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Query: EC:3.1.1.5 (
neuropathy target esterase
)
1,070
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Organophosphorus compounds can cause two distinct toxic effects: acute, which are the consequence of
acetylcholinesterase
(
AChE
) inhibition and delayed neuropathy being inhibited by inhibition of
neuropathy target esterase
(
NTE
) with first signs (ataxia, paralysis) appearing 7-20 days after intoxication. The purpose of this study was to examine interaction of tabun with
AChE
and
NTE
and potential neuropathic effects of the compound in vivo. Tabun was more potent inhibitor reacting with more affinity with
AChE
than
NTE
of hen brain. The rate of aging of tabun-inhibited
AChE
was slow (t/2 = 50 hours) while it occurred very rapidly on tabun-inhibited
NTE
(t/2 = 6.5. min). Experiments in vivo have shown that even a high dose of tabun (12 mg/kg, 120 LD50), given with antidotes, which inhibited 67% of
NTE
activity did not initiate delayed neuropathic effects. It is concluded that there appears to be no risk for development of delayed neuropathy in tabun poisonings.
...
PMID:[Anticholinesterase activity and delayed neurotoxic effects of tabun in hens]. 812 41
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.
...
PMID:Studies on the delayed neuropathic and anticholinesterase potential of quinalphos (diethyl 2-quinoxalyl phosphorothionate) in hens. 825 30
Biochemical responses after a single exposure to either a neuropathic or a nonneuropathic organophosphorus compound (OP) were compared using chick embryonic brain cell reaggregates. Ten-day-old chick embryo brains were dissociated and then reaggregated and maintained in a chemically defined, serum-free medium without antibiotics. Seven days later, these cultures were treated for 20 min with either neuropathic diisopropyl phosphorofluoridate (DFP, 10(-4) M) or nonneuropathic paraoxon (10(-6) M). Reaggregates were assayed for
acetylcholinesterase
(
ACHE
),
neuropathy target esterase
(
NTE
), and 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) activities for up to 32 days after exposure. These enzymes were examined due to inhibition of activity as a result of acute OP toxicity (
ACHE
) or delayed toxicity (
NTE
, CNP). DFP inhibited > 95% of
NTE
activity immediately after exposure. By Postexposure Day 2,
NTE
specific activity was 22% of untreated activity but was similar to the untreated group levels by Postexposure Day 7. Paraoxon exposure did not affect
NTE
activity. Both paraoxon and DFP inhibited > 99% of
ACHE
activity immediately after exposure. By Postexposure Day 2,
ACHE
specific activity in paraoxon-exposed cultures had recovered while
ACHE
remained 56% inhibited in DFP-exposed cultures. Both paraoxon- and DFP-exposed cultures recovered
ACHE
activity immediately following OP exposure if treated postexposure with an oxime reactivator, 2-pralidoxime. CNP specific activity was not affected by either paraoxon or DFP. These results demonstrated distinct differences in reaggregate
NTE
and
ACHE
activities after single exposure to neuropathic DFP and nonneuropathic paraoxon similar to those in avian in vivo assays.
...
PMID:Avian embryonic brain reaggregate culture system. II. NTE activity discriminates between effects of a single neuropathic or nonneuropathic organophosphorus compound exposure. 829 Oct 56
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.
...
PMID:Reactivation of phosphorodiamidated acetylcholinesterase and neuropathy target esterase by treatment of inhibited enzyme with potassium fluoride. 834 98
O-Ethyl-O-4-nitrophenylphosphoramidate is a short-acting anticholinesterase and a possible candidate for a prophylactic agent against nerve agents since human
acetylcholinesterase
inhibited by this agent undergoes rapid spontaneous reactivation which can be accelerated further, if necessary, by treatment with oximes. Doses of the agent > 1 mg/kg (s.c.) given to unprotected rats were fatal in a short time but 2 rats and one hen given 0.5 mg/kg survived. Hens given 2.5 or 4 mg/kg s.c. 20 min after prophylactic physostigmine + atropine survived acute effects and were killed 4.5 or 24 h later. Brain and spinal cord
neuropathy target esterase
levels of these hens were depressed only 4-10% compared with levels in brains from hens given only oxime + atropine or of undosed animals. Clinical signs of neuropathy were not seen in surviving birds observed for 3 weeks. It appears there would be negligible delayed neuropathic hazard associated with administration of O-ethyl-O-4-nitrophenylphosphoramidate at subacute doses.
...
PMID:Screening of O-ethyl O-4-nitrophenyl phosphoramidate (ENPP) for delayed neuropathic potential. 834
Phenyl di-n-pentylphosphinate (PPP) is a potent inhibitor of
neuropathy target esterase
(
NTE
) with negligible effect on
acetylcholinesterase
: I50S at 37 degrees C for 20 min and pH 8, respectively are 0.2 microM and > 2mM. PPP is not neuropathic. This is compatible with the fact that inhibited
NTE
is autopsy material from hens dosed with PPP can always be reactivated in vitro, presumably because no 'aging' reaction has occurred. PPP (10 mg/kg s.c.) given to hens up to 4 days before severely neuropathic doses (1.7 mg/kg) of diisopropylphosphorofluoridate (DFP) prevented neuropathic but not cholinergic effects of DFP. Hens given PPP 3 days after a sub-neuropathic dose of DFP (0.4 mg/kg) developed severe clinical neuropathy (clinical scores of 7 and 5 compared with DFP-plus-solvent scores 0,1,3). These prophylactic and promoting effects are similar to those exerted by phenylmethanesulphonyl fluoride (PMSF) at doses which inhibit
NTE
. In 3 out of 4 birds a pre-dose with PMSF (15 mg/kg) prevented the promoting effect of 120 mg/kg PMSF given after DFP.
...
PMID:Prophylaxis against and promotion of organophosphate-induced delayed neuropathy by phenyl di-n-pentylphosphinate. 834 2
Two kinds of measurement: (1) enzyme activities in blood, and (2) unchanged pesticides and their metabolites in urine or blood have been used in biological monitoring for assessing exposure to pesticides. The assays of
acetylcholinesterase
(
AChE
) activity in whole blood and erythrocytes are mainly applied to estimate inhibition by organophosphates (OPs) and carbamates. A level at 70% of an individual's baseline or of a mean population
AChE
activity has been recommended as a reference value for exposure control. The measurement of lymphocyte "neuropathy target esterase (
NTE
)" activity in subjects handling axonopathic OPs is mainly for research application. Analytical methods are available for detecting alkylphosphates, carbamates, pyrethroids, chlorinated hydrocarbons, some herbicides and fungicides, chlordimeform, chlorobenzilate, dichloropropene, dinitrocresol and pentochlorophenol or their metabolites in urine or blood. However, due to lack of significant dose-response or dose-effect relationship, the majority of these determinants can only be used as biological exposure indicators to confirm exposure or to estimate internal dose. Further research in developing adequate indicators and methods for biological monitoring of occupational pesticides exposure is needed. Pre-exposure value and/or reference value of relevant indicators are necessary for assessing the degree of exposure and absorption.
...
PMID:Biological monitoring of occupational pesticides exposure. 840 41
For organophosphates or phosphonates to initiate delayed neuropathy two steps are necessary: (1) progressive covalent reaction with
neuropathy target esterase
(
NTE
) to produce a form of inhibited
NTE
which can be reactivated by incubation with aqueous potassium fluoride (KF) and (2) progressive "aging" of inhibited
NTE
to a form which can no longer be reactivated by KF. However, it has been shown recently that certain N-unsubstituted organophosphoro-monoamidates (analogues of methamidophos) cause delayed neuropathy even though the inhibited
NTE
appeared not to have aged (Johnson et al. (1991). Arch. Toxicol., 65, 618-624). In order to study the generality of this phenomenon, we have examined some N-substituted compounds. We report in vitro studies of inhibition and reactivation and aging of both
NTE
and
acetylcholinesterase
(
AChE
) prior to toxicological tests. All the compounds studied were less inhibitory to both
NTE
and
AChE
in concentrated rather than in dilute suspensions of EDTA-washed brain particles without added cofactors. There was an apparent disposal of up to 100 mumoles of test compound by particles from 95 mg hen brain, which is far greater than can be explained by covalent binding. The activity is distinct from calcium-dependent "A" esterase. Several N-alkyl phosphoromonoamidates were found to be potent and selective inhibitors of
NTE
: second-order rate constant for O-n-pentyl N-benzylphosphoramido-fluoridate (Cmpd 6) = 5.6 x 10(7) M-1 min-1 at 37 degrees, which is about 100x higher than for
acetylcholinesterase
(
AChE
). Inhibited
NTE
and
AChE
from several chiral phosphoromono-amidates did not reactivate spontaneously (21 hours at 37 degrees). Virtually 100% reactivation by KF of
AChE
inhibited by phosphoromonoamidates was achieved at all times tested.
Acetylcholinesterase
inhibited by 2,5-dichlorophenyl N,N'-di-n-butylphosphorodiamidate was 42-56% reactivated by incubation with KF (192 mM in pH 5.2 buffer for 30 minutes at 37 degrees). We believe this is the first report of reactivation of any enzyme after inhibition by a phosphorodiamidate. For
NTE
inhibited by tabun (O-ethyl N-dimethylphosphoroamidocyanidate), virtually complete and rapid aging (t1/2 = 5.5-8.4 minutes) was observed. Consistent but only partial reactivation by KF was achieved 2 or more hours after inhibition of
NTE
by Cmpd 6 or by its 2,6-difluoro-analogue (Cmpd 7). However, a small but significant aging (approximately 15-20% loss of reactivatability) was measured soon after a 1 minute inhibition by Cmpd 7, but no further change occurred in 21 hours.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Interactions in vitro of some organophosphoramidates with neuropathy target esterase and acetylcholinesterase of hen brain. 849
The intermediate syndrome of organophosphate poisoning arises in the time interval between the acute cholinergic crisis of fasciculations and muscle weakness and the delayed neuropathy attributed to inhibition of the
neuropathy target esterase
. The conclusions derived from salient experimental and clinical studies are that intermediate syndrome relates to the severity of poisoning not the specific organophosphate and to prolonged inhibition of
acetylcholinesterase
activity of the erythrocytes, brain and muscle endplate with pre and post synaptic impairment of neuromuscular transmission. It is not related to delayed neuropathy.
...
PMID:The intermediate syndrome in organophosphate poisoning: an overview of experimental and clinical observations. 852 92
A rodent model, the albino mouse, was used to investigate the in vitro and in vivo capacity of 2 organophosphate (OP) compounds, mipafox and ecothiopate, to inhibit enzymes considered to be involved in the mechanisms of OP toxicity. Mipafox and ecothiopate were chosen as model compounds because the former can produce a delayed neuropathy whereas the latter does not. Mipafox (110 mumol/kg, s.c.) inhibited brain
acetylcholinesterase
(
AChE
),
neuropathy target esterase
(
NTE
) and phenylvalerate hydrolases by 58, 64 and 65%, while diaphragm
AChE
and phenylvalerate hydrolases were inhibited by 66 and 80%, respectively. In contrast, ecothiopate (0.5 mumol/kg) had no effect on brain
NTE
or on brain or diaphragm phenylvalerate hydrolases. At the same time, diaphragm
AChE
was inhibited by 60% while brain
AChE
activity had increased by 15% of control. Mipafox was a potent inhibitor of
AChE
and
NTE
in vitro. Although ecothiopate was a highly potent anti-ChE in vitro, it had no inhibitory effect on
NTE
.
...
PMID:Comparative studies of two organophosphorus compounds in the mouse. 852 98
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