Toxicokinetics of α-zearalenol and its masked form in rats and the comparative biotransformation in liver microsomes from different livestock and humans.

Alpha-zearalenol (α-ZEL) and its masked form α-zearalenol-14 glucoside (α-ZEL-14G) have much higher oestrogenic activity than zearalenone. Owing to very limited toxicokinetic and metabolic data, no reference points could be established for risk assessment. To circumvent it, the toxicokinetic, metabolic profiles, and phenotyping of α-ZEL and α-ZEL-14G were comprehensively investigated in this study. As a result, the plasma concentrations of α-ZEL and α-ZEL-14G were all below LOQ after oral administration, while after iv injection, both could be significantly bio-transformed into various metabolites. A complete hydrolysis of α-ZEL-14G contributed to α-ZEL overall toxicity. Additionally, 31 phase I and 10 phase II metabolites of α-ZEL, and 9 phase I and 5 phase II metabolites were identified for α-ZEL-14G. For α-ZEL, hydroxylation, dehydrogenation, and glucuronidation were the major metabolic pathways, while for α-ZEL-14G, it was deglycosylation, reduction, hydroxylation, and glucuronidation. Significant metabolic differences were observed for α-ZEL and α-ZEL-14G in the liver microsomes of rats, chickens, swine, goats, cows and humans. Phenotyping studies indicated that α-ZEL and α-ZEL-14G were mediated by CYP 3A4, 2C8, and 1A2. Moreover, the deglycosylation of α-ZEL-14G was critically mediated by CES-I and CES-II. The acquired data would provide fundamental perspectives for risk evaluation of mycotoxins and their modified forms.