Broad H3K4me3 domains: Maintaining cellular identity and their implication in super‐enhancer hijacking

Abstract The human and mouse genomes are complex from a genomic standpoint. Each cell has the same genomic sequence, yet a wide array of cell types exists due to the presence of a plethora of regulatory elements in the non‐coding genome. Recent advances in epigenomic profiling have uncovered non‐coding gene proximal promoters and distal enhancers of transcription genome‐wide. Extension of promoter‐associated H3K4me3 histone mark across the gene body, known as a broad H3K4me3 domain (H3K4me3‐BD), is a signature of constitutive expression of cell‐type‐specific regulation and of tumour suppressor genes in healthy cells. Recently, it has been discovered that the presence of H3K4me3‐BDs over oncogenes is a cancer‐specific feature associated with their dysregulated gene expression and tumourigenesis. Moreover, it has been shown that the hijacking of clusters of enhancers, known as super‐enhancers (SE), by proto‐oncogenes results in the presence of H3K4me3‐BDs over the gene body. Therefore, H3K4me3‐BDs and SE crosstalk in healthy and cancer cells therefore represents an important mechanism to identify future treatments for patients with SE driven cancers.