Melatonin induces Nrf2‐HO‐1 reprogramming and corrections in hepatic core clock oscillations in Non‐alcoholic fatty liver disease

Abstract Melatonin pleiotropically regulates physiological events and has a putative regulatory role in the circadian clock desynchrony‐mediated Non‐alcoholic fatty liver disease (NAFLD). In this study, we investigated perturbations in the hepatic circadian clock gene, and Nrf2‐HO‐1 oscillations in conditions of high‐fat high fructose (HFHF) diet and/or jet lag (JL)‐mediated NAFLD. Melatonin treatment (100 µM) to HepG2 cells led to an improvement in oscillatory pattern of clock genes ( Clock, Bmal1 , and Per ) in oleic acid (OA)‐induced circadian desynchrony, while Cry, Nrf2 , and HO‐1 remain oblivious of melatonin treatment that was also validated by circwave analysis. C57BL/6J mice subjected to HFHF and/or JL, and treated with melatonin showed an improvement in the profile of lipid regulatory genes ( CPT‐1, PPARa , and SREBP‐1c ), liver function (AST and ALT) and histomorphology of fatty liver. A detailed scrutiny revealed that hepatic mRNA and protein profiles of Bmal1 (at ZT6) and Clock (at ZT12) underwent corrective changes in oscillations, but moderate corrections were recorded in other components of clock genes (Per1, Per2, and Cry2). Melatonin induced changes in oscillations of anti‐oxidant genes (Nrf2, HO‐1, and Keap1) subtly contributed in the overall improvement in NAFLD recorded herein. Taken together, melatonin induced reprograming of hepatic core clock and Nrf2‐HO‐1 genes leads to an improvement in HFHF/JL‐induced NAFLD.