Genomics

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NR2F2 ChIP-sequencing of melanoma cell lines


ABSTRACT: Melanoma is a highly metastatic tumor type responsible of the large majority of the skin cancer-related deaths. Melanoma cells recapitulate the migratory and invasive nature of neural crest stem cells from which melanocytes arise. However, the mechanisms by which these developmental programs confer melanoma cells with more aggressive properties are not understood. Here we provide evidence for an epigenetically regulated developmental program that is aberrantly re-activated by melanoma cells to aid in the metastatic process. We reasoned that studying molecular changes occurring during the ontogeny of melanocytes from progenitor neural crest cells (NCC), and identifying developmental programs retained or re-gained by melanoma cells, could reveal crucial processes that modulate melanoma aggressiveness. Here we describe a novel mechanism that controls the activity of a transcriptional regulator of human neural crest, the Nuclear Receptor Subfamily 2 Group F, Member 2 (NR2F2). We find that highly localized DNA methylation acts as an on/off switch that controls the expression of a truncated NR2F2 isoform (NR2F2-Iso2) from an alternative transcription start site during NCC to melanocyte differentiation. We show that melanoma cells co-opt this developmental program by decreased DNA methylation and re-expression of NR2F2-Iso2 to promote melanoma metastasis. NR2F2-Iso2 regulates the transcriptional activity of the full length NR2F2 isoform 1 by impairing its binding to chromatin, which results in altered expression of NCC and differentiation genes. Our data demonstrate that epigenetic reactivation of NR2F2 isoform 2 promotes melanoma metastasis, which could be targeted for therapeutic purposes.

ORGANISM(S): Homo sapiens

PROVIDER: GSE102552 | GEO | 2023/02/12

REPOSITORIES: GEO

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