Molecular Therapy: Nucleic Acids (Dec 2019)

Long Noncoding RNA lnc-HC Regulates PPARγ-Mediated Hepatic Lipid Metabolism through miR-130b-3p

  • Xi Lan,
  • Litao Wu,
  • Nan Wu,
  • Qian Chen,
  • Yue Li,
  • Xiaojuan Du,
  • Chenxi Wei,
  • Lina Feng,
  • Yazhao Li,
  • Ezra Kombo Osoro,
  • Mengyao Sun,
  • Qilan Ning,
  • Xiaofei Yan,
  • Xudong Yang,
  • Dongmin Li,
  • Shemin Lu

Journal volume & issue
Vol. 18
pp. 954 – 965

Abstract

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Nonalcoholic fatty liver disease (NAFLD) is due to the excessive lipid accumulation within hepatocytes. Metabolic nuclear receptors (MNRs) play great roles in lipid homeostasis. We have identified a novel long noncoding RNA (lncRNA), lnc-HC, which regulates hepatocytic cholesterol metabolism through reducing Cyp7a1 and Abca1 expression. Here, we further elucidate its roles in hepatic fatty acid and triglyceride (TG) metabolism through a novel lncRNA regulatory mechanism. The most prominent target of lnc-HC identified by in vitro study is PPARγ. Further studies revealed that lnc-HC negatively regulates PPARγ at both the mRNA and protein levels and suppresses hepatocytic lipid droplet formation. Importantly, the function of lnc-HC in regulating PPARγ expression depends on modulating miR-130b-3p expression from the transcriptional to the post-transcriptional level, not through lncRNA’s critical modulating patterns. In vivo, the reduction of lnc-HC expression significantly decreases miR-130b-3p expression, induces PPARγ expression, and increases TG concentration in rat livers with hyperlipidemia. These findings further help in understanding the regulatory pattern of lnc-HC in hepatic lipid metabolism and might present a possible therapeutic target for improving lipid homeostasis. Keywords: liver, hepatocyte, lipogenesis, lnc-HC, molecular mechanism