Dietary Exposure to Antibiotic Residues Facilitates Metabolic Disorder by Altering the Gut Microbiota and Bile Acid Composition

Rou An Chen, Wei Kai Wu, Suraphan Panyod, Po Yu Liu, Hsiao Li Chuang, Yi Hsun Chen, Qiang Lyu, Hsiu Ching Hsu, Tzu Lung Lin, Ting Chin David Shen, Yu Tang Yang, Hsin Bai Zou, Huai Syuan Huang, Yu En Lin, Chieh Chang Chen, Chi Tang Ho, Hsin Chih Lai, Ming Shiang Wu, Cheng Chih Hsu*, Lee Yan Sheen*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

14 Scopus citations

Abstract

Antibiotics used as growth promoters in livestock and animal husbandry can be detected in animal-derived food. Epidemiological studies have indicated that exposure to these antibiotic residues in food may be associated with childhood obesity. Herein, the effect of exposure to a residual dose of tylosin—an antibiotic growth promoter—on host metabolism and gut microbiota was explored in vivo. Theoretical maximal daily intake (TMDI) doses of tylosin were found to facilitate high-fat-diet-induced obesity, induce insulin resistance, and perturb gut microbiota composition in mice. The obesity-related phenotypes were transferrable to germfree recipient mice, indicating that the effects of a TMDI dose of tylosin on obesity and insulin resistance occurred mainly via alteration of the gut microbiota. Tylosin TMDI exposure restricted to early life, the critical period of gut microbiota development, altered the abundance of specific bacteria related to host metabolic homeostasis later in life. Moreover, early-life exposure to tylosin TMDI doses was sufficient to modify the ratio of primary to secondary bile acids, thereby inducing lasting metabolic consequences via the downstream FGF15 signaling pathway. Altogether, these findings demonstrate that exposure to very low doses of antibiotic residues, whether continuously or in early life, could exert long-lasting effects on host metabolism by altering the gut microbiota and its metabolites.

Original languageEnglish
JournalmSystems
Volume7
Issue number3
DOIs
StatePublished - 06 2022

Bibliographical note

Publisher Copyright:
© 2022 Chen et al.

Keywords

  • bile acid metabolism
  • dietary exposure
  • early life
  • food safety
  • gut microbiota
  • low-dose antibiotic
  • metabolic disorder
  • obesity

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