Advanced Science (Jul 2024)

Antibiotic‐Induced Gut Microbiota Dysbiosis Modulates Host Transcriptome and m6A Epitranscriptome via Bile Acid Metabolism

  • Meng Yang,
  • Xiaoqi Zheng,
  • Jiajun Fan,
  • Wei Cheng,
  • Tong‐Meng Yan,
  • Yushan Lai,
  • Nianping Zhang,
  • Yi Lu,
  • Jiali Qi,
  • Zhengyi Huo,
  • Zihe Xu,
  • Jia Huang,
  • Yuting Jiao,
  • Biaodi Liu,
  • Rui Pang,
  • Xiang Zhong,
  • Shi Huang,
  • Guan‐Zheng Luo,
  • Gina Lee,
  • Christian Jobin,
  • A. Murat Eren,
  • Eugene B Chang,
  • Hong Wei,
  • Tao Pan,
  • Xiaoyun Wang

DOI
https://doi.org/10.1002/advs.202307981
Journal volume & issue
Vol. 11, no. 28
pp. n/a – n/a

Abstract

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Abstract Gut microbiota can influence host gene expression and physiology through metabolites. Besides, the presence or absence of gut microbiome can reprogram host transcriptome and epitranscriptome as represented by N6‐methyladenosine (m6A), the most abundant mammalian mRNA modification. However, which and how gut microbiota‐derived metabolites reprogram host transcriptome and m6A epitranscriptome remain poorly understood. Here, investigation is conducted into how gut microbiota‐derived metabolites impact host transcriptome and m6A epitranscriptome using multiple mouse models and multi‐omics approaches. Various antibiotics‐induced dysbiotic mice are established, followed by fecal microbiota transplantation (FMT) into germ‐free mice, and the results show that bile acid metabolism is significantly altered along with the abundance change in bile acid‐producing microbiota. Unbalanced gut microbiota and bile acids drastically change the host transcriptome and the m6A epitranscriptome in multiple tissues. Mechanistically, the expression of m6A writer proteins is regulated in animals treated with antibiotics and in cultured cells treated with bile acids, indicating a direct link between bile acid metabolism and m6A biology. Collectively, these results demonstrate that antibiotic‐induced gut dysbiosis regulates the landscape of host transcriptome and m6A epitranscriptome via bile acid metabolism pathway. This work provides novel insights into the interplay between microbial metabolites and host gene expression.

Keywords