CD103+ dendritic cell–fibroblast crosstalk via TLR9, TDO2, and AHR signaling drives lung fibrogenesis
Hannah Carter, … , Bethany B. Moore, Stephen J. Gurczynski
Hannah Carter, … , Bethany B. Moore, Stephen J. Gurczynski
Published February 18, 2025
Citation Information: JCI Insight. 2025;10(6):e177072. https://doi.org/10.1172/jci.insight.177072.
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Research Article Immunology Pulmonology

CD103+ dendritic cell–fibroblast crosstalk via TLR9, TDO2, and AHR signaling drives lung fibrogenesis

Abstract

Idiopathic pulmonary fibrosis (IPF) is characterized by progressive scarring and loss of lung function. With limited treatment options, patients die from the disease within 2–5 years. The molecular pathogenesis underlying the immunologic changes that occur in IPF is poorly understood. We characterize noncanonical aryl-hydrocarbon receptor (ncAHR) signaling in DCs as playing a role in the production of IL-6 and increased IL-17+ cells, promoting fibrosis. TLR9 signaling in myofibroblasts is shown to regulate production of TDO2, which converts tryptophan into the endogenous AHR ligand kynurenine. Mice with augmented ncAHR signaling were created by crossing mice harboring a floxed AHR exon 2 deletion (AHRΔex2) with mice harboring a CD11c-Cre. Bleomycin (blm) was used to study fibrotic pathogenesis. Isolated CD11c+ cells and primary fibroblasts were treated ex vivo with relevant TLR agonists and AHR-modulating compounds to study how AHR signaling influenced inflammatory cytokine production. Human datasets were also interrogated. Inhibition of all AHR signaling rescued fibrosis; however, AHRΔex2 mice treated with blm developed more fibrosis, and DCs from these mice were hyperinflammatory and profibrotic upon adoptive transfer. Treatment of fibrotic fibroblasts with TLR9 agonist increased expression of TDO2, and fibrotic fibroblasts activated IL-6 production in CD103+ DCs. Study of human samples corroborated the relevance of these findings in patients with IPF. We also show, for the first time to our knowledge, that AHR exon 2 floxed mice retain the capacity for ncAHR signaling.

Authors

Hannah Carter, Rita Medina Costa, Taylor S. Adams, Talon M. Gilchrist, Claire E. Emch, Monica Bame, Justin M. Oldham, Steven K. Huang, Angela L. Linderholm, Imre Noth, Naftali Kaminski, Bethany B. Moore, Stephen J. Gurczynski

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Figure 8

Ex vivo coculture of CD103+ DCs and fibroblasts increases IL-6 production.

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Ex vivo coculture of CD103+ DCs and fibroblasts increases IL-6 productio...
(A) CD103+ DCs were isolated using a 2-step magnetic bead isolation with CD11c- and CD103-specific antibodies. Cells were pooled from n = 20 mice and cocultured in triplicate with fibroblasts harvested from lungs of 21-day blm-treated mice. After 24 hours of coculture, RNA was isolated, and expression of IL-6 transcript was analyzed via qRT-PCR. Shown is a calculated index of IL-6 transcript expression minus the baseline expression of the fibroblasts without DC coculture in comparison to DCs alone (–, CD103-negative DCs; +, CD103-positive DCs). Statistical significance was determined via ANOVA (*P < 0.05, ***P < 0.001). (B) Myofibroblasts express the kynurenine pathway enzyme TDO2 in response to TLR9 stimulation. Kynurenine pathway (KP) metabolites activate ncAHR signaling in DCs, which, in cooperation with inflammatory TLR singling, augments production of IL-6, resulting in production of IL-17 from lymphocytes. Fibroblasts can be directly activated by IL-17, resulting in collagen production and fibroproliferation. DAMPs, damage-associated molecular patterns.