Firm evidence for the detoxification of senecionine-induced hepatotoxicity via N-glucuronidation in UGT1A4–humanized transgenic mice

Abstract

Uridine diphosphate glucuronosyltransferase (UGT)1A4 is responsible for N-glucuronidation of tertiary amines but is a pseudogene in commonly used rodent models in toxicity and safety assessment. As a continuation of our investigation into the toxicity and safety assessment of pyrrolizidine alkaloid (PA)-containing herbs, we generated a UGT1A4–humanized (hUGT1A4) transgenic mouse model to systematically study the toxicity, metabolism network, and toxicokinetic characteristics of senecionine (a representative toxic PA) and compared with that in the wide-type controls in parallel. As results, senecionine-induced toxicity was significantly decreased as approved by mortality, pathology, and biochemistry assays in hUGT1A4 mice and cultured primary hepatocytes. More importantly N-glucuronidation adduct was exclusively identified in all the hUGT1A4 mice, liver microsomes, and cultured primary hepatocytes, yet absent in the wide-type controls. The variation in toxicokinetic characters was also observed between hUGT1A4 mice and the wide-type controls with a notably inhibition of the toxification metabolites, i.e., pyrrole-protein adducts, in hUGT1A4 mice. Conclusively, UGT1A4 plays an important role in detoxification of senecionine and the hUGT1A4 mouse model is promising for the pre-clinical evaluation of the efficacy and toxicity of tertiary amine agents in drug development and safety assessment.