Sirolimus-eluting airway stent reduces profibrotic Th17 cells and inhibits laryngotracheal stenosis
Kevin M. Motz, Ioan A. Lina, Idris Samad, Michael K. Murphy, Madhavi Duvvuri, Ruth J. Davis, Alexander Gelbard, Liam Chung, Yee Chan-Li, Samuel Collins, Jonathan D. Powell, Jennifer H. Elisseeff, Maureen R. Horton, Alexander T. Hillel
Kevin M. Motz, Ioan A. Lina, Idris Samad, Michael K. Murphy, Madhavi Duvvuri, Ruth J. Davis, Alexander Gelbard, Liam Chung, Yee Chan-Li, Samuel Collins, Jonathan D. Powell, Jennifer H. Elisseeff, Maureen R. Horton, Alexander T. Hillel
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Research Article Immunology Pulmonology

Sirolimus-eluting airway stent reduces profibrotic Th17 cells and inhibits laryngotracheal stenosis

Abstract

Laryngotracheal stenosis (LTS) is pathologic fibrotic narrowing of the larynx and trachea characterized by hypermetabolic fibroblasts and CD4+ T cell–mediated inflammation. However, the role of CD4+ T cells in promoting LTS fibrosis is unknown. The mTOR signaling pathways have been shown to regulate the T cell phenotype. Here we investigated the influence of mTOR signaling in CD4+ T cells on LTS pathogenesis. In this study, human LTS specimens revealed a higher population of CD4+ T cells expressing the activated isoform of mTOR. In a murine LTS model, targeting mTOR with systemic sirolimus and a sirolimus-eluting airway stent reduced fibrosis and Th17 cells. Selective deletion of mTOR in CD4+ cells reduced Th17 cells and attenuated fibrosis, demonstrating CD4+ T cells’ pathologic role in LTS. Multispectral immunofluorescence of human LTS revealed increased Th17 cells. In vitro, Th17 cells increased collagen-1 production by LTS fibroblasts, which was prevented with sirolimus pretreatment of Th17 cells. Collectively, mTOR signaling drove pathologic CD4+ T cell phenotypes in LTS, and targeting mTOR with sirolimus was effective at treating LTS through inhibition of profibrotic Th17 cells. Finally, sirolimus may be delivered locally with a drug-eluting stent, transforming clinical therapy for LTS.

Authors

Kevin M. Motz, Ioan A. Lina, Idris Samad, Michael K. Murphy, Madhavi Duvvuri, Ruth J. Davis, Alexander Gelbard, Liam Chung, Yee Chan-Li, Samuel Collins, Jonathan D. Powell, Jennifer H. Elisseeff, Maureen R. Horton, Alexander T. Hillel

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Figure 3

Selective deletion of mTOR in CD4 cells reduced fibrosis and improved survival in LTS mice.

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Selective deletion of mTOR in CD4 cells reduced fibrosis and improved su...
Bleomycin-induced LTS was assessed in CD4 Cre-Mtorfl/fl mice (CD4-Mtor–/–) and CD4 Cre-WT mice (CD4-WT) (A) Experimental design. (B) Representative histology (original magnification, ×10, top; ×40, bottom) of LTS-induced tracheas of day 21 CD4-Mtor–/– and CD4-WT mice. Scale bars: 200 μm (×10); 50 μm (×40). (C) Quantitative real-time PCR demonstrated reduced Col1a1 expression (93.64 ± 70.28 vs. 232 ± 26.52) in CD4-Mtor–/– (n = 3) versus CD4-WT (n = 3) control mice at day 7. (D) Quantitative comparison revealed reduced tracheal lamina propria thicknesses at day 21 in LTS CD4-Mtor–/– (50.97 ± 2.677 μm, n = 6) compared with CD4-WT (71.48 ± 4.790 μm, n = 6) mice. (E) 21-day Kaplan-Meier curve demonstrated improved survival in CD4-Mtor–/– (gray line, n = 25) mice compared with CD4-WT (black line, n = 21) mice (HR = 3.887; 95% CI, 1.577–9.585; P < 0.01). (F) Representative flow cytometry plots of CD4+ T cell phenotypes from LTS-induced tracheas of CD4-Mtor–/– and CD4-WT mice. (G) Immune cell populations in LTS tracheas from CD4-Mtor–/– (n = 3) and CD4-WT (n = 3) mice at day 4. (H) Analysis of CD4+ T cell phenotype showed reduced Th1 (2.75 ± 0.709) and Th17 (4.167 ± 0.629) cells in CD4-Mtor–/– mice (n = 3) at day 4 after LTS induction. Flow cytometry data are presented as mean reduction ± SEM. A Mann-Whitney U test was used to compare LP thickness between CD4-Mtor–/– and CD4-WT mice and is presented as mean ± SEM. Survival differences were determined using a Mantel-Cox log-rank analysis and presented as a HR with 95% CI. A 2-way ANOVA was used to assess differences in immune cell populations. An unpaired t test comparing ΔΔCT values was used to assess changes in gene expression presented as average fold change (2ΔΔCT) ± SEM. **P < 0.01, ****P < 0.0001.