IL-9 promotes allergic lung inflammation by differentially affecting macrophage populations

Abstract

Abstract IL-9 promotes to the development of allergic lung disease through several responsive populations including mast cells, lymphocytes and eosinophils. However, it is not known if these represent the entire IL-9-responsive cell repertoire. In this study, we detected high IL-9R expression on macrophages and these cells occupied a large proportion of IL-9R+ cells in allergic lung. Allergic inflammation leads to a decrease in the number of alveolar macrophages (AM) in wild type mice. However, in Il9r−/− mice, the AM population is not diminished as greatly, suggesting that IL-9 represses AM self-renewal. The level of the IL-9R expression on blood monocyte is corelated with CCR2 expression, which is required for blood monocyte migration to the inflammatory site. In the chronic allergic airway disease model, the circulating monocyte population decreased coincident with an increase in the number of interstitial macrophages in the control mice compared to the Il9r−/− mice, suggesting IL-9 promotes monocyte migration and differentiation in the lung. Interestingly, IL-9 also induces a CD11c+ interstitial macrophage population in the allergic lung. Adoptive transfer of CD11c+ wild type macrophages to the Il9r−/− mice increased the inflammatory response. Thus, our study demonstrated that macrophages are important IL-9-responsive populations in allergic lung disease, and that IL-9 inhibits AM numbers as it promotes the development of pro-inflammatory CD11c+ and CD11c− interstitial macrophages. This balance is important in determining the level of allergic inflammation in the lung.