Literature DB >> 33352109

Enteroendocrine cells sense bacterial tryptophan catabolites to activate enteric and vagal neuronal pathways.

Lihua Ye1, Munhyung Bae2, Chelsi D Cassilly2, Sairam V Jabba3, Daniel W Thorpe4, Alyce M Martin4, Hsiu-Yi Lu5, Jinhu Wang6, John D Thompson7, Colin R Lickwar1, Kenneth D Poss7, Damien J Keating4, Sven-Eric Jordt3, Jon Clardy2, Rodger A Liddle8, John F Rawls9.   

Abstract

The intestinal epithelium senses nutritional and microbial stimuli using epithelial sensory enteroendocrine cells (EEC). EECs communicate nutritional information to the nervous system, but whether they also relay signals from intestinal microbes remains unknown. Using in vivo real-time measurements of EEC and nervous system activity in zebrafish, we discovered that the bacteria Edwardsiella tarda activate EECs through the receptor transient receptor potential ankyrin A1 (Trpa1) and increase intestinal motility. Microbial, pharmacological, or optogenetic activation of Trpa1+EECs directly stimulates vagal sensory ganglia and activates cholinergic enteric neurons by secreting the neurotransmitter 5-hydroxytryptamine (5-HT). A subset of indole derivatives of tryptophan catabolism produced by E. tarda and other gut microbes activates zebrafish EEC Trpa1 signaling. These catabolites also directly stimulate human and mouse Trpa1 and intestinal 5-HT secretion. These results establish a molecular pathway by which EECs regulate enteric and vagal neuronal pathways in response to microbial signals.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Danio rerio; bacterial tryptophan catabolism; enteroendocrine cells; gut microbes; gut-brain axis communication; indole; indole-3-carboxaldehyde; intestinal peristalsis; serotonin

Mesh:

Substances:

Year:  2020        PMID: 33352109      PMCID: PMC7997396          DOI: 10.1016/j.chom.2020.11.011

Source DB:  PubMed          Journal:  Cell Host Microbe        ISSN: 1931-3128            Impact factor:   21.023


  108 in total

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