Dietary indoles influence the AHR-RORγt axis and mucosal immune homeostasis in ART-treated SIV infection
Siva Thirugnanam, Alison R. Van Zandt, Alexandra B. McNally, Victoria A. Hart, Isabelle Berthelot, Cecily C. Midkiff, Lara A. Doyle-Meyers, David A. Welsh, Robert V. Blair, Andrew G. MacLean, Namita Rout
Siva Thirugnanam, Alison R. Van Zandt, Alexandra B. McNally, Victoria A. Hart, Isabelle Berthelot, Cecily C. Midkiff, Lara A. Doyle-Meyers, David A. Welsh, Robert V. Blair, Andrew G. MacLean, Namita Rout
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Research Article AIDS/HIV Immunology Inflammation

Dietary indoles influence the AHR-RORγt axis and mucosal immune homeostasis in ART-treated SIV infection

Abstract

HIV infection rapidly impairs the gastrointestinal barrier, contributing to persistent mucosal immune dysfunction, microbial translocation, and systemic inflammation despite antiretroviral therapy (ART). Using SIV-infected rhesus macaques on long-term ART, we investigated mechanisms underlying impairment in gut barrier–protective IL-17/IL-22 responses and the potential modulation of this pathway by dietary indoles. Longitudinal profiling of colonic epithelial and lamina propria cells revealed a selective loss of IL-17/IL-22–producing γδ T cells and type 3 innate lymphoid cells (ILC3s). This loss correlated with reduced expression of the transcription factors AHR and RORγt and was associated with elevated plasma markers of intestinal epithelial barrier disruption (IEBD), including intestinal fatty acid–binding protein (iFABP), zonulin, and LPS-binding protein (LBP). Targeting this transcriptional deficiency, dietary indole supplementation for 1 month restored colonic AHR+ IL-22–producing γδ T cells, RORγt+ ILC3s, and Vδ1 T cells, and was associated with reduced iFABP and zonulin levels. Immunohistochemical analyses further demonstrated enrichment of AHR/RORγt-coexpressing cells in the colon of indole-supplemented animals during chronic SIV infection on ART. Collectively, these findings indicate that disruption of the AHR-RORγt axis is a key pathogenic mechanism underlying persistent IEBD in chronic SIV/HIV infection. Modulation of AHR and RORγt signaling pathways in the gut may therefore represent a promising therapeutic strategy to reinforce mucosal barrier function and mitigate chronic inflammation in people living with HIV.

Authors

Siva Thirugnanam, Alison R. Van Zandt, Alexandra B. McNally, Victoria A. Hart, Isabelle Berthelot, Cecily C. Midkiff, Lara A. Doyle-Meyers, David A. Welsh, Robert V. Blair, Andrew G. MacLean, Namita Rout

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Figure 10

Enrichment of AHR/RORγt-coexpressing cells in dietary indole–supplemented animals during chronic SIV+ART.

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Enrichment of AHR/RORγt-coexpressing cells in dietary indole–supplemente...
Fluorescent IHC demonstrating ZO-1, AHR, and RORγt expression in colon. (A) Representative colon sections from one SIV-naive (top) and one chronic SIV–positive macaque (bottom). The SIV-naive animal shows strong ZO-1 expression (green, arrows) along the apical margin of epithelial cells (red; top left), and abundant AHR-expressing (green, arrow) cells both with and without RORγt expression (red, arrowheads; top right). Inset highlights an AHR+RORγt+ cell in yellow. The chronically SIV-infected macaque demonstrates a loss of ZO-1 expression with only patchy, residual expression (green, arrows; bottom left), and a reduction in AHR-expressing cells within the mucosa and a depletion of single- and dual-positive RORγt-expressing cells (red, arrowhead; bottom right). Inset highlights an AHR+RORγt+ cell. Scale bars: 100 μm. Original magnification, ×200. White, DAPI (right); red, pan-cytokeratin (left), RORγt (right); green, ZO-1 (left), AHR (right). (B) AHR+RORγt+ cells/mm2 quantified using HALO software. Data show mean ± SEM and comparison between control and DS group by Mann-Whitney test.