Journal of Lipid Research (Jul 2020)

Parenteral lipids shape gut bile acid pools and microbiota profiles in the prevention of cholestasis in preterm pigs[S]

  • Lee Call,
  • Tiffany Molina,
  • Barbara Stoll,
  • Greg Guthrie,
  • Shaji Chacko,
  • Jogchum Plat,
  • Jason Robinson,
  • Sen Lin,
  • Caitlin Vonderohe,
  • Mahmoud Mohammad,
  • Dennis Kunichoff,
  • Stephanie Cruz,
  • Patricio Lau,
  • Muralidhar Premkumar,
  • Jon Nielsen,
  • Zhengfeng Fang,
  • Oluyinka Olutoye,
  • Thomas Thymann,
  • Robert Britton,
  • Per Sangild,
  • Douglas Burrin

Journal volume & issue
Vol. 61, no. 7
pp. 1038 – 1051

Abstract

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Multi-component lipid emulsions, rather than soy-oil emulsions, prevent cholestasis by an unknown mechanism. Here, we quantified liver function, bile acid pools, and gut microbial and metabolite profiles in premature parenterally fed pigs given a soy-oil lipid emulsion, Intralipid (IL), a multi component lipid emulsion, SMOFlipid (SMOF), a novel emulsion with a modified fatty-acid composition [experimental emulsion (EXP)], or a control enteral diet (ENT) for 22 days. We assayed serum cholestasis markers, measured total bile acid levels in plasma, liver, and gut contents, and analyzed colonic bacterial 16S rRNA gene sequences and metabolomic profiles. Serum cholestasis markers (i.e., bilirubin, bile acids, and γ-glutamyl transferase) were highest in IL-fed pigs and normalized in those given SMOF, EXP, or ENT. Gut bile acid pools were lowest in the IL treatment and were increased in the SMOF and EXP treatments and comparable to ENT. Multiple bile acids, especially their conjugated forms, were higher in the colon contents of SMOF and EXP than in IL pigs. The colonic microbial communities of SMOF and EXP pigs had lower relative abundance of several gram-positive anaerobes, including Clostridrium XIVa, and higher abundance of Enterobacteriaceae than those of IL and ENT pigs. Differences in lipid and microbial-derived compounds were also observed in colon metabolite profiles. These results indicate that multi-component lipid emulsions prevent cholestasis and restore enterohepatic bile flow in association with gut microbial and metabolomic changes. We conclude that sustained bile flow induced by multi-component lipid emulsions likely exerts a dominant effect in reducing bile acid-sensitive gram-positive bacteria.

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