Organ transplant recipients require continual immune-suppressive therapies to sustain allograft acceptance. Although medication nonadherence is a major cause of rejection, the mechanisms responsible for graft loss in this clinically relevant context among individuals with preceding graft acceptance remain uncertain. Here, we demonstrate that skin allograft acceptance in mice maintained with clinically relevant immune-suppressive therapies, tacrolimus and mycophenolate, sensitizes hypofunctional PD1hi graft-specific CD8+ T cells. Uninterrupted immune-suppressive therapy is required because drug discontinuation triggers allograft rejection, replicating the requirement for immune-suppressive therapy adherence in transplant recipients. Graft-specific CD8+ T cells in allograft-accepted mice show diminished effector differentiation and cytokine production, with reciprocally increased PD1 expression. Allograft acceptance-induced PD1 expression is essential, as PDL1 blockade reinvigorates graft-specific CD8+ T cell activation with ensuing allograft rejection despite continual immune-suppressive therapy. Thus, PD1 sustained CD8+ T cell inhibition is essential for allograft acceptance maintained by tacrolimus plus mycophenolate. This necessity for PD1 in sustaining allograft acceptance explains the high rates of rejection in transplant recipients with cancer administered immune checkpoint inhibitors targeting PD1/PDL1, highlighting shared immune suppression pathways exploited by tumor cells and current therapies for averting allograft rejection.
Keywords: T cells (cells); costimulation (processes); rodent (animal); transplantation (processes).
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