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Abstract
Young animals are more sensitive than adults to the neurotoxic effects of some organophosphorus insecticides. Many investigators attribute this difference in sensitivity to the immaturity of the detoxification capacity of preweanling rats. Chlorpyrifos [O,O-diethylO-(3,5,6-trichloro-2-pyridyl)phosphorothionate] is an organophosphorus insecticide that demonstrates considerable age-related sensitivity. The carboxylesterases are a group of related enzymes that detoxify organophosphorus insecticides by stoichiometrically binding these molecules before they can inhibit acetylcholinesterase. This study presents in vitro and in vivo evidence demonstrating that the carboxylesterases are critical for explaining the age-related sensitivity of chlorpyrifos. The data show that the fetal rat and the postnatal day 17 (PND17) rat pup have fewer molecules of carboxylesterase (less activity), less sensitive molecules of carboxylesterase, and a larger proportion of chlorpyrifos-insensitive molecules of carboxylesterase. An in vitro mixing experiment, using adult striatum as a source of acetylcholinesterase and liver homogenates as a source of carboxylesterase, demonstrates that the adult liver carboxylesterases are superior to the PND17 liver carboxylesterases for detoxifying chlorpyrifos. In the in vivo experiments the time course profiles of carboxylesterase and cholinesterase activity following a maximum tolerated dose of chlorpyrifos also suggest that the carboxylesterases of the PND17 rat were less capable of detoxifying chlorpyrifos. Carboxylesterase activity in the preweanling rat was not as severely inhibited as in the adult, but decrements in cholinesterase activity as a result of chlorpyrifos treatment were comparable. These in vitro and in vivo findings support the previously proffered postulate that the carboxylesterases are critical for determining the age-related sensitivity of chlorpyrifos. In addition, these detailed experiments allow us to propose that the detoxification potential of these enzymes is multifaceted, and depends on the (1) amount of activity (i.e., number of molecules), (2) affinity for the insecticide or metabolite, and (3) amount of carboxylesterase activity that is refractory to inhibition by the insecticide or metabolite.