Abstract
Electronic nicotine delivery system (ENDS) use is outpacing our understanding of its potential harmful effects. Homeostasis of the lung is maintained through proper balance of cell death, efferocytic clearance, and phagocytosis of pathogens. To investigate whether ENDS use has the potential to alter this balance, we developed physiologically relevant ENDS exposure paradigms for lung epithelial cells and primary macrophages. In our studies, cells were exposed directly to aerosol made from carefully controlled components with and without nicotine. We found that ENDS aerosol exposure led to apoptosis, secondary necrosis, and necrosis in lung epithelial cell models. In contrast, macrophages died mostly by apoptosis and inflammatory caspase-mediated cell death when exposed to ENDS aerosol. The clearance of dead cells and pathogens by efferocytosis and phagocytosis, respectively, is an important process in maintaining a healthy lung. To investigate the impact of ENDS aerosol on macrophage function independent of general toxicity, we used an exposure time that did not induce cell death in primary macrophages. Exposure to ENDS aerosol containing nicotine inhibited nearly all phagocytic and greatly reduced the efferocytic abilities of primary macrophages. When challenged with a bacterial pathogen, there was decreased bacterial clearance. The presence of nicotine in the ENDS aerosol increased its toxicity and functional impact; however, nicotine exposure alone did not have any deleterious effects. These data demonstrate that ENDS aerosol exposure could lead to increased epithelial cell and macrophage death in the lung and impair important macrophage functions that are essential for maintenance of lung function.