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 1

LTS is a fibrotic extrathoracic obstructive airway disease.

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LTS is a fibrotic extrathoracic obstructive airway disease. (A) High-res...
(A) High-resolution endoscopic image of the proximal trachea in a normal human trachea (normal airway) compared with a patient with LTS (LTS airway), showing extensive narrowing of the airway. CC, cricoid cartilage; VC, vocal cord. (B) Photomicrograph (scale bar: 2 mm) and high-power (×20) microscopic images (scale bar: 200 μm) of H&E-stained sections from normal airway and an LTS airway. C, cartilage. (C) Quantitative analysis demonstrated increased LP thickness in human LTS specimens (2625.3 ± 435.7 μm, n = 8) compared with normal control specimens (584.4 ± 220.1 μm, n = 8). (D) COL1A1 expression was greater in the LTS airway (8.33 ± 12.76) than in the normal trachea (0.99 ± 0.49). (E) Representative H&E (scale bar: 50 μm) and immunofluorescent staining (scale bar: 100 μm) for the cell surface marker CD4 and the activated form of the kinase mTOR (p-mTOR) shows human LTS has dense subepithelial CD4+ T cells (green surface fluorochrome) coexpressing p-mTOR (red intracellular fluorochrome). Quantitative analysis demonstrated greater density of (F) CD4+ cells in the LTS airway (40.69 ± 3.13) than in the normal airway (1.81 ± 0.671), (G) p-mTOR+ (44.85 ± 4.47 versus 14.70 ± 1.24) and (H) CD4+ p-mTOR+ (26.53 ± 3.10 versus 1.44 ± 0.568) cells in human LTS compared with normal control specimens. Data are presented as individual data points with error bars reflecting the mean ± SEM. Gene expression data are represented as average fold change (2ΔΔCT) and SEM. A Student’s t test was used to determine P values for comparisons. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.