Background
Asthma in the mouse model spontaneously resolves after cessation of allergen exposure. We developed a mouse model where asthma features persisted for 6 months after cessation of allergen exposure.
Objective
To elucidate factors contributing to the persistence of asthma.
Methods
We utilized a combination of immunologic, genetic, microarray and pharmacologic approaches to dissect the mechanism of persistence of asthma.
Results
Elimination of T cells though antibody-mediated depletion or lethal irradiation and transplantation of Rag1−/− bone marrow in mice with chronic asthma resulted in resolution of airway inflammation but not airway hyperreactivity or remodeling. Elimination of T cells and ILC2 through lethal irradiation and transplantation of Rag2−/−γc−/− bone marrow or blockade of IL33 resulted in resolution of airway inflammation and hyperreactivity. Persistence of asthma required multiple interconnected feedback and feed forward circuits between ILC2 and epithelial cells. Epithelial IL33 induced ILC2, a rich source of IL13. The latter directly induced epithelial IL33 establishing a positive feedback circuit. IL33 auto-induced, generating another feedback circuit. IL13 upregulated IL33 receptors and facilitated IL33 auto-induction, thus establishing a feed forward circuit. Elimination of any component of these circuits resulted in resolution of chronic asthma. In agreement with the foregoing, IL33 and ILC2 were increased in the airways from asthmatic patients. IL33 correlated with disease severity.
Conclusions
We present a critical network of feedback and feed forward interactions between epithelial cells and ILC2 involved in maintaining chronic asthma. Although T cells contributed to the severity of chronic asthma they were redundant in maintaining airway hyperreactivity and remodeling.
Background-Th2 cells can further differentiate into dual positive Th2/Th17 cells. The presence of dual positive Th2/Th17 cells in the airways and its impact on asthma severity are unknown.
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