Targeting DOT1L and EZH2 synergizes in breaking the germinal center identity of Diffuse Large B-cell Lymphoma

• MYC-driven GCB-DLBCL depends on DOT1L and EZH2 and combined targeting provides an alternative differentiation-based therapy.

• DOT1L and EZH2 cooperatively repress PRC2 target genes to maintain the pro-proliferative germinal center B cell identity of DLBCL.

Differentiation of antigen-activated B cells into pro-proliferative germinal center (GC) B cells depends on the activity of the transcription factors MYC and BCL6, and the epigenetic writers DOT1L and EZH2. GCB-like Diffuse Large B Cell Lymphomas (GCB-DLBCLs) arise from GCB cells and closely resemble their cell of origin. Given the dependency of GCB cells on DOT1L and EZH2, we investigated the role of these epigenetic regulators in GCB-DLBCLs and observed that GCB-DLBCLs synergistically depend on the combined activity of DOT1L and EZH2. Mechanistically, inhibiting both enzymes led to enhanced derepression of PRC2 target genes compared to EZH2 single treatment, along with the upregulation of BCL6 target genes and suppression of MYC target genes. The sum of all these alterations results in a 'cell identity crisis', wherein GCB-DLBCLs lose their pro-proliferative GC identity and partially undergo PC differentiation, a state associated with poor survival. In support of this model, combined epi-drugging of DOT1L and EZH2 prohibited the outgrowth of human GCB-DLBCL xenografts in vivo. We conclude that the malignant behavior of GCB-DLBCLs strongly depends on DOT1L and EZH2 and that combined targeting of both epigenetic writers may provide an alternative differentiation-based treatment modality for GCB-DLBCL.