Over-accessible chromatin links myeloma initiating genetic events to oncogenic transcriptomes and aberrant transcription factor regulatory networks

Multiple myeloma is a genetically heterogeneous cancer of the bone marrow plasma cells (PC). Myeloma initiating genetic events define subgroups (MIE) and drive distinct oncogenic transcriptomes that converge into a mutually exclusive overexpression of CCND1 and CCND2 oncogenes. Here, with reference to normal PC, we dissect how MIE impact the chromatin regulatory landscape of MM. We find that chromatin accessibility combined with transcriptome profiling classifies myeloma genetic subgroups, while in a topologically constrained manner, distal rather than proximal regulatory elements influence myeloma transcriptomes. Across and within MIE-defined subgroups, genes and pathways critical for myeloma biology can be linked to developmentally activated or de novo formed enhancers. We show that existing transcription factors, co-opted to organise highly ordered, aberrant regulatory networks, generate known and novel myeloma cell dependencies and help identify prognostic markers. Finally, we discover and functionally validate the critical enhancer that regulates ectopic expression of CCND2 in MM.