Molecular Therapy: Nucleic Acids (Dec 2019)

Gain of Metabolic Benefit with Ablation of miR-149-3p from Subcutaneous Adipose Tissue in Diet-Induced Obese Mice

  • Shasha Zheng,
  • Shanjun Guo,
  • Gongrui Sun,
  • Yanteng Shi,
  • Zhe Wei,
  • Yuhang Tang,
  • Fangfang He,
  • Chenke Shi,
  • Peng Dai,
  • Hoshun Chong,
  • Isabella Samuelson,
  • Ke Zen,
  • Chen-Yu Zhang,
  • Yujing Zhang,
  • Jing Li,
  • Xiaohong Jiang

Journal volume & issue
Vol. 18
pp. 194 – 203

Abstract

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The global rise in obesity has become a public health crisis. During the onset of obesity, disrupted catecholamine signals have been described to contribute to excess fat accumulation, however, the molecular and metabolic change of subcutaneous adipose tissue (SAT) upon chronic high-fat feeding has rarely been investigated. Here, we show that chronic high-fat feeding caused a significant decrease in the expression of thermogenic genes and acquisition of partial deleterious features of visceral fat in SAT. Upregulated miR-149-3p was involved in this obesity-induced “visceralization” of SAT via inhibiting PRDM16, a master regulator that promoted SAT thermogenesis. Reduction of miR-149-3p significantly increased PRDM16 expression in SAT, with improved whole-body insulin sensitivity, decreased SAT inflammation, and liver steatosis in high-fat fed mice. These findings provided direct evidence of the anti-obese and anti-diabetic effect of PRDM16 in the obese background for the first time and identified that miR-149-3p could serve as a therapeutic target to protect against diet-induced obesity and metabolic dysfunctions. Keywords: diet-induced obesity, miR-149-3p, Prdm16, subcutaneous adipose tissue, thermogenesis