Abstract
Regulatory T cell (Treg cell) therapy has been transformed through the use of chimeric antigen receptors (CARs). We previously found that human Treg cells minimally produce IL-10 and have a limited capacity to control innate immunity compared to type 1 regulatory T cells (Tr1 cells). To create "hybrid" CAR Treg cells with Tr1 cell-like properties, we examined whether the PDCD1 locus could be exploited to endow Treg cells with CAR-regulated IL-10 expression. CRISPR-mediated PD1 deletion increased CAR Treg cell activation, and knock-in of IL10 under control of the PD1 promoter resulted in CAR-induced IL-10 secretion. IL10 knock-in improved CAR Treg cell function, as determined by increased suppression of dendritic cells and alloantigen- and islet autoantigen-specific T cells. In vivo, IL10 knock-in CAR Treg cells were stable, safe, and suppressed dendritic cells and xenogeneic graft-versus-host disease. CRISPR-mediated engineering to simultaneously remove an inhibitory signal and enhance a suppressive mechanism is a previously unexplored approach to improve CAR Treg cell potency.