EC 3.1.1.7 and EC 3.1.1.8) were investigated using a wide range of organophosphate inhibitor concentrations (10(-10)-10(-3) mol/l) and different inhibition times. Computerized analysis of inhibition curves by weighted non-linear least-squares curve fitting was compared to graphic analysis by iterative elimination of exponential functions. Possible experimental errors due to inhibitor saturation kinetics and enzymatic organophosphate hydrolysis were thoroughly investigated. In mammalian heart muscle, three different cholinesterase isoenzymes were identified. High sensitivity and specificity of the classic differential inhibition test for carboxylesterase activity of hen brain neuropathy target esterase (NTE) could be confirmed independently with both methods of inhibition curve analysis.
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PMID:Computerized analysis of covalent inhibition kinetics for identification of heart muscle cholinesterase and brain carboxylesterase isoenzymes. Design of differential inhibition assays. 834 80

It has been thought that the phosphorus-enzyme bond in inhibited esterases inhibited by such agents as mipafox (N,N'-di-iso-propylphosphorodiamidate) was refractory to reactivating agents either because an 'aging' reaction occurs soon after inhibition or because the bond was intrinsically very strong. We have found that both acetylcholinesterase (AChE) and neuropathy target esterase (NTE) which had been inhibited with either mipafox or with a di-n-butylphosphorodiamidate could be reactivated by prolonged treatment with aqueous potassium fluoride (KF): the reaction proceeded with first-order kinetics. Furthermore there was no time-dependent loss of reactivatability (aging). Di-isopropylphosphoro-butyrylcholinesterase could be fully reactivated by this treatment but after 18 h to allow aging the monoisopropyl phosphoro-enzyme was totally refractory to KF. We conclude that it is likely that the mipafox-enzyme bond in inhibited NTE and AChE is relatively strong but that aging has not occurred. The local disturbance around the active site of NTE caused by attachment of the phosphorodiamidate molecule appears to be sufficient to initiate delayed neuropathy without necessity for an 'aging' reaction.
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PMID:Reactivation of phosphorodiamidated acetylcholinesterase and neuropathy target esterase by treatment of inhibited enzyme with potassium fluoride. 834 98

The mouse is considered to be insensitive and the hen sensitive to clinical expression of organophosphorus-induced delayed neuropathy (OPIDN) which is associated with inhibition of neuropathy target esterase (NTE). This species difference is reevaluated with two optimized inhibitors of hen brain NTE by examining them for potential neurotoxic effects in mice. 2-Octyl-4H-1,3,2-benzodioxaphosphorin 2-oxide (OBDPO) and ethyl octylphosphonofluoridate (EOPF) inhibit mouse brain NTE in vitro by 50% at 0.12 and 0.02 nM and induce neurotoxic signs in mice at 10 and 5 mg/kg, respectively. The action of these compounds in both l- and 6-month-old mice, sometimes after early transient cholinergic signs, involves ataxia, paralysis, and death in 1 to 3 days and is accordingly referred to as subacute neurotoxicity. The neurotoxic signs are associated with brain edema and severe vacuolation in the grey matter of the brain and spinal cord, particularly the neuropile. Subacute neurotoxic signs are always associated with at least 80% inhibition of brain NTE activity 16-24 hr after treatment. Acetylcholinesterase and butyrylcholinesterase are much less sensitive than NTE to inhibition by OBDPO and EOPF both in vitro and in vivo. Selected carbamates, thiocarbamates, phosphinates, and sulfanyl fluorides are prophylactic agents and dipentyl 2,2-dichlorovinyl phosphate is a promoter for OBDPO-induced subacute neurotoxicity. Although this type of neurotoxicity in mice is similar to OPIDN in the correlation with NTE inhibition and the prophylactic action of reversible NTE inhibitors, it differs from OPIDN in the delay time prior to onset, the sensitivity of both young and old animals, and the high incidence of fatality. A full neuropathological study is desirable to further characterize this subacute neurotoxicity.
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PMID:Subacute neurotoxicity induced in mice by potent organophosphorus neuropathy target esterase inhibitors. 868 3

Carbamyl sulfonate (CS) compounds are a novel class of carbamates derived from amino acid methyl esters. They have the general structure RCH(COOCH3)NH(CO)SO-3K+, where R is the sidechain of the parent amino acid. These compounds were developed as active site-directed inhibitors of human leukocyte elastase (HLE). The purpose of this study was to characterize the inhibition of hen brain neurotoxic esterase (neuropathy target esterase, NTE), horse serum butyrylcholinesterase (BuChE), and bovine erythrocyte acetylcholinesterase (AChE) by CS analogs derived from the methyl esters of L-ala, D-norval, L-norval, L-phe, L-val, L-norleu, D-met, and L-met. Bimolecular rate constants of inhibition (ki) for NTE ranged from 0.571 for L-ala-CS to 17.7 mM-1 min-1 for L-norleu-CS (10-min I50 values of 123 and 3.92 microM, respectively). Potency against NTE increased with chain length for straight-chain R-groups of L-CS compounds. Unlike HLE, NTE was only weakly stereoselective for CS compound enantiomers. The L-isomers were weaker inhibitors of BuChE than NTE (10-min I50 range of 742 to 35.6 microM). In contrast to the L-enantiomers, the I50 plots of D-met-CS and D-norval-CS were not linear for BuChE, suggesting a possible stereospecific mechanistic shift for inhibition of this enzyme, AChE was not effectively inhibited by any of the CS compounds (I50 values > 750 microM). The specificity and charged nature of CS compounds give these unusual NTE inhibitors potential advantages for mechanistic studies of organophosphorus compound-induced delayed neurotoxicity (OPIDN) and its protection or potentiation.
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PMID:Inhibition of neurotoxic esterase in vitro by novel carbamates. 907 5

White leghorn laying hens were exposed to weekly dermal applications of either 1 mg fenthion/kg (FEN; low dose) or 4 mg FEN/kg (high dose) for 24 w with the objective of evaluating chronic FEN toxicity. Four of 24 hens at the high dose exhibited transitory loss of proprioception, perching ability, and righting reflex after 8 to 16 w exposure. All hens receiving the high dose lost the ability or desire to jump from a box during the latter half of the FEN exposure period. Inhibition of serum cholinesterase and brain acetylcholinesterase was greater in the high-dose hens. Brain neuropathy target esterase was not inhibited. Behavioral changes were not correlated with changes in brain concentrations of enzymes or neurotransmitters or their metabolites. Muscle fiber abnormalities were more common in the high-dose hens. Muscle electrical activity was recorded electromyographically via telemetry. Fibrillation (denervation) potentials were absent, but amplitude times duration values for motor unit potentials of the peroneus longus muscle for 5 of the 6 4-w evaluation intervals were higher in the high-dose hens. This EMG response suggested presence of a mild neuropathy which was supported by results of ultrastructural examinations of the sciatic nerve. The low dose initially produced 8% stimulation of egg production while the high dose inhibited egg production 10% during the latter 16 w of the study and reduced body weight 8% during this period.
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PMID:Chronic fenthion toxicity in laying hens. 1050 33

Biochemical events in the initiation of organophosphorus induced delayed neurotoxicity (OPIDN) are not well understood. To find new putative target(s) for OPIDN, we investigated the biochemical and pharmacological characteristics of [3H] diisopropyl phosphorofluoridate (DFP) binding to membrane and cytosol preparations from the brain and spinal cord of hens in vitro. [3H]DFP binding to both preparations was determined by the specific binding obtained by subtracting non-specific binding from total binding. The specific binding sites of [3H]DFP were found not only on membrane but also in cytosol. Kd values were higher and Bmax values were lower in cytosol than in membrane. Moreover, the Kd values in both membrane and cytosol preparations from spinal cord were lower than those of brain. The Bmax values in membrane and cytosol were similar between brain and spinal cord. The specific binding to both preparations was markedly displaced by unlabeled DFP. The specific binding of DFP to the membrane was highly or partly displaced by organophosphorus compounds (OPs) or a carbamate, respectively. However, both the OPs and the carbamate had considerably weaker blocking effects on the specific binding of DFP to cytosol. None of the compounds known to interact with neuropathy target esterase (NTE) had a strong blocking effect on the specific binding of DFP to either membrane or cytosol. These results show that the specific binding of DFP to the membrane may be binding with cholinesterase (ChE). However, cytosol, especially in spinal cord, may have DFP binding sites other than ChE and NTE.
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PMID:A comparative study of binding sites for diisopropyl phosphorofluoridate in membrane and cytosol preparations from spinal cord and brain of hens. 1140 51

To find new putative target(s) for organophosphorus induced delayed neurotoxicity (OPIDN), we investigated the biochemical and pharmacological characteristics of [3H] diisopropyl phosphorofluoridate (DFP) binding to membrane and cytosol preparations from the brain and spinal cord of hens. Specific [3H]DFP binding was determined by subtracting non-specific binding from total binding. The binding sites of [3H]DFP, an organophosphate that induces OPIDN, were found not only on membrane but also in cytosol. Reduction of subsequent ex vivo specific [3H]DFP binding by in vivo pretreatment with unlabeled DFP was found in cytosol, not membrane. The reduced binding lasted to the onset of OPIDN, especially in spinal cord. These results suggest that the specific DFP binding sites in cytosol, rather than on membrane, are the most important with regard to the initiation of OPIDN. Inhibitors of cholinesterase (ChE) and neuropathy target esterase (NTE) other than DFP did not affect specific [3H]DFP binding to either membranes or cytosol in vivo. Additionally, inhibition of the activities of these esterases by these compounds was not consistent with either the degree of inhibition of the [3H]DFP binding or a time-dependent manner of OPIDN. These results suggest that DFP binding site(s) involved in the initiation of OPIDN may be different from the active sites of ChE and NTE.
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PMID:Correlation of binding sites for diisopropyl phosphorofluoridate with cholinesterase and neuropathy target esterase in membrane and cytosol preparations from hen. 1140 52

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