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  • Hepatic miR-125b inhibits insulin signaling pathway by targeting PIK3CD.

Hepatic miR-125b inhibits insulin signaling pathway by targeting PIK3CD.

Journal of cellular physiology (2018-01-11)
Xiliang Du, Xiaobing Li, Liang Chen, Min Zhang, Lin Lei, Wenwen Gao, Zhen Shi, Yuhao Dong, Zhe Wang, Xinwei Li, Guowen Liu
ABSTRACT

Insulin resistance is often characterized as the most critical factor contributing to the development of (T2D) type 2 diabetes. MicroRNAs (miRNAs) are endogenous non-coding short single-stranded RNAs that function as negative regulators in many physiological and pathological processes. The objective of this study was to evaluate the roles of miR-125b in the regulation of insulin sensitivity in hepatocytes. We found that hepatic miR-125b levels were significantly increased in the patients with type 2 diabetes, high fat diet (HFD) mice, ob/ob and db/db mice. In vitro, miR-125b was also significantly up-regulated in tumor necrosis factor-alpha- (TNF-α) and glucosamine-induced insulin resistance conditions. Furthermore, miR-125b overexpression impaired the insulin signaling pathway in HepG2 cells, L02c cells, and primary hepatocytes. Inhibition of miR-125b improved insulin sensitivity, especially in insulin-resistant cells induced by either TNF-α or glucosamine. We demonstrated that miR-125b targeted the 3'-untranslated region (3'-UTR) of phosphoinositide 3-kinase catalytic subunit delta (PIK3CD) mRNA. The hepatic PIK3CD protein levels were markedly decreased in patients with type 2 diabetes, HFD, ob/ob, and db/db mice. Inhibition of PIK3CD markedly attenuated the improvement of insulin sensitivity induced by miR-125b inhibitors. More importantly, overexpressing miR-125b in mice causes insulin resistance and impairs glucose homeostasis. Together, these findings indicate that miR-125b inhibits insulin sensitivity by targeting PIK3CD in hepatocytes, supporting hepatic miR-125b, or PIK3CD are potential therapeutic target of insulin resistance.