Title: Effects of Piperonyl Butoxide on the Metabolism of DEF S,S,S-Tributyl Phosphorotrithioate) in Fingerling Channel Catfish Straus DL, Chambers JE Ref: Toxicol Mech Methods, 16:235, 2006 : PubMed
The present study was undertaken to investigate the significance of monooxygenases in bioactivation of DEF to a more effective anticholinesterase in fish. Channel catfish were exposed via the water column for 20 h to piperonyl butoxide (PBO) followed by a 4-h exposure to the organophosphate defolient DEF (concurrent with the PBO). Acetylcholinesterase (AChE) and aliesterases (ALiEs) activities were determined at 0 and 12 h after the exposure period. Inhibition of brain, liver, and plasma AChE activity by DEF was antagonized by PBO; muscle AChE was not inhibited by DEF. Piperonyl butoxide did not antagonize the inhibition of liver or plasma ALiEs by DEF. These results suggest that PBO retards the formation of the metabolite(s) of DEF that inhibit AChE, and that DEF is an effective inhibitor of ALiEs without metabolic activation.
Title: Inhibition and aging of channel catfish brain acetylcholinesterase following exposure to two phosphorothionate insecticides and their active metabolites Carr RL, Straus DL, Chambers JE Ref: Journal of Toxicology & Environmental Health, 45:325, 1995 : PubMed
The inhibition and aging of acetylcholinesterase (AChE) in fingerling channel catfish (lctalurus punctatus) brain tissue was studied after single in vivo exposures to high levels of chlorpyrifos (0.25 mg/L), chlorpyrifos-oxon (7 micrograms/L), parathion (2.5 mg/L), or paraoxon (30 micrograms/L). Exposure to both parent compounds produced identical initial inhibition (95%), but in the later sampling times there was significantly more inhibited AChE in the chlorpyrifos-treated fish than in the parathion-treated fish (47% and 28%, respectively, on d 16). There were higher levels of aged AChE following chlorpyrifos exposure than following parathion exposure, but differences were not significant. Exposure to both oxons produced initial inhibition greater than 90%, and patterns of recovery and aging were statistically similar between both compounds; no significant inhibition was observed after d 11. The similar patterns of inhibition, recovery, and aging between the two oxon treatments, which have similar lipophilicities, suggest that the greater amount of AChE inhibition and aging observed in the chlorpyrifos-treated fish compared with the parathion-treated fish probably results from the higher lipophilicity of chlorpyrifos than of parathion. Overall, the prolonged brain AChE inhibition exhibited in catfish exposed to phosphorothionates is not the result of aging of the inhibited enzyme but is the result of either a slow rate or a lack of spontaneous reactivation.
