Cellular and Molecular Gastroenterology and Hepatology (Jan 2021)

Intestinal α1-2-Fucosylation Contributes to Obesity and Steatohepatitis in MiceSummary

  • Rongrong Zhou,
  • Cristina Llorente,
  • Jinling Cao,
  • Livia S. Zaramela,
  • Suling Zeng,
  • Bei Gao,
  • Shang-Zhen Li,
  • Ryan D. Welch,
  • Feng-Qing Huang,
  • Lian-Wen Qi,
  • Chuyue Pan,
  • Yan Huang,
  • Pengchen Zhou,
  • Iris Beussen,
  • Ying Zhang,
  • Gregory Bryam,
  • Oliver Fiehn,
  • Lirui Wang,
  • E-Hu Liu,
  • Ruth T. Yu,
  • Michael Downes,
  • Ronald M. Evans,
  • Karrie Goglin,
  • Derrick E. Fouts,
  • David A. Brenner,
  • Lars Bode,
  • Xuegong Fan,
  • Karsten Zengler,
  • Bernd Schnabl

Journal volume & issue
Vol. 12, no. 1
pp. 293 – 320

Abstract

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Background & Aims: Fucosyltransferase 2 (Fut2)-mediated intestinal α1- 2-fucosylation is important for host–microbe interactions and has been associated with several diseases, but its role in obesity and hepatic steatohepatitis is not known. The aim of this study was to investigate the role of Fut2 in a Western-style diet–induced mouse model of obesity and steatohepatitis. Methods: Wild-type (WT) and Fut2-deficient littermate mice were used and features of the metabolic syndrome and steatohepatitis were assessed after 20 weeks of Western diet feeding. Results: Intestinal α1-2-fucosylation was suppressed in WT mice after Western diet feeding, and supplementation of α1-2-fucosylated glycans exacerbated obesity and steatohepatitis in these mice. Fut2-deficient mice were protected from Western diet–induced features of obesity and steatohepatitis despite an increased caloric intake. These mice have increased energy expenditure and thermogenesis, as evidenced by a higher core body temperature. Protection from obesity and steatohepatitis associated with Fut2 deficiency is transmissible to WT mice via microbiota exchange; phenotypic differences between Western diet–fed WT and Fut2-deficient mice were reduced with antibiotic treatment. Fut2 deficiency attenuated diet-induced bile acid accumulation by altered relative abundance of bacterial enzyme 7-α-hydroxysteroid dehydrogenases metabolizing bile acids and by increased fecal excretion of secondary bile acids. This also was associated with increased intestinal farnesoid X receptor/fibroblast growth factor 15 signaling, which inhibits hepatic synthesis of bile acids. Dietary supplementation of α1-2-fucosylated glycans abrogates the protective effects of Fut2 deficiency. Conclusions: α1-2-fucosylation is an important host-derived regulator of intestinal microbiota and plays an important role for the pathogenesis of obesity and steatohepatitis in mice.

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