Dietary and Microbial Oxazoles Induce Intestinal Inflammation by Modulating Aryl Hydrocarbon Receptor Responses

Genome-wide association studies have identified risk loci associated with the development of inflammatory bowel disease, while epidemiological studies have emphasized that pathogenesis likely involves host interactions with environmental elements whose source and structure need to be defined. Here,...

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Published inCell Vol. 173; no. 5; pp. 1123 - 1134.e11
Main Authors Iyer, Shankar S., Gensollen, Thomas, Gandhi, Amit, Oh, Sungwhan F., Neves, Joana F., Collin, Frederic, Lavin, Richard, Serra, Carme, Glickman, Jonathan, de Silva, Punyanganie S.A., Sartor, R. Balfour, Besra, Gurdyal, Hauser, Russell, Maxwell, Anthony, Llebaria, Amadeu, Blumberg, Richard S.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 17.05.2018
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Summary:Genome-wide association studies have identified risk loci associated with the development of inflammatory bowel disease, while epidemiological studies have emphasized that pathogenesis likely involves host interactions with environmental elements whose source and structure need to be defined. Here, we identify a class of compounds derived from dietary, microbial, and industrial sources that are characterized by the presence of a five-membered oxazole ring and induce CD1d-dependent intestinal inflammation. We observe that minimal oxazole structures modulate natural killer T cell-dependent inflammation by regulating lipid antigen presentation by CD1d on intestinal epithelial cells (IECs). CD1d-restricted production of interleukin 10 by IECs is limited through activity of the aryl hydrocarbon receptor (AhR) pathway in response to oxazole induction of tryptophan metabolites. As such, the depletion of the AhR in the intestinal epithelium abrogates oxazole-induced inflammation. In summary, we identify environmentally derived oxazoles as triggers of CD1d-dependent intestinal inflammatory responses that occur via activation of the AhR in the intestinal epithelium. [Display omitted] •Oxazoles derived from diet, industrial sources, and microbes activate IDO1•Environmental oxazoles induce tryptophan-derived metabolites to activate AhR in IECs•AhR activation in IECs limits CD1d-restricted production of IL-10•Oxazole activation of AhR in IECs results in iNKT-mediated intestinal inflammation A class of microbial and environmental compounds triggers inflammation in gut epithelial cells through the action of natural killer T cells and aryl hydrocarbon receptor signaling.
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ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2018.04.037