Abstract
African American (AA) men are at increased risk of prostate cancer compared with European American (EA) men. Biological mechanisms, including epigenetics, likely contribute to this disparity, but prior studies have been limited by sample size, candidate gene approaches, or lack of epigenome-wide DNA methylation (DNAm) data.
To improve our understanding of these mechanisms, we compared DNAm features distinguishing tumor and paired histologically benign tissue from 76 AA and 75 EA patients with prostate cancer. We generated genome-wide array-based DNAm data and conducted differential methylation analyses comparing tumor and benign tissues in each ancestry group. We then examined the predictive ability of our identified sites and differential methylation by ancestry group.
We identified 90,747 and 98,929 differentially methylated CpGs in AA and EA, respectively, with 76,400 common to both groups. We identified 6,267 genes with differentially methylated promoters common to both ancestries and 639 and 1,301 genes unique to AA and EA respectively, as well as differentially methylated pathways. Only 10 CpGs were needed to distinguish tumor from benign based on a receiver operating characteristic curve (AUC > 0.9), with differentially methylated CpGs in one ancestry accurately predicting tumor versus benign in the other group. We also identified ancestry-associated CpGs (89 in tumor, 423 in benign).
Methylation features distinguishing tumor and benign were similar for EA and AA men; however, subtle differences were identified.
Differences in tumor and ancestry-associated CpGs may reveal differential tumor growth strategies, an important area for future disparities research.