Popis: |
Histopathologic evidence of deployment-related constrictive bronchiolitis (DRCB) has been identified in soldiers deployed to Southwest Asia. While inhalational injury to the airway epithelium is suspected, relatively little is known about the pathogenesis underlying this disabling disorder. Club cells are local progenitors critical for repairing the airway epithelium after exposure to various airborne toxins, and a prior study using an inducible transgenic murine model reported that 10 days of sustained targeted club cell injury causes constrictive bronchiolitis. To further understand the mechanisms leading to small airway fibrosis, a murine model was employed to show that sustained club cell injury elicited acute weight loss, caused increased local production of proinflammatory cytokines, and promoted accumulation of numerous myeloid cell subsets in the lung. Transition to a chronic phase was characterized by up-regulated expression of oxidative stress-associated genes, increased activation of transforming growth factor-β, accumulation of alternatively activated macrophages, and enhanced peribronchiolar collagen deposition. Comparative histopathologic analysis demonstrated that sustained club cell injury was sufficient to induce epithelial metaplasia, airway wall thickening, peribronchiolar infiltrates, and clusters of intraluminal airway macrophages that recapitulated key abnormalities observed in DRCB. Depletion of alveolar macrophages in mice decreased activation of transforming growth factor-β and ameliorated constrictive bronchiolitis. Collectively, these findings implicate sustained club cell injury in the development of DRCB and delineate pathways that may yield biomarkers and treatment targets for this disorder. |