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DNA methylation profiles capturing breast cancer heterogeneity.


ABSTRACT: BACKGROUND:As one of the most described epigenetic marks in human cancers, DNA methylation plays essential roles in gene expression regulation and has been implicated in the prognosis and therapeutics of many cancers. We are motivated in this study to explore DNA methylation profiles capturing breast cancer heterogeneity to improve breast cancer prognosis at the epigenetic level. RESULTS:Through comparisons on differentially methylated CpG sites among breast cancer subtypes followed by a sequential validation and functional studies using computational approaches, we propose 313 CpG, corresponding to 191 genes, whose methylation pattern identifies the triple negative breast cancer subtype, and report cell migration as represented by extracellular matrix organization and cell proliferation as mediated via MAPK and Wnt signalings are the primary factors driving breast cancer subtyping. CONCLUSIONS:Our study offers novel CpGs and gene methylation patterns with translational potential on triple negative breast cancer prognosis, as well as fresh insights from the epigenetic level on breast cancer heterogeneity.

SUBMITTER: Chen X 

PROVIDER: S-EPMC6839140 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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DNA methylation profiles capturing breast cancer heterogeneity.

Chen Xiao X   Zhang Jianying J   Dai Xiaofeng X  

BMC genomics 20191107 1


<h4>Background</h4>As one of the most described epigenetic marks in human cancers, DNA methylation plays essential roles in gene expression regulation and has been implicated in the prognosis and therapeutics of many cancers. We are motivated in this study to explore DNA methylation profiles capturing breast cancer heterogeneity to improve breast cancer prognosis at the epigenetic level.<h4>Results</h4>Through comparisons on differentially methylated CpG sites among breast cancer subtypes follow  ...[more]

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