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Query: UMLS:C0152025 (
polyneuropathy
)
7,862
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Single doses of certain organophosphates (OP), such as
dibutyl
-2,2-dichlorovinyl phosphate (DBDCVP) cause organophosphate-induced delayed
polyneuropathy
(OPIDP) in hens. Clinical effects correlate with inhibition of neuropathy target esterase (NTE) which is considered the target for this toxicity. Pre-treatment with non-neuropathic NTE inhibitors, such as phenylmethanesulfonyl fluoride (PMSF), protects from OPIDP. However, when given after OPs, these compounds promote OPIDP. Chicks are relatively resistant to OPIDP despite high NTE inhibition. It has also always been reported that rats represent a species which is resistant to OPIDP and that they might develop morphological but not clinical signs of OPIDP. We report here that clinical OPIDP can be produced in 3.5- and 6-month-old rats by DBDCVP (5 mg/kg s.c.) and that it correlates with high (> 90%) NTE inhibition. When PMSF (120 mg/kg s.c. x 2) was given after DBDCVP, OPIDP was promoted. Pretreatment with PMSF protected from OPIDP. We conclude that resistance to OPIDP in the rat is age-related, as it is in the hen.
...
PMID:Clinical expression of organophosphate-induced delayed polyneuropathy in rats. 141 29
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).
...
PMID:Organophosphate polyneuropathy and neuropathy target esterase: studies with methamidophos and its resolved optical isomers. 765 38
Organophosphate-induced delayed
polyneuropathy
(OPIDP) is thought to be initiated by a variety of neuropathy target esterase (NTE) inhibitors. However, certain inhibitors such as phenylmethanesulfonyl fluoride, phenyl N-methyl N-benzyl carbamate, and phenyl di-n-pentyl phosphinate protect from OPIDP when given to hens before organophosphorus esters. They protect from neuropathy by preventing the binding of neuropathic inhibitors to NTE catalytic site. In contrast, when such NTE inhibitors are given afterward, the resulting clinical effect is more severe. This phenomenon was called promotion of OPIDP. Promotion has been tentatively explained by the interaction of promoters with a target other than the catalytic center of NTE. However, the doses of promoters which cause the effect have, so far, been found to always be inhibitory of NTE. We report that the phosphorothioic acid O-(2-chloro-2,3,3-trifluorocyclobutyl) O-ethyl S propyl ester (KBR-2822) given to hens at doses which did not inhibit NTE (2.5 mg/kg p.o.) promoted the neuropathies initiated by either
dibutyl
-2,2-dichlorovinyl phosphate (DBDCVP, 0.4 mg/kg s.c., 24 hr earlier) or diisopropyl phosphorofluoridate (DFP, 0.3 mg/kg sc or 0.5 mg/kg s.c., 24 hr earlier). When given alone, DBDCVP and DFP (0.5 mg/kg) caused mild OPIDP, whereas the lower dose of DFP did not cause clinical effects. Dose-response relationships with KBR-2822 indicated that clinical effects of the combined treatments are unlikely to be additive because the compound did not cause OPIDP up to the maximum tolerated dose (10 mg/kg p.o.). Promotion also occurred when KBR-2822 (2.5 mg/kg p.o.) was given before either DBDCVP (0.4 mg/kg s.c.) or DFP (0.3 mg/kg s.c.). NTE inhibitions in the nervous tissues caused by DBDCVP or DFP were not affected by pretreatment with KBR-2822, suggesting that the delivery of neuropathic. NTE inhibitors was not modified. We conclude that KBR-2822 promotes OPIDP initiated by either DBDCVP or DFP by affecting a target other than NTE catalytic site.
...
PMID:The phosphorothioic acid O-(2-chloro-2,3,3-trifluorocyclobutyl) O-ethyl S-propyl ester exacerbates organophosphate polyneuropathy without inhibition of neuropathy target esterase. 797 86
Several esterase inhibitors, not capable of causing peripheral neuropathy by themselves, exacerbate organophosphate-induced delayed
polyneuropathy
(OPIDP) and other axonopathies. This effect was called promotion of axonopathies and it was found not to be associated with inhibition of neuropathy target esterase (NTE), the molecular target of OPIDP. The search for an esterase as the target of promotion has started long ago, when an eterogeneous group of esterases-hydrolysing phenyl valerate (PV) was identified in hen's sciatic nerve by means of selective inhibitors. Correlation studies in vivo indicated that the target of promotion may have been among the proteins present in the soluble fraction. When this soluble PV-esterase activity was separated on a Sephacryl-S-300 column, correlation was found between promotion and its inhibition in vivo. The electrophoretic analysis of this fraction indicated the presence of several proteins. Subsequent ion-exchange chromatography identified a protein of about 80 kDa molecular weight that was associated with PV-esterase activity. The inhibition of this activity did also correlate with promotion. The sequence of this protein identified it as ovotransferrin, but commercial preparations of ovotransferrin were found to lack PV-esterase activity. Binding experiments on this purified PV-activity and on commercial ovotransferrin using radiolabelled promoters were inconclusive. Titration of this PV-activity showed that about 20-30% of it is resistant to high concentrations of several inhibitors, suggesting heterogeneity of the fraction. In fact, bi-dimensional electrophoresis indicated the presence of several proteins. Finally, in vivo correlation experiments with p-toluensulfonyl fluoride showed that whereas this chemical does not promote OPIDP induced by
dibutyl
dichlorovinyl phosphate, it does inhibit about 80% of this PV-activity. In conclusion, available data indicate that the target of promotion is unlikely to be ovotransferrin. However, all promoters identified so far are esterase inhibitors suggesting that the target of promotion might be, indeed, a protein with esteratic activity.
...
PMID:Peripheral nerve esterases and the promotion of organophosphate-induced neuropathy in hens. 1624 1
