Alveolar macrophages initiate the spatially targeted recruitment of neutrophils after nanoparticle inhalation
Qiongliang Liu, Lin Yang, Chenxi Li, Lianyong Han, Juliet Wilmot, Guo Yang, Riccardo Leinardi, Qiaoxia Zhou, Andreas Schröppel, David Kutschke, Judith Secklehner, Ali Önder Yildirim, François Huaux, Dagmar Zeuschner, Leo M. Carlin, Markus Sperandio, Otmar Schmid, Tobias Stoeger, Markus Rehberg
Abstract
Lung resident immune cells are essential for initiating defenses against inhaled air pollutants, including nanoparticles (NPs), which contribute to pulmonary disease progression. Here, lung intravital microscopy was used to examine the pulmonary innate immune responses in mice, during acute aerosol exposure to carbon NPs, a common environmental pollutant, or fluorescent quantum dot NPs. We found that inhaled NPs triggered rapid, neutrophil recruitment, localized to alveolar NP deposition hotspots, orchestrated by alveolar macrophages (AMs) through both their motility and phagocytic activity. AM motility inhibition in the alveoli via intercellular adhesion molecule-1/LFA-1 blockade reduced neutrophil recruitment, as did impaired AM phagocytosis through C5a receptor 1/Fc-γ receptor I inhibition or by stealth NP surfaces. In addition, cellular degranulation inhibition indicated the importance of spatially focused cytokine release in neutrophil recruitment. Collectively, our study elucidates AM-epithelial interactions as a critical key event for NPs triggered neutrophilia, with AM motility and phagocytosis driving recruitment and site-specific immune responses in the alveolar microenvironment.