Gut Microbes (Dec 2022)

A single cell survey of the microbial impacts on the mouse small intestinal epithelium

  • Derek K.L. Tsang,
  • Ryan J. Wang,
  • Oliver De Sa,
  • Arshad Ayyaz,
  • Elisabeth G. Foerster,
  • Giuliano Bayer,
  • Shawn Goyal,
  • Daniel Trcka,
  • Bibaswan Ghoshal,
  • Jeffrey L. Wrana,
  • Stephen E. Girardin,
  • Dana J. Philpott

DOI
https://doi.org/10.1080/19490976.2022.2108281
Journal volume & issue
Vol. 14, no. 1

Abstract

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The small intestinal epithelial barrier inputs signals from the gut microbiota in order to balance physiological inflammation and tolerance, and to promote homeostasis. Understanding the dynamic relationship between microbes and intestinal epithelial cells has been a challenge given the cellular heterogeneity associated with the epithelium and the inherent difficulty of isolating and identifying individual cell types. Here, we used single-cell RNA sequencing of small intestinal epithelial cells from germ-free and specific pathogen-free mice to study microbe-epithelium crosstalk at the single-cell resolution. The presence of microbiota did not impact overall cellular composition of the epithelium, except for an increase in Paneth cell numbers. Contrary to expectations, pattern recognition receptors and their adaptors were not induced by the microbiota but showed concentrated expression in a small proportion of epithelial cell subsets. The presence of the microbiota induced the expression of host defense- and glycosylation-associated genes in distinct epithelial cell compartments. Moreover, the microbiota altered the metabolic gene expression profile of epithelial cells, consequently inducing mTOR signaling thereby suggesting microbe-derived metabolites directly activate and regulate mTOR signaling. Altogether, these findings present a resource of the homeostatic transcriptional and cellular impact of the microbiota on the small intestinal epithelium.

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