DNA methylation is one of the most intensely studied epigenetic modifications in mammals. In normal cells, it plays an essential role in core biologic processes by assuring the proper regulation of gene expression and stable gene silencing. In cancer cells, genome-wide DNA methylation patterns are altered and often represent an early and fundamental step in neoplastic transformation. The landmark study from Esteller and colleagues, published in Cancer Research in 2001, was the first to reveal high frequency promoter methylation across multiple cancer types. They highlighted that widespread alterations in DNA methylation may be a key characteristic of oncogenesis and proposed aberrant DNA methylation of gene promoters could provide markers for sensitive detection of nearly all cancer types. The authors used a candidate gene approach to show promoter hypermethylation occurred across 12 cancer-associated genes in DNA from over 600 primary tumor samples, representing 15 major tumor types. The profile of promoter hypermethylation differed in every tumor type, suggesting that alterations in DNA methylation are pervasive, but the genes affected may be tumor-specific and impact multiple signaling pathways. Over the past 20 years since this publication, the cancer epigenetics field has exploded to generate thousands of normal and cancer methylome maps and developed sophisticated informatic tools for genome-wide methylome analyses. These methylomes are providing roadmaps for the study of cancer biology and discovery of DNA methylation biomarkers for early detection and monitoring of cancer. See related article by Esteller and colleagues, Cancer Res 2001;61:3225-29.
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