Heritable Methylation Marks Associated with Breast and Prostate Cancer Risk

Overview

Journal Prostate

Date 2018 Aug 23

PMID 30133758

Citations 13

Authors

Pierre-Antoine Dugue

James G Dowty

Jihoon E Joo

Ee M Wong

Enes Makalic

Daniel F Schmidt

Dallas R English

John L Hopper

John Pedersen

Gianluca Severi

Robert J MacInnis

Roger L Milne

Graham G Giles

Melissa C Southey

Affiliations

Soon will be listed here.

Abstract

Background: DNA methylation can mimic the effects of germline mutations in cancer predisposition genes. Recently, we identified twenty-four heritable methylation marks associated with breast cancer risk. As breast and prostate cancer share genetic risk factors, including rare, high-risk mutations (eg, in BRCA2), we hypothesized that some of these heritable methylation marks might also be associated with the risk of prostate cancer.

Methods: We studied 869 incident prostate cancers (430 aggressive and 439 non-aggressive) and 869 matched controls nested within a prospective cohort study. DNA methylation was measured in pre-diagnostic blood samples using the Illumina Infinium HM450K BeadChip. Conditional logistic regression models, adjusted for prostate cancer risk factors and blood cell composition, were used to estimate odds ratios and 95% confidence intervals for the association between the 24 methylation marks and the risk of prostate cancer.

Results: Five methylation marks within the VTRNA2-1 promoter region (cg06536614, cg00124993, cg26328633, cg25340688, and cg26896946), and one in the body of CLGN (cg22901919) were associated with the risk of prostate cancer. In stratified analyses, the five VTRNA2-1 marks were associated with the risk of aggressive prostate cancer.

Conclusions: This work highlights a potentially important new area of investigation for prostate cancer susceptibility and adds to our knowledge about shared risk factors for breast and prostate cancer.

Citing Articles

Commentary on "Epigenome-wide analysis across the development span of pediatric acute lymphoblastic leukemia: backtracking to birth".

Raitoharju E, Marttila S Mol Cancer. 2025; 24(1):8.

PMID: 39799337 PMC: 11724579. DOI: 10.1186/s12943-024-02220-7.

SAM-DNMT3A, a strategy for induction of genome-wide DNA methylation, identifies DNA methylation as a vulnerability in ER-positive breast cancers.

Hosseinpour M, Xi X, Liu L, Malaver-Ortega L, Perlaza-Jimenez L, Joo J Nat Commun. 2024; 15(1):10449.

PMID: 39617792 PMC: 11609277. DOI: 10.1038/s41467-024-54824-8.

The mystique of epigenetic regulation: the remarkable case of a human noncoding RNA, nc886.

Lee Y, Lee Y Epigenomics. 2024; 16(21-22):1389-1405.

PMID: 39466123 PMC: 11728332. DOI: 10.1080/17501911.2024.2415278.

Non-coding 886 (/), the epigenetic odd duck - implications for future studies.

Raitoharju E, Rajic S, Marttila S Epigenetics. 2024; 19(1):2332819.

PMID: 38525792 PMC: 10965113. DOI: 10.1080/15592294.2024.2332819.

Molecular Identification and In Silico Protein Analysis of a Novel Gene Fusion in Intrathoracic -Rearranged Sarcoma.

Chien Y, Madarasz K, Csoma S, Motyan J, Huang H, Mehes G Cancers (Basel). 2023; 15(3).

PMID: 36765856 PMC: 9913298. DOI: 10.3390/cancers15030898.