Molecular Metabolism (Jan 2024)

Lysine tRNA fragments and miR-194-5p co-regulate hepatic steatosis via β-Klotho and perilipin 2

  • Yonat Tzur,
  • Katarzyna Winek,
  • Nimrod Madrer,
  • Serafima Dubnov,
  • Estelle R. Bennett,
  • David S. Greenberg,
  • Geula Hanin,
  • Asaad Gammal,
  • Joseph Tam,
  • Isaiah T. Arkin,
  • Iddo Paldor,
  • Hermona Soreq

Journal volume & issue
Vol. 79
p. 101856

Abstract

Read online

Objective: Non-alcoholic fatty liver disease (NAFLD) involves hepatic accumulation of intracellular lipid droplets via incompletely understood processes. Here, we report distinct and cooperative NAFLD roles of LysTTT-5′tRF transfer RNA fragments and microRNA miR-194-5p. Methods: Combined use of diet induced obese mice with human-derived oleic acid-exposed Hep G2 cells revealed new NAFLD roles of LysTTT-5′tRF and miR-194-5p. Results: Unlike lean animals, dietary-induced NAFLD mice showed concurrent hepatic decrease of both LysTTT-5′tRF and miR-194-5p levels, which were restored following miR-132 antisense oligonucleotide treatment which suppresses hepatic steatosis. Moreover, exposing human-derived Hep G2 cells to oleic acid for 7 days co-suppressed miR-194-5p and LysTTT-5′tRF levels while increasing lipid accumulation. Inversely, transfecting fattened cells with a synthetic LysTTT-5′tRF mimic elevated mRNA levels of the metabolic regulator β-Klotho while decreasing triglyceride amounts by 30% within 24 h. In contradistinction, antisense suppression of miR-194-5p induced accumulation of its novel target, the NAFLD-implicated lipid droplet-coating PLIN2 protein. Further, two out of 15 steatosis-alleviating screened drug-repurposing compounds, Danazol and Latanoprost, elevated miR-194-5p or LysTTT-5′tRF levels. Conclusion: Our findings highlight the different yet complementary roles of miR-194-5p and LysTTT-5′tRF and offer new insights into the complex roles of small non-coding RNAs and the multiple pathways involved in NAFLD pathogenesis.

Keywords