Abstract
The aryl hydrocarbon receptor (AHR) recognises xenobiotics as well as natural compounds such as tryptophan metabolites, dietary components and microbiota-derived factors1–4 and is important for maintenance of homeostasis at mucosal surfaces. AHR activation induces cytochrome P4501 (CYP1) enzymes, which oxygenate AHR ligands, leading to their metabolic clearance and detoxification5. Thus, CYP1 enzymes appear to play an important feedback role that curtails the duration of AHR signalling6, but it remains elusive whether they also regulate AHR ligand availability in vivo. Here we show that dysregulated expression of Cyp1a1 depletes the reservoir of natural AHR ligands, generating a quasi AHR-deficient state. Constitutive expression of Cyp1a1 throughout the body or restricted specifically to intestinal epithelial cells (IECs) resulted in loss of AHR-dependent type 3 innate lymphoid cells (ILC3) and T helper 17 (Th17) cells and increased susceptibility to enteric infection. The deleterious effects of excessive AHR ligand degradation on intestinal immune functions could be counter-balanced by increasing the intake of AHR ligands in the diet. Thus, our data indicate that IECs serve as gatekeepers for the supply of AHR ligands to the host and emphasise the importance of feedback control in modulating AHR pathway activation.
Highlights
It is increasingly understood that aryl hydrocarbon receptor (AHR) signalling needs to be tightly controlled, since prolonged activation either by ligands that resist metabolic clearance or by constitutively
We hypothesized that excessive CYP1A1-mediated metabolic clearance of natural AHR ligands would impact the intestinal immune system, where several immune cell types are dependent on AHR signalling for their survival
As proof of principle we investigated the effect of constitutive Cyp1a1 expression on T helper 17 (Th17) cells, which express AHR and produce IL-22 in an AHR-dependent manner[11]
Summary
Chris Schiering[1], Emma Wincent§, Amina Metidji[1], Andrea Iseppon[1], Ying Li1, Alexandre J. Potocnik[2], Sara Omenetti[1], Colin J. Nebert¶, and Brigitta Stockinger1 1The Francis Crick Institute, London NW1 1AT, UK
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