Deleting Runx3 in CD4+ T Cells Disrupts Effector Functions and Facilitates Tolerance Induction in Solid Organ Transplantation

Abstract

Abstract Long-term transplantation tolerance depends on the control of graft-reactive T cells. In particular, the alloreactivity of CD4+ T cells needs to be suppressed as these cells are both necessary and sufficient for cardiac allograft rejection. Although experimental protocols such as anti-CD154-mediated co-stimulation blockade can stably induce donor-specific tolerance in MHC-mismatched cardiac allografts, other more immunogenic organs such as skin are less susceptible to tolerogenic treatments, in part due to additional reactivity of the host against donor commensals that accompany the graft. The transcriptional mechanisms that enable CD4+ T cells to drive rejection and whose targeting can promote tolerance are not well understood. RNAseq comparison of the transcriptome in graft-reactive T cells from rejecting versus tolerant heart allograft recipients revealed several transcription factors differentially expressed between rejected and tolerant mice in both spleen and graft. Here, we report that the transcription factor Runx3 in alloreactive CD4+ T cells promotes Th1 and cytotoxic response against the allograft and resistance to tolerance induction. Conversely, ablating Runx3 in alloreactive CD4+ T cells augments the efficacy of anti-CD154 blockade treatment enabling skin graft acceptance.