Peroxisome proliferator-activated receptor-gamma expression in dendritic cells determines immune tolerance versus immune activation (HYP6P.256)

Abstract

Abstract Dendritic cells (DCs) play a central role in regulating immune tolerance and activation but the molecular axis within DCs that dictates immune outcome is unknown. We investigated the role of Peroxisome proliferator-activated receptor-gamma (PPARγ) in DCs in establishment of immune tolerance in the airways using an experimental model. Using mice with selective deletion of PPARγ in CD11c+ cells (PPARγΔ) to ablate PPARγ expression in DCs, we show that DC-specific PPARγ expression exerts a dual role whose collective goal in response to inhaled antigen is to not only promote de novo Foxp3 expression in T cells but to actively dampen T effector cell development. We demonstrate that PPARγ plays a crucial role in enhancing aldh1a2 expression in lung CD103+ DCs under tolerogenic conditions and when tolerized PPARγΔ mice were antigen-challenged, a complete loss of immune tolerance with increased neutrophil-dominated airway inflammation was observed. Absence of PPARγ promoted the expression of multiple pro-inflammatory cytokines such as IL-6 and IL-23 in DCs, limited Foxp3 induction but augmented IL-17 production in T cells with significant increase in the frequency of dual Foxp3+RORγt+ CD4+ T cells in PPARγΔ mice. In summary, our study identifies PPARγ as a central regulator in DC-mediated programming of the Foxp3/RORγt balance in CD4+ T cells dictating tolerance versus inflammation upon antigen provocation.