Effects of the Gut Microbiota and Barrier Function on Melatonin Efficacy in Alleviating Liver Injury.
Hao ZhangXiaoyun LiuMabrouk ElsabaghYing ZhangYi MaYaqian JinMengzhi WangHongrong WangHonghua JiangPublished in: Antioxidants (Basel, Switzerland) (2022)
Environmental cadmium (Cd) exposure has been associated with severe liver injury. In contrast, melatonin (Mel) is a candidate drug therapy for Cd-induced liver injury due to its diverse hepatoprotective activities. However, the precise molecular mechanism by which Mel alleviates the Cd-induced liver injury, as well as the Mel-gut microbiota interaction in liver health, remains unknown. In this study, mice were given oral gavage CdCl 2 and Mel for 10 weeks before the collection of liver tissues and colonic contents. The role of the gut microbiota in Mel's efficacy in alleviating the Cd-induced liver injury was evaluated by the gut microbiota depletion technique in the presence of antibiotic treatment and gut microbiota transplantation (GMT). Our results revealed that the oral administration of Mel supplementation mitigated liver inflammation, endoplasmic reticulum (ER) stress and mitophagy, improved the oxidation of fatty acids, and counteracted intestinal microbial dysbiosis in mice suffering from liver injury. It was interesting to find that neither Mel nor Cd administration induced any changes in the liver of antibiotic-treated mice. By adopting the GMT approach where gut microbiota collected from mice in the control (CON), Cd, or Mel + Cd treatment groups was colonized in mice, it was found that gut microbiota was involved in Cd-induced liver injury. Therefore, the gut microbiota is involved in the Mel-mediated mitigation of ER stress, liver inflammation and mitophagy, and the improved oxidation of fatty acids in mice suffering from Cd-induced liver injury.
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