Airway hyperreactivity in asthma is mediated by airway nerves, including sensory nerves in airway epithelium and parasympathetic nerves innervating airway smooth muscle. Isolating the function of these two nerve populations in vivo, to distinguish how each is affected by inflammatory processes and contributes to hyperreactivity in asthma, has been challenging. In this study, we used optogenetic acti-vation of airway nerves in vivo to study parasympathetic contributions to airway hyperreactivity in two mouse models of asthma: 1) acute challenge with house dust mite antigen, and 2) chronic airway hy-pereosinophilia due to genetic IL-5 overexpression in airways. Overall airway hyperreactivity, as meas-ured by bronchoconstriction to an inhaled agonist, was increased in both models. In contrast, optoge-netic stimulation of isolated efferent parasympathetic nerves induced bronchoconstriction only in the acute house dust mite antigen challenge group. Using whole mount tissue immunofluorescence and modeling software, we then measured, in three dimensions, the interactions between eosinophils and parasympathetic nerves in both models and found that eosinophils were more numerous and more proximal to airway parasympathetic nerves in antigen challenged and IL-5 transgenic mice than in their respective controls, but were not significantly different between the two asthma models. Thus even though eosinophils were increased around nerves in both models, parasympathetic nerves only mediated airway hyperreactivity in the antigen challenged mice. This study demonstrates divergent effects of acute versus chronic eosinophilia on parasympathetic airway nerve activity and points to eo-sinophil-nerve interactions as a key regulator of airway hyperreactivity in antigen challenged mice.
Keywords: Airway hyperreactivity; Asthma; Eosinophil; Optogenetics; Parasympathetic nerves.