Opposing roles of resident and infiltrating immune cells in the defense against Legionella longbeachae via IL-18R/IFN-γ/ROS axis in mice

Abstract

The immune response against Legionella longbeachae, a causative agent of the often-fatal Legionnaires’ pneumonia, is poorly understood. Here we investigated the specific roles of tissue-resident alveolar macrophages (AM) and infiltrating phagocytes during infection with this pathogen. AM were the predominant cell type that internalized bacteria one day after infection. Three and five days after infection, AM numbers were greatly reduced while there was an influx of neutrophils and later monocyte-derived cells (MC) into lung tissue. AM carried greater numbers of viable L.longbeachae than neutrophils and MC, which correlated with a higher capacity of L.longbeachae to translocate bacterial effector proteins required for bacterial replication into the AM cytosol. Cell ablation experiments demonstrated that AM promoted infection whereas neutrophils and MC were required for efficient bacterial clearance. IL-18 was important for IFN-γ production by IL-18R+ NK cells and T cells which, in turn, stimulated ROS-mediated bactericidal activity in neutrophils resulting in restriction of L.longbeachae infection. Ciliated bronchiolar epithelial cells also expressed IL-18R but did not play a role in IL-18-mediated L.longbeachae clearance. Our results have identified opposing innate functions of tissue-resident and infiltrating immune cells during L.longbeachae infection that may be manipulated to improve protective responses.