Impaired hepatic autophagy exacerbates xenobiotics induced liver injury

Abstract

ABSTRACTXenobiotics can activate the hepatic survival pathway, but it is not clear how impaired hepatic survival pathways may affect xenobiotic-induced liver injury. We investigated the role of hepatic autophagy, a cellular survival pathway, in cholestatic liver injury driven by a xenobiotic. Here we demonstrate that DDC diet impaired autophagic flux, resulting in the accumulation of p62-Ub-intrahyaline bodies (IHBs) but not the Mallory Denk-Bodies (MDBs). Impaired autophagic flux was linked to a deregulated hepatic protein-chaperonin system and a significant decline in Rab family proteins. In addition, we demonstrate that heterozygous deletion of Atg7, a key autophagy gene, aggravated the p62-Ub-IHB accumulation and cholestatic liver injury. Moreover, we showed that p62-Ub-IHB accumulation did not activate the proteostasis-related ER stress signaling pathway, but rather activated the NRF2 pathway and suppressed the FXR nuclear receptor, resulting in cholestatic liver injury. Conclusion: Impaired autophagy exacerbates xenobiotic-induced cholestatic liver injury. Promotion of autophagy may represent a new therapeutic approach for xenobiotic-induced liver injury.