Type 1 alveolar epithelial cell-derived chemokine CCL19 promotes airway inflammation

Abstract

Abstract Allergic asthma is largely driven by the actions of allergen-specific CD4+T helper cells. Following allergen inhalation, these cells are induced by the interaction of naïve CD4+ T cells with antigen-bearing dendritic cells (DCs) in lung-draining lymph nodes. The molecular mechanisms underlying the induction of T helper cells have been well studied, and include the migration of allergen-bearing DCs to lung-draining lymph nodes in a manner dependent on the chemokine receptor, CCR7. However, comparatively little is known regarding how these effector T cells become activated following their subsequent encounter with allergen in the lung. This knowledge would be useful in the design of novel therapies for asthma, especially for neutrophilic asthma, which is refractory to inhaled glucocorticoids. We recently noticed that lung DCs migrating to lymph nodes originate from the large airways, whereas DCs associated with small airways, parenchyma and subpleural areas are non-migratory. Video confocal analysis of precision cut lung slices revealed that these non-migratory DCs form tight interactions with OVA-specific T cells and stimulate T cell receptor signaling, as measured by activation of a Nur77-gfpreporter gene. Furthermore, Ccl19, which encodes a CCR7-ligand, is highly expressed by type 1 alveolar epithelial cells, and in mouse model of asthma, airway inflammation was significantly diminished in CCL19-deficient mice compared with WT mice. Together, our findings suggest that CCL19 produced by type I epithelial cells acts to position lung DCs in the distal area of the lung where they interact with effector T cells, thereby promoting allergic airway inflammation.