Distinct spatial requirement for eosinophil‐induced airways hyperreactivity

T helper (Th)‐2‐derived cytokines and their involvement in the recruitment and activation of inflammatory cells crucially orchestrate asthma pathogenesis. A notable cellular component of this allergy‐induced inflammation is the eosinophil. However, whether the eosinophil is an obligatory mediator for enhancing airways hyperreactivity (AHR) to cholinergic stimuli, a watershed of the asthmatic lung, is somewhat controversial. In this investigation we have endeavoured to define the spatial requirements for IL‐4 and IL‐13, and the downstream effector molecules, IL‐5 and the CC chemokine eotaxin, for the recruitment of eosinophils and the development of AHR in a murine model of allergic pulmonary disease. These studies are of particular importance considering clinical trials, with either the soluble IL‐4Rα subunit or a humanized anti‐IL‐5 antibody, are being conducted. Interestingly, our studies show that depletion of both IL‐4 and IL‐13 is necessary to ablate pulmonary eosinophilia and AHR, and that this may be attributed to the role these cytokines play in regulating the expression of the eosinophil‐ activating molecules, IL‐5 and eotaxin. While it is clear that depletion of IL‐5 diminishes pulmonary eosinophilia, we demonstrate in BALB/c mice that a deficiency in both IL‐5 and eotaxin is necessary to abolish both the trafficking of eosinophils to the lung and AHR. However, in contrast to the neutrophil‐rich inflammation observed in mice deficient in both IL‐4 and IL‐13, inflammation per se in mice deficient in both IL‐5 and eotaxin is significantly attenuated. This suggests that asthma immunotherapy may be better directed towards the eosinophil‐ activating molecules IL‐5 and eotaxin, rather than towards pleiotrophic molecules such IL‐4 and IL‐13, which are additionally important in modulating alternative inflammatory responses.