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An obligatory role for club cells in preventing obliterative bronchiolitis in lung transplants
Zhiyi Liu, Fuyi Liao, Davide Scozzi, Yuka Furuya, Kaitlyn N. Pugh, Ramsey Hachem, Delphine L. Chen, Marlene Cano, Jonathan M. Green, Alexander S. Krupnick, Daniel Kreisel, Anne Karina T. Perl, Howard J. Huang, Steven L. Brody, Andrew E. Gelman
Zhiyi Liu, Fuyi Liao, Davide Scozzi, Yuka Furuya, Kaitlyn N. Pugh, Ramsey Hachem, Delphine L. Chen, Marlene Cano, Jonathan M. Green, Alexander S. Krupnick, Daniel Kreisel, Anne Karina T. Perl, Howard J. Huang, Steven L. Brody, Andrew E. Gelman
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Research Article Immunology Transplantation

An obligatory role for club cells in preventing obliterative bronchiolitis in lung transplants

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Abstract

Obliterative bronchiolitis (OB) is a poorly understood airway disease characterized by the generation of fibrotic bronchiolar occlusions. In the lung transplant setting, OB is a pathological manifestation of bronchiolitis obliterans syndrome (BOS), which is a major impediment to long-term recipient survival. Club cells play a key role in bronchiolar epithelial repair, but whether they promote lung transplant tolerance through preventing OB remains unclear. We determined if OB occurs in mouse orthotopic lung transplants following conditional transgene-targeted club cell depletion. In syngeneic lung transplants club cell depletion leads to transient epithelial injury followed by rapid club cell–mediated repair. In contrast, allogeneic lung transplants develop severe OB lesions that are largely devoid of club cells despite immunosuppression treatment. Lung allograft club cell ablation also triggers the recognition of alloantigens, and pulmonary restricted self-antigens reported associated with BOS development. However, CD8+ T cell depletion restores club cell reparative responses and prevents OB. In addition, ex vivo analysis reveals a specific role for alloantigen-primed CD8+ T cells in inhibiting club cell proliferation and maintenance. Taken together, our results demonstrate a vital role for club cells in maintaining lung transplant tolerance and propose a model to identify the underlying mechanisms of OB.

Authors

Zhiyi Liu, Fuyi Liao, Davide Scozzi, Yuka Furuya, Kaitlyn N. Pugh, Ramsey Hachem, Delphine L. Chen, Marlene Cano, Jonathan M. Green, Alexander S. Krupnick, Daniel Kreisel, Anne Karina T. Perl, Howard J. Huang, Steven L. Brody, Andrew E. Gelman

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Figure 5

Loss of allogeneic and pulmonary self-antigen tolerance following club cell ablation.

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Loss of allogeneic and pulmonary self-antigen tolerance following club c...
(A) POD 16 intragraft CD4+ and CD8+ T cell recall assays for syngeneic (B6) APCs, allogeneic (FVB) APCs, and syngeneic APCs that bear Kα1T or ColV peptides as measured by IFN-γ and IL-17A production. Data points shown are responses from individual transplants and means per group ± SEM (N ≥ 5/group). (B) Semiquantitative RT-PCR measurements of intragraft ColV (Col5a1) and Kα1T (Tuba1b) mRNA shown normalized to β-actin (Actb). Each data point represents a single transplant along with a group mean ± SEM (N = 5/group). *P <0.05, **P < 0.01, ***P < 0.001 by 2-tailed Mann-Whitney U test (A and B). Representative (N ≥ 3/group ) POD 16 allograft ColV and Kα1T (C) immunochemistry and (D) expression quantitation by staining area. In D, each histogram represents individual measurements from 3 or 4 randomly selected areas enriched for bronchioles for at least 3 transplants along with a mean per group ± SEM. ***P < 0.001 by 2-tailed t test.

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