B cells are crucial in the regulation of airway hyperreactivity in an experimental model of asthma

Abstract

Asthma is a widespread chronic multifactorial disease of the airways which is often triggered by the perennial allergen house dust mite (HDM). Next to regulatory T cells (Tregs), IL10 producing regulatory B cells are crucial to substantially counteract inflammatory responses. However, their regulatory impact in asthma is inadequately known so far. To better understand the regulatory influence of B cells in allergic asthma, we employed a HDM-based experimental asthma model using wildtype (WT) and B cell deficient (µMT) mice. Compared to WT counterparts, HDM-sensitized µMT mice developed a significantly increased airway hyperreactivity (AHR), a cardinal feature of asthma, measured by invasive lung function. This observation was confirmed by independent precision cut lung slices (PCLS) technique, demonstrating stronger bronchoconstriction of explanted lung tissue slices of allergic µMT mice after methacholine provocation. Furthermore, allergic µMT mice displayed diminished levels of Tregs and Th2 cytokines, especially IL10, as determined by flow cytometry and immunoassays. Adoptive transfer of naive WT B cells followed by HDM-sensitization substantially attenuated AHR in µMT mice and boosted IL10 production and Treg expansion. To test the impact of IL10, B cells from IL10 deficient (IL10-/-) mice were transferred, but failed to improve lung function of allergic µMT mice. Furthermore, transfer of WT and IL10-/- B cells provoked comparable amounts of IL10 and Tregs. Taken together, our data indicate that B cells are critical in HDM-induced AHR, and that IL10 competent B cells may be central in regulating AHR in allergic airway inflammation.