Bim regulates the survival and suppressive capability of CD8+ FOXP3+ regulatory T cells during murine GVHD

CD8 + Foxp3 + T cells (Tregs) are a potent regulatory population whose functional and ontological similarities to CD4 + Fox3 + T cells have not been well delineated. Using an experimental model of graft versus host disease (GVHD), we observed that CD8 + Tregs were significantly less potent than CD4 + Tregs for the suppression of GVHD. To define the mechanistic basis for this observation, we examined the T cell repertoire and the transcriptional profile of in vivo-derived CD4 + and CD8 + Tregs that emerged early during this disease. Polyclonal and alloantigen-induced CD8 + Tregs had repertoire diversity that was similar to that of conventional CD8 + T cells, indicating that a restricted repertoire was not the proximate cause of decreased suppression. Transcriptional profiling revealed that CD8 + Tregs possessed a canonical Treg transcriptional signature that was similar to that observed in CD4 + Tregs, yet distinct from conventional CD8 + T cells. Pathway analysis, however, demonstrated that CD8 + Tregs had differential gene expression in pathways involved in cell death and survival. This was further confirmed by detailed mRNA sequence analysis and protein expression studies which demonstrated that CD8 + Tregs had increased expression of Bim and reduced expression of Mcl-1. Transplantation with CD8 + Foxp3 + Bim –/– Tregs resulted in prolonged Treg survival and reduced GVHD lethality compared to wild type CD8 + Tregs, providing functional confirmation that increased expression of Bim was responsible for reduced in vivo efficacy. Thus, Bim regulates the survival and suppressive capability of CD8 + Tregs which may have implications for their use in regulatory T cell therapy.