A novel mouse model of pulmonary fibrosis: twice-repeated oropharyngeal bleomycin administration mimicking human pathology.

Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive and irreversible lung disease with high mortality and limited treatment options. While single-dose bleomycin-induced models are commonly used to investigate the pathogenesis of IPF, they fail to adequately replicate the complex pathological features in human patients, thereby hindering comprehensive investigations. Previous studies utilizing repetitive bleomycin injections have demonstrated a closer resemblance to human IPF pathology; however, the time- and resource-intensive nature of this approach presents significant drawbacks. Here, we propose a novel methodology involving twice-repeated oropharyngeal administration of bleomycin in mice, which closely mirrors the pathological manifestations observed in IPF patients. This model exhibited the honeycomb-like cyst formation, fibroblastic foci, bronchiolization of alveolar epithelium, emergence of metaplastic alveolar KRT5⁺ basal cells, and sustainability of these fibrotic phenotypes, thereby providing a robust model for IPF. Our findings establish a more efficient and translatable preclinical platform for investigating IPF pathogenesis and exploring potential therapeutic strategies.