Spatial characteristics of neutrophils and eosinophils in conducting airway mucosa of mice with induced allergic airway inflammation

Daily inhaled antigens induce cellular immune response in the airways. In case of allergens, allergic airway inflammation is usually represented by eosinophils, however, neutrophil infiltration is also observed during severe asthma. Animal models contribute to investigation of the mechanisms that involve the switching to eosinophil- or neutrophil-mediated inflammation. Data about the spatial location of eosinophils and neutrophils in the airways are necessary for both the understanding of allergic airway inflammation mechanisms and the drag potential estimation, however, not completely investigated. In the present study, we characterized the model of Aspergillus fumigatus extract-induced allergic airway inflammation that allowed investigating the early stage of inflammation development. The model adequacy was confirmed according to the blood and bronchoalveolar lavage eosinophilia. Using immunohistochemical staining of conducting airway as a whole-mount and confocal laser scanning microscopy, we estimated neutrophil and eosinophil spatial location: in the luminal side of the epithelium, in the airway wall or in the submucosal compartment close to the smooth muscle layer. An allergic airway response activation was detected upon significant elevation of blood eosinophil percentage compared to intact mice. Simultaneously, the number of eosinophils in the bronchoalveolar lavage was also significantly increased compared to the intact mice. At this time point, eosinophils predominated both in bronchoalveolar lavages and in conducting airway mucosa compared to neutrophils. Spatial location of conducting airway mucosal cell analysis demonstrated that eosinophils mostly located in the submucosal compartment, in a lesser extent in the airway wall, and a few eosinophils were detected in the luminal side of the epithelium. Neutrophils mainly infiltrated the luminal side of the epithelium, and a few neutrophils were detected in the submucosal compartment, while no neutrophils were detected in the airway wall. The data suggests that in response to the further allergen challenge, evidently eosinophils but not neutrophils will migrate through the airway wall to the airway lumen. Thus, eosinophils can be expected to damage airway epithelium in allergic airway inflammation development. Simultaneously, neutrophils located in close proximity to the smooth muscle layer together with eosinophils can contribute to bronchoconstriction induction.