Decreased regulatory B cells in asthma associated with severity

Abstract

Asthma is a common chronic respiratory disease where patients suffer from restricted airways and airway inflammation (mainly eosinophilic type 2 (T2) inflammation). Inhaled (ICS)/oral corticosteroids (OCS) and, more recently T2-targeting biologics, are prescribed as mainstay therapies for asthma. Despite these therapies, a subset of asthma patients continues to have symptoms and airway inflammation, suggesting an underlying additional asthma pathology. We have observed multiple airway autoantibodies in 55% of moderate-to-severe asthma patients associated with inadequate response to corticosteroids and anti-T2 biologics. Increased airway degranulation (eosinophilic and/or infective) together with lymphopenia (low lymphocyte counts) underlie these self-reactive/autoimmune-like events. In healthy individuals, regulatory lymphocytes limit the development and activity of self-reactive cells, including those capable of producing autoantibodies. Lymphopenia can lead to skewed non-regulatory to regulatory lymphocyte subsets that support a microenvironment with reduced ability to limit self-reactivity. In this study, wanted to measure B cell subsets by flow cytometry and non-regulatory to regulatory B cell ratios in asthma patients and healthy controls. To understand B cell compartmentalization, we analyzed peripheral and sputum B cells. We identified decreased regulatory B cells (Bregs), in particular CD5+ Bregs, and skewed non-regulatory to regulatory B cell ratios in both circulation and airways of asthma patients. Compared to healthy controls, only patients requiring daily OCS had significantly lower CD5+ Bregs, suggesting a reduced regulatory component in more severe patients. Further, CD5+ Bregs, capable of producing immunomodulatory interleukin-10, were significantly lower in patients with a history of multiple lymphopenic events (70% requiring daily OCS). Together, this supports the need to investigate lymphopenia-induced dysregulation of Bregs, increase in autoreactive B cells and airway autoreactivities, and subsequent progression into a more-severe therapy refractory autoimmune pathology. This opens a new avenue for asthma treatment, particularly for the severe population with airway autoimmune responses often not targeted/controlled by current anti-inflammatory therapies.