Deciphering the role of histone modifications in memory and exhausted CD8 T cells

Exhausted CD8 T cells (T _EX ) arising during chronic infections and cancer have reduced functional capacity and limited fate flexibility that prevents optimal disease control and response to immunotherapies. Compared to memory (T _MEM ) cells, T _EX have a unique open chromatin landscape underlying a distinct gene expression program. How T _EX transcriptional and epigenetic landscapes are regulated through histone post-translational modifications (hPTMs) remains unclear. Here, we profiled key activating (H3K27ac and H3K4me3) and repressive (H3K27me3 and H3K9me3) histone modifications in naive CD8 T cells (T _N ), T _MEM and T _EX . We identified H3K27ac-associated super-enhancers that distinguish T _N , T _MEM and T _EX , along with key transcription factor networks predicted to regulate these different transcriptional landscapes. Promoters of some key genes were poised in T _N , but activated in T _MEM or T _EX whereas other genes poised in T _N were repressed in T _MEM or T _EX , indicating that both repression and activation of poised genes may enforce these distinct cell states. Moreover, narrow peaks of repressive H3K9me3 were associated with increased gene expression in T _EX , suggesting an atypical role for this modification. These data indicate that beyond chromatin accessibility, hPTMs differentially regulate specific gene expression programs of T _EX compared to T _MEM through both activating and repressive pathways.