CD86-dependent FoxP3+ regulatory T cells promote resolution of disease after influenza virus infection (IRC4P.492)

Abstract

Abstract Influenza A virus (IAV) infection in the respiratory tract triggers a robust immune response, resulting in both virus clearance and lung inflammation and injury. After virus clearance, resolution of lung disease occurs during a distinct recovery period. The costimulatory molecule CD86 can modulate T cell activity during the initiation and effector stages of the host response to IAV infection, but the role of CD86 during recovery is unknown. We found that antibody-mediated CD86 blockade after virus clearance led to a delay in recovery, characterized by increased numbers of lung neutrophils and innate cytokines in the bronchial alveolar lavage fluid (BAL), but no change in conventional IAV-specific T cell responses. However, CD86 blockade led to decreased numbers of FoxP3+ regulatory T cells (Tregs), and adoptive transfer of Tregs into α-CD86 treated mice rescued the effect of the blockade, supporting a role for Tregs in promoting recovery after virus clearance. Direct depletion of Tregs late after infection using DEREG mice mimicked the CD86 blockade phenotype, confirming a role for Tregs during recovery after virus clearance. Finally, we identified neutrophils as a target of Treg suppression, since neutrophil depletion in Treg-depleted DEREG mice reduced excess BAL cytokines. These results show that CD86-dependent Tregs contribute to the resolution of disease after IAV infection, in part by suppressing neutrophil-driven cytokine release into the airways.