Abstract
Aldehyde oxidase (AOX) metabolizes many xenobiotics in vitro, but its importance in vivo is usually unknown relative to cytochrome P450s (CYPs) and other detoxification systems. Currently, the most important insecticides are neonicotinoids, which are metabolized in vitro by AOX on reduction of the nitroimino group and by CYPs via oxidation reactions. The goal of this study was to establish the relative importance of AOX and CYPs in vivo using the mouse model. The procedure was to reduce liver AOX activity by providing tungsten or hydralazine in the drinking water or to use the AOX-deficient DBA/2 mouse strain. None of these approaches reduced CYP activity measured in vitro with an isozyme nonspecific substrate. Liver AOX activity was reduced by 45% with tungsten and 61% with hydralazine and 81% in AOX-deficient mice relative to controls. When mice were treated ip with the major neonicotinoid imidacloprid (IMI), metabolism by CYP oxidation reactions was not appreciably affected, whereas the AOX-generated nitrosoguanidine metabolite was decreased by 30% with tungsten and 56% with hydralazine and 86% in the AOX-deficient mice. The other IMI nitroreduction metabolite, desnitro-IMI, was decreased by 55%, 65%, and 81% with tungsten, hydralazine, and in the AOX-deficient mice, respectively. Thus, decreasing liver AOX activity by three quite different procedures gave a corresponding decrease for in vivo reductive metabolites in the liver of IMI-treated mice. Possible AOX involvement in IMI metabolism in insects was evaluated using AOX-expressing and AOX-deficient Drosophila, but no differences were found in IMI nitroreduction or sensitivity between the two strains. This is the first study to establish the in vivo relevance of AOX in neonicotinoid metabolism in mammals and one of the first for xenobiotics in general.
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