Abstract

Cysteinyl leukotrienes (cysLTs) facilitate mucosal type 2 immunopathology by incompletely understood mechanisms. Aspirin-exacerbated respiratory disease, a severe asthma subtype, is characterized by exaggerated eosinophilic respiratory inflammation and reactions to aspirin, each involving the marked overproduction of cysLTs. Here we demonstrate that the type 2 cysLT receptor (CysLT₂R), which is not targeted by available drugs, is required in two different models to amplify eosinophilic airway inflammation via induced expression of IL-33 by lung epithelial cells. Endogenously generated cysLTs induced eosinophilia and expanded group 2 innate lymphoid cells (ILC2s) in aspirin-exacerbated respiratory disease-like <i>Ptges</i>^-/- mice. These responses were mitigated by deletions of either <i>Cysltr2</i> or leukotriene C₄ synthase (<i>Ltc4s</i>). Administrations of either LTC₄ (the parent cysLT) or the selective CysLT₂R agonist N-methyl LTC₄ to allergen sensitized wild-type mice markedly boosted ILC2 expansion and IL-5/IL-13 generation in a CysLT₂R-dependent manner. Expansion of ILC2s and IL-5/IL-13 generation reflected CysLT₂R-dependent production of IL-33 by alveolar type 2 cells, which engaged in a bilateral feed-forward loop with ILC2s. Deletion of <i>Cysltr1</i> blunted LTC₄-induced ILC2 expansion and eosinophilia but did not alter IL-33 induction. Pharmacological blockade of CysLT₂R prior to inhalation challenge of <i>Ptges</i>^-/- mice with aspirin blocked IL-33-dependent mast cell activation, mediator release, and changes in lung function. Thus, CysLT₂R signaling, IL-33-dependent ILC2 expansion, and IL-33-driven mast cell activation are necessary for induction of type 2 immunopathology and aspirin sensitivity. CysLT₂R-targeted drugs may interrupt these processes.