PLoS Biology (Feb 2017)

The enteric nervous system promotes intestinal health by constraining microbiota composition.

  • Annah S Rolig,
  • Erika K Mittge,
  • Julia Ganz,
  • Josh V Troll,
  • Ellie Melancon,
  • Travis J Wiles,
  • Kristin Alligood,
  • W Zac Stephens,
  • Judith S Eisen,
  • Karen Guillemin

DOI
https://doi.org/10.1371/journal.pbio.2000689
Journal volume & issue
Vol. 15, no. 2
p. e2000689

Abstract

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Sustaining a balanced intestinal microbial community is critical for maintaining intestinal health and preventing chronic inflammation. The gut is a highly dynamic environment, subject to periodic waves of peristaltic activity. We hypothesized that this dynamic environment is a prerequisite for a balanced microbial community and that the enteric nervous system (ENS), a chief regulator of physiological processes within the gut, profoundly influences gut microbiota composition. We found that zebrafish lacking an ENS due to a mutation in the Hirschsprung disease gene, sox10, develop microbiota-dependent inflammation that is transmissible between hosts. Profiling microbial communities across a spectrum of inflammatory phenotypes revealed that increased levels of inflammation were linked to an overabundance of pro-inflammatory bacterial lineages and a lack of anti-inflammatory bacterial lineages. Moreover, either administering a representative anti-inflammatory strain or restoring ENS function corrected the pathology. Thus, we demonstrate that the ENS modulates gut microbiota community membership to maintain intestinal health.