Literature DB >> 28262351

An Intestinal Organ Culture System Uncovers a Role for the Nervous System in Microbe-Immune Crosstalk.

Nissan Yissachar1, Yan Zhou1, Lloyd Ung2, Nicole Y Lai1, James F Mohan1, Allen Ehrlicher2, David A Weitz2, Dennis L Kasper1, Isaac M Chiu3, Diane Mathis4, Christophe Benoist4.   

Abstract

Investigation of host-environment interactions in the gut would benefit from a culture system that maintained tissue architecture yet allowed tight experimental control. We devised a microfabricated organ culture system that viably preserves the normal multicellular composition of the <span class="Species">mouse intestine, with luminal flow to control perturbations (e.g., microbes, drugs). It enables studying short-term responses of diverse gut components (immune, neuronal, etc.). We focused on the early response to bacteria that induce either Th17 or RORg+ T-regulatory (Treg) cells in vivo. Transcriptional responses partially reproduced in vivo signatures, but these microbes elicited diametrically opposite changes in expression of a neuronal-specific gene set, notably nociceptive neuropeptides. We demonstrated activation of sensory neurons by microbes, correlating with RORg+ Treg induction. Colonic RORg+ Treg frequencies increased in mice lacking TAC1 neuropeptide precursor and decreased in capsaicin-diet fed mice. Thus, differential engagement of the enteric nervous system may partake in bifurcating pro- or anti-inflammatory responses to microbes.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  enteric nervous system; gut microbiota; neuropeptides; regulatory T cells; substance P

Mesh:

Year:  2017        PMID: 28262351      PMCID: PMC5396461          DOI: 10.1016/j.cell.2017.02.009

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


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