Role for dysregulated iron in the pathogenesis of murine models of lung disease

Abstract

Abstract Altered iron levels and/or dysregulated iron homeostasis have been associated with a number of lung diseases, however, the mechanisms that underpin these associations, and whether iron plays a role in the pathogenesis of disease, are yet to be fully elucidated. In this study, systemic and pulmonary iron and lung structure and function were assessed in transferrin receptor (TFR)2 mutant and wild-type (WT) BALB/c mice fed a high-iron diet (containing 2% carbonyl iron) compared to normal diet controls, respectively. The effects of increased iron loading on murine models of ovalbumin- and house dust mite-induced allergic airways disease (AAD) were also assessed. Excess iron accumulation was observed in the lungs in both the genetic and diet-induced models of iron overloading. Increased iron levels in the lung were associated with emphysema-like alveolar enlargement, small airways collagen deposition, alterations in baseline lung function and increased airways hyper-responsiveness (AHR). Increased iron loading also resulted in altered type 1, 2 and 17 cytokine production, increased eosinophilic inflammation and severe, steroid-resistant AHR in AAD. Interestingly, AAD also results in altered systemic and pulmonary iron levels and iron regulatory molecule expression. These data show that increased iron levels in the lung results in emphysema and airways fibrosis that corresponds with reduced lung function. We also show that lung disease may be closely associated with changes in iron homeostasis. These models will be used to characterize the interplay between iron and immunity in the pathogenesis of lung disease and determine the therapeutic effectiveness of correcting dysregulated iron homeostasis for the treatment of lung disease.