Abstract 2437: Distinct DNA methylation patterns in male urogenital cancers

Abstract

Abstract Background: Male urogenital cancers including prostate cancer (PCa), bladder cancer (BLCA) and kidney renal cancer (KIRC), account for 38% of the total number of new male cancers. Previous studies have shown that changes in DNA methylation patterns are associated with the occurrence and progression of these cancers. Here, we performed whole-genome bisulfite methylation sequencing (WGBS) on tissue samples from these cancers to comprehensively characterize the methylation patterns to provide insights into the potential biological functions of methylation and to identify possible early detection biomarkers. Methods: Tissue samples were collected from patients with PCa, BLCA and KIRC who had not received any treatment prior to surgery from Shanghai Ninth People's Hospital, Shanghai Jiaotong University School of Medicine. Samples with the cancer cells content ≥30% in cancer tissues and no cancer cells in the adjacent tissues was deemed qualified. A total of 43 samples were sequenced by whole-genome bisulfite methylation sequencing (WGBS) with a depth of 30X, including PCa, BLCA, KIRC cancer tissues, and their adjacent cancer tissues. Results: Distinct methylation patterns were observed in the 3 cancers. By comparing cancer and adjacent tissues, the numbers of differentially methylated sites (DMSs) were 21,195 (31% hyperDMSs and 69% hypoDMSs), 587,010 (23% hyperDMSs and 77% hypoDMSs) and 7,855,162 (5% hyperDMSs and 95% hypoDMSs) in PCa, BLCA and KIRC, respectively. The distribution of hyperDMSs and hypoDMSs across various chromosomes was relatively consistent in KIRC and BLCA. However, in PCa, the hypoDMSs were mainly located on chromosome 8 (5265/14666, 36%). Among the three cancers, only 2-3% of hypoDMSs were located in gene promoter regions, while the proportions of hyperDMSs in gene promoter regions were higher with 4%, 8% and 17% for PCa, BLCA and KIRC, respectively. Among the above DMSs, 1901 DMSs-related genes were shared by PCa, BLCA and KIRC and 251, 4252, 2475 DMSs-related genes were unique in PCa, BLCA and KIRC, respectively. Gene Ontology analysis revealed that the shared DMSs-related genes were enriched in Wnt signaling pathway and positive regulation of MAPK cascade. Conclusions: Our present study demonstrated the differential methylation patterns in male urogenital cancers, which may provide insights into the potential biological functions of methylation and to identify possible early detection biomarkers. Citation Format: Guopeng Yu, Jiangyi Wang, Long Li, Wenchuan Xie, Yushan Liu, Qing Yang, Bin Xu. Distinct DNA methylation patterns in male urogenital cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 2437.