PLoS ONE (Jan 2014)

Sox17 regulates liver lipid metabolism and adaptation to fasting.

  • Samuel Rommelaere,
  • Virginie Millet,
  • Thien-Phong Vu Manh,
  • Thomas Gensollen,
  • Pierre Andreoletti,
  • Mustapha Cherkaoui-Malki,
  • Christophe Bourges,
  • Bertrand Escalière,
  • Xin Du,
  • Yu Xia,
  • Jean Imbert,
  • Bruce Beutler,
  • Yoshiakira Kanai,
  • Bernard Malissen,
  • Marie Malissen,
  • Anne Tailleux,
  • Bart Staels,
  • Franck Galland,
  • Philippe Naquet

DOI
https://doi.org/10.1371/journal.pone.0104925
Journal volume & issue
Vol. 9, no. 8
p. e104925

Abstract

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Liver is a major regulator of lipid metabolism and adaptation to fasting, a process involving PPARalpha activation. We recently showed that the Vnn1 gene is a PPARalpha target gene in liver and that release of the Vanin-1 pantetheinase in serum is a biomarker of PPARalpha activation. Here we set up a screen to identify new regulators of adaptation to fasting using the serum Vanin-1 as a marker of PPARalpha activation. Mutagenized mice were screened for low serum Vanin-1 expression. Functional interactions with PPARalpha were investigated by combining transcriptomic, biochemical and metabolic approaches. We characterized a new mutant mouse in which hepatic and serum expression of Vanin-1 is depressed. This mouse carries a mutation in the HMG domain of the Sox17 transcription factor. Mutant mice display a metabolic phenotype featuring lipid abnormalities and inefficient adaptation to fasting. Upon fasting, a fraction of the PPARα-driven transcriptional program is no longer induced and associated with impaired fatty acid oxidation. The transcriptional phenotype is partially observed in heterozygous Sox17+/- mice. In mutant mice, the fasting phenotype but not all transcriptomic signature is rescued by the administration of the PPARalpha agonist fenofibrate. These results identify a novel role for Sox17 in adult liver as a modulator of the metabolic adaptation to fasting.