Experimental Gerontology (Sep 2024)

Calorie restriction and life-extending mutation downregulate miR-34a to facilitate lipid metabolism in the liver

  • Sarah A. Ashiqueali,
  • Xiang Zhu,
  • Denise S. Wiesenborn,
  • Adam Gesing,
  • Augusto Schneider,
  • Sarah A. Noureddine,
  • Christian G. Correa-Garcia,
  • Michal M. Masternak,
  • Shadab A. Siddiqi

Journal volume & issue
Vol. 194
p. 112506

Abstract

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Ames dwarf mice (df/df) display delayed aging relative to their normal (N) siblings, living approximately 40–60 % longer. As such, investigating the mechanisms that enable these organisms to have extended lifespan is useful for the development of interventions to slow aging and deter age-related disease. Nonalcoholic fatty liver disease (NAFLD) is a condition that is characterized by the accumulation of excess adipose tissue in the liver. Previous studies highlight the potential of calorie restriction (CR) in promoting longevity, but little is known about its effects on the biomolecular processes that govern NAFLD. In this study, we examined the role of 6-month CR on genes regulating lipid metabolism in the livers of long-living df/df mice and their N littermates. Importantly, our findings showed significant downregulation of miR-34a-5p in N-CR mice and df/df mice regardless of dietary regimen. Alongside, our RT-PCR results indicated that downregulation of miR-34a-5p is correlated with the expression of metabolism-associated mRNAs involved in modulating the processes of de novo lipogenesis (DNL), fatty acid oxidation (FAO), very-low density lipoprotein transport (VLDL-T), and reverse cholesterol transport (RCT). To further verify the role of miR-34a-5p in regulating metabolic processes, we transfected the human liver cancer (HepG2) cell line with miR-34a mimic, and studied its effect on direct targets Sirt1, Ampk, and Ppara as well as downstream lipid transport regulating genes. Our findings suggest that CR and df/df life extending mutation are robust drivers of the miR-34a-5p signaling pathway and prevent the pathogenesis of age-related diseases by improving overall lipid homeostasis.

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