Amina Metidji scite author profile

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.

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The Environmental Sensor AHR Protects from Inflammatory Damage by Maintaining Intestinal Stem Cell Homeostasis and Barrier Integrity

Metidji

et al. 2018

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SummaryThe epithelium and immune compartment in the intestine are constantly exposed to a fluctuating external environment. Defective communication between these compartments at this barrier surface underlies susceptibility to infections and chronic inflammation. Environmental factors play a significant, but mechanistically poorly understood, role in intestinal homeostasis. We found that regeneration of intestinal epithelial cells (IECs) upon injury through infection or chemical insults was profoundly influenced by the environmental sensor aryl hydrocarbon receptor (AHR). IEC-specific deletion of Ahr resulted in failure to control C. rodentium infection due to unrestricted intestinal stem cell (ISC) proliferation and impaired differentiation, culminating in malignant transformation. AHR activation by dietary ligands restored barrier homeostasis, protected the stem cell niche, and prevented tumorigenesis via transcriptional regulation of of Rnf43 and Znrf3, E3 ubiquitin ligases that inhibit Wnt-β-catenin signaling and restrict ISC proliferation. Thus, activation of the AHR pathway in IECs guards the stem cell niche to maintain intestinal barrier integrity.

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The Intestine Harbors Functionally Distinct Homeostatic Tissue-Resident and Inflammatory Th17 Cells

et al. 2019

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Summary T helper 17 (Th17) cells are pathogenic in many inflammatory diseases, but also support the integrity of the intestinal barrier in a non-inflammatory manner. It is unclear what distinguishes inflammatory Th17 cells elicited by pathogens and tissue-resident homeostatic Th17 cells elicited by commensals. Here, we compared the characteristics of Th17 cells differentiating in response to commensal bacteria (SFB) to those differentiating in response to a pathogen ( Citrobacter rodentium ). Homeostatic Th17 cells exhibited little plasticity towards expression of inflammatory cytokines, were characterized by a metabolism typical of quiescent or memory T cells, and did not participate in inflammatory processes. In contrast, infection-induced Th17 cells showed extensive plasticity towards pro-inflammatory cytokines, disseminated widely into the periphery, and engaged aerobic glycolysis in addition to oxidative phosphorylation typical for inflammatory effector cells. These findings will help ensure that future therapies directed against inflammatory Th17 cells do not inadvertently damage the resident gut population.

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Helios Controls a Limited Subset of Regulatory T Cell Functions

et al. 2016

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A subpopulation (60–70%) of Foxp3+ T regulatory (Treg) cells in both mouse and man express the transcription factor, Helios, but the role of Helios in Treg function is still unknown. In order to examine the function of Helios in Treg cells, we have generated Treg-specific Helios deficient mice. We show here that this selective deletion of Helios in Tregs leads to slow, progressive systemic immune activation, hypergammaglobulinemia, and enhanced germinal center formation in the absence of organ specific autoimmunity. Helios deficient Treg suppressor function was normal in vitro as well as in an in vivo inflammatory bowel disease model. However, Helios deficient Treg cells failed to control the expansion of pathogenic T cells derived from scurfy mice and failed to mediate T follicular regulatory cell function and control both TFH and Th1 effector cell responses. In competitive settings, Helios deficient Tregs, particularly effector Tregs, were at a disadvantage, indicating that Helios regulates effector Treg fitness. Thus, we have demonstrated, for the first time, that Helios controls certain aspects of Treg suppressive function, differentiation and survival.

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Amina Metidji

Feedback control of AHR signalling regulates intestinal immunity

The Environmental Sensor AHR Protects from Inflammatory Damage by Maintaining Intestinal Stem Cell Homeostasis and Barrier Integrity

The Intestine Harbors Functionally Distinct Homeostatic Tissue-Resident and Inflammatory Th17 Cells

Helios Controls a Limited Subset of Regulatory T Cell Functions

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