Abstract

BackgroundHundreds of genes with differential DNA methylation of promoters have been identified for various cancers. However, the reproducibility of differential DNA methylation discoveries for cancer and the relationship between DNA methylation and aberrant gene expression have not been systematically analysed.Methodology/Principal FindingsUsing array data for seven types of cancers, we first evaluated the effects of experimental batches on differential DNA methylation detection. Second, we compared the directions of DNA methylation changes detected from different datasets for the same cancer. Third, we evaluated the concordance between methylation and gene expression changes. Finally, we compared DNA methylation changes in different cancers. For a given cancer, the directions of methylation and expression changes detected from different datasets, excluding potential batch effects, were highly consistent. In different cancers, DNA hypermethylation was highly inversely correlated with the down-regulation of gene expression, whereas hypomethylation was only weakly correlated with the up-regulation of genes. Finally, we found that genes commonly hypomethylated in different cancers primarily performed functions associated with chronic inflammation, such as ‘keratinization’, ‘chemotaxis’ and ‘immune response’.ConclusionsBatch effects could greatly affect the discovery of DNA methylation biomarkers. For a particular cancer, both differential DNA methylation and gene expression can be reproducibly detected from different studies with no batch effects. While DNA hypermethylation is significantly linked to gene down-regulation, hypomethylation is only weakly correlated with gene up-regulation and is likely to be linked to chronic inflammation.

Highlights

  • Methylation arrays have been used to identify hundreds of genes with differential DNA methylation of their promoters in various types of cancers [1,2,3,4], hereafter referred to as DM genes, providing insights into cancer biology and useful biomarkers for predicting cancer outcomes and drug targets [5]

  • Both differential DNA methylation and gene expression can be reproducibly detected from different studies with no batch effects

  • While DNA hypermethylation is significantly linked to gene down-regulation, hypomethylation is only weakly correlated with gene up-regulation and is likely to be linked to chronic inflammation

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Summary

Introduction

Methylation arrays have been used to identify hundreds of genes with differential DNA methylation of their promoters in various types of cancers [1,2,3,4], hereafter referred to as DM genes, providing insights into cancer biology and useful biomarkers for predicting cancer outcomes and drug targets [5]. A challenging task of fundamental importance for biomarker validation is to evaluate the reproducibility of DM gene discovery across different studies for a particular cancer [10,11,12]. This problem has not been fully addressed until now. The relationship between changes in DNA methylation and gene expression in cancer still needs to be systematically evaluated. The reproducibility of differential DNA methylation discoveries for cancer and the relationship between DNA methylation and aberrant gene expression have not been systematically analysed

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