DNA Hypermethylation Status of Multiple Genes in Prostate Adenocarcinomas

Abstract

Multiple genetic mutations and epigenetic methylation are believed to be involved in prostate carcinogenesis, but it is not known whether these events are independent or correlated in some fashion. We therefore studied 32 prostate adenocarcinomas not only for deletions and/or mutations of multiple suspect genes, but also for aberrant DNA methylation using methylation‐specific PCR (MSP). Of those genes examined, p16^INK4a, O⁶‐MGMT, and GST‐P were found to be the most frequently methylated (66%, 25% and 75% of cases, respectively), while methylations of p14^ARF, RB1, p21^waf1, and p27^Kip1 were far less common (3%, 6%, 6% and 6% of cases, respectively). Methylation of O⁶‐MGMT and GST‐P genes was defective in about 19% of the cases and there were occasional simultaneous deletions and methylations of p14^ARF and p16^INK4a genes (13% and 3% of cases, respectively). In p16^INK4a, methylation occurred in the promoter region in 9% of samples and in exon 2 in 66% of tumors. Hypermethylation of O⁶‐MGMT with concurrent p53 and ras gene mutations were found in 6% and 13% of specimens, respectively; among those tumors with high Gleason scores were 2 carcinomas showing hypermethylated O⁶‐MGMT with G‐to‐A transitions in K‐ras. Our results demonstrate that multiple genes of a subset common in prostate carcinomas are methylated and not infrequently show concurrent deletions. Further, there is a suggestion that specific combinations of hypermethylation and mutation correlate to tumor malignancy.