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CD4 + T Cell Effector Status Is Dependent on Aryl Hydrocarbon Receptor Activation during High Salt Diet

Abstract only Recent studies suggest that patients with hypertension and individuals that consume a HSD are depleted of numerous tryptophan-derived indoles and other AHR-binding metabolites that are key in intestinal CD4+ T cell homeostasis. Thus, the inappropriate immunologic response by CD4+ T cel...

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Published in:Physiology (Bethesda, Md.) Md.), 2024-05, Vol.39 (S1)
Main Authors: Molina, Patrick, Edell, Claudia, Dunaway, Luke, Kellum, Cailin, Colson, Jackson, De Miguel, Carmen, Rhoads, Megan
Format: Article
Language:English
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Summary:Abstract only Recent studies suggest that patients with hypertension and individuals that consume a HSD are depleted of numerous tryptophan-derived indoles and other AHR-binding metabolites that are key in intestinal CD4+ T cell homeostasis. Thus, the inappropriate immunologic response by CD4+ T cells, and their role in hypertension, may be due in part to loss of AHR activation. Therefore, we hypothesized that AHR activation contributes to maintaining effector T cell status in salt-sensitive mice. To examine the influence of a representative homeostatic or proinflammatory environment and the subsequent response to salt, we cultured naïve CD4+ T cells under homeostatic cytokine or pathogenic cytokine conditions and exposed the cultures to increased NaCl conditions with or without the AHR-activating metabolite, FICZ (6-Formylindolo(3,2-b)-carbazole). TH17 cells cultured under homeostatic high salt conditions were depressed with a concomitant increase in response to FICZ. In contrast, TH17 cells cultured under pathogenic high salt conditions had augmented IL-17A-expressing cells without a response to AHR activation. These data suggest that excess salt is disrupting the ability to induce IL-17A and increasing AHR activity overcomes this disruption to promote IL-17A, without expansion of the pathogenic TH17 pool, and this observation was specific to non-pathogenic microenvironments (homeostatic TH17: media: 11±0.6%, +NaCl: 4.9±0.3%*, +NaCl/FICZ: 9.9±0.8%, of CD4; pathogenic TH17: media: 1.0±0.2%, +NaCl: 2.2±0.2%*, +NaCl/FICZ: 2.2±0.2%*, *vs respective media, n=8/group). Given these data, we then fed salt-sensitive mice (nitric oxide synthase inhibition) a HSD or a HSD supplemented with the AHR agonist indole-3-carbinol (I3C) and examined Peyer’s patches, a lymphoid tissue in close proximity to intestinal lumen contents enriched with salt and the I3C-metabolites and noted expansion of non-pathogenic TH17 cells. In conclusion, increasing AHR ligand availability through supplementing I3C may provide a gut-centric experimental approach in targeting experimental salt-sensitivity as it relates to immunologic disturbances. F31HL151264. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
ISSN:1548-9213
1548-9221
DOI:10.1152/physiol.2024.39.S1.1698