Adverse Impact of Ambient PM2.5 on Expression and Trafficking of Surfactant Protein A through Reactive Oxygen Species Damage to Lamellar Bodies

Abstract Particulate matter with a diameter of less than 2.5 μm (PM2.5) easily deposits on lung alveoli and degrades human health. Surfactant protein A (SP-A) is the most abundant pulmonary surfactant protein stored in lamellar bodies (LBs) of alveolar epithelial type II cells. The impacts of PM2.5 on SP-A are multifaceted and intractable, and the underlying mechanism remains unclear. In this study, the expression and distribution of SP-A in Balb/c mice and A549 cells under PM2.5 exposure were investigated. The results showed that the low and medium concentration of PM2.5 gradually enhanced SP-A protein and mRNA expression, whereas the high concentration of PM2.5 conspicuously decreased SP-A protein but not its mRNA compared with the control. The trafficking of SP-A to LBs was gradually disturbed, and concomitantly, the lesions of LBs responsible for the transport and storage of SP-A protein were exacerbated with increased PM2.5 concentration. Reactive oxygen species production abundantly increased upon PM2.5 exposure, and it was antagonized by the oxidant inhibitor N-acetylcysteine. Subsequently, the injured LBs and the decrease in SP-A expression under exposure to the high concentration of PM2.5 were well rescued. The present study provides a new perspective to investigate the adverse effects of PM2.5 or diesel exhaust particles on other proteins transported to and stored in LBs.