Cell Reports (Jan 2016)

Reciprocal Regulation between SIRT6 and miR-122 Controls Liver Metabolism and Predicts Hepatocarcinoma Prognosis

  • Sivan Elhanati,
  • Rotem Ben-Hamo,
  • Yariv Kanfi,
  • Alexander Varvak,
  • Renana Glazz,
  • Batia Lerrer,
  • Sol Efroni,
  • Haim Y. Cohen

DOI
https://doi.org/10.1016/j.celrep.2015.12.023
Journal volume & issue
Vol. 14, no. 2
pp. 234 – 242

Abstract

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Mice overexpressing the longevity protein SIRT6 or deficient for the liver’s most prevalent microRNA miR-122 display a similar set of phenotypes, including improved lipid profile and protection against damage linked to obesity. Here, we show that miR-122 and SIRT6 negatively regulate each other’s expression. SIRT6 downregulates miR-122 by deacetylating H3K56 in the promoter region. MiR-122 binds to three sites on the SIRT6 3′ UTR and reduces its levels. The interplay between SIRT6 and miR-122 is manifested in two physiologically relevant ways in the liver. First, they oppositely regulate a similar set of metabolic genes and fatty acid β-oxidation. Second, in hepatocellular carcinoma patients, loss of a negative correlation between SIRT6 and miR-122 expression is significantly associated with better prognosis. These findings show that SIRT6 and miR-122 negatively regulate each other to control various aspects of liver physiology and SIRT6-miR-122 correlation may serve as a biomarker for hepatocarcinoma prognosis.

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