Examine the epigenetic consequences of KMT2D loss in melanoma using ChIP-seq profiling [CUT&Run]
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ABSTRACT: Cellular plasticity contributes to melanoma progression and resistance to treatment, but the epigenetic mechanisms driving these changes are not well understood. In a Braf-mutant mouse model, we show that loss of Kmt2d, an enzyme that adds H3K4me1 to enhancers, speeds up melanoma development and shifts cells toward a neural crest-like state. Using single-cell multiome analysis, we found that this shift is driven by increased activity of TFAP2 transcription factors, linked to changes at enhancer regions. Kmt2d loss also leads to a more immunosuppressive tumor environment, with higher levels of suppressive immune cells. This study provides the first genetic evidence that enhancer disruption plays a key role in cell identity changes in melanoma.
ORGANISM(S): Mus musculus
PROVIDER: GSE301779 | GEO | 2026/07/04
REPOSITORIES: GEO
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