Background and aims: Cholesterol 7alpha-hydroxylase (CYP7A1) is the rate limiting enzyme of the bile acid biosynthetic pathway to convert cholesterol to bile acids, which is a major output pathway for cholesterol catabolism. In this study, we aimed to assess the potential regulatory mechanisms of microRNA-185 (miR-185) in cholesterol and bile acid homeostasis.
Methods: Eight-week-old male ApoE KO mice fed a high-fat diet (HFD) were injected with lentiviruses encoding antisense miR-185 (miR-185-inh). Microarrays were applied to profile miR-185-regulated genes involved in bile acid metabolism. The expression of potential targets of miR-185 was validated using qPCR and Western blotting assay in human hepatoma HepG2 cells.
Results: The administration of miR-185-inh correlated with decreased serum total bile acids levels in ApoE KO mice. Microarray gene profiling revealed that inhibition of miR-185 upregulated hepatic CYP7A1 expression in vivo, which was further validated in HepG2 cells and primary hepatic cells in vitro by overexpression or inhibition of miR-185. Furthermore, it was revealed that miR-185 regulated CYP7A1 expression via a FoxO1-involved indirect pathway and that miR-185 directly modulated FoxO1 expression by binding to its mRNA 3'UTR in a traditional post-transcriptional manner. Besides, we also observed that miR-185 regulated CYP7A1 expression by increasing p-AKT/AKT level, which induced the phosphorylation of FoxO1 and promoted FoxO1 degradation at a post-translational level.
Conclusions: This study provides convincing evidence on the critical role of miR-185 in FoxO1 modulation at both post-transcriptional and post-translational levels, which accounts for the effects on CYP7A1 gene and its mediated cholesterol-bile acid metabolism. These results suggest an important role of miR-185 as a novel atherosclerosis-protective target for drug discovery.
Keywords: CYP7A1; Cholesterol-bile acid metabolism; FoxO1; PI3K/AKT signaling pathway; miR-185.
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