Abstract
BackgroundAn epigenetic field of cancer susceptibility exists for prostate cancer (PC) that gives rise to multifocal disease in the peripheral prostate. In previous work, genome-wide DNA methylation profiling identified altered regions in the normal prostate tissue of men with PC. In the current multicenter study, we examined the predictive strength of a panel of loci to detect cancer presence and grade in patients with negative biopsy tissue.ResultsFour centers contributed benign prostate biopsy tissues blocks from 129 subjects that were either tumor associated (TA, Grade Group [GG] ≥ 2, n = 77) or non-tumor associated (NTA, n = 52). Biopsies were analyzed using pyrosequencing for DNA methylation encompassing CpG loci near CAV1, EVX1, FGF1, NCR2, PLA2G16, and SPAG4 and methylation differences were detected within all gene regions (p < 0.05). A multiplex regression model for biomarker performance incorporating a gene combination discriminated TA from NTA tissues (area under the curve [AUC] 0.747, p = 0.004). A multiplex model incorporating all the above genes and clinical information (PSA, age) identified patients with GG ≥ 2 PC (AUC 0.815, p < 0.0001). In patients with cancer, increased variation in gene methylation levels occurs between biopsies across the prostate.ConclusionsA widespread epigenetic field defect is utilized to detect GG ≥ 2 PC in patients with histologically negative biopsies. These alterations in non-tumor cells display increased heterogeneity of methylation extent and are spatially distant from tumor foci. These findings have the potential to decrease the need for repeated prostate biopsy.
Highlights
An epigenetic field of cancer susceptibility exists for prostate cancer (PC) that gives rise to multifocal disease in the peripheral prostate
The concept of a field defect, which can explain the multifocality of some cancers, including prostate, colon, and bladder [4,5,6], suggests that preneoplastic molecular alterations may exist in benign tissues [2]
Benign biopsy cores were obtained from two cohorts: (1) Tumor-associated (TA) patients diagnosed with Grade Group (GG) ≥ 2 cancer (n = 77), and (2) non-tumor-associated (NTA) patients (n = 52) who had no cancer on any biopsy core
Summary
An epigenetic field of cancer susceptibility exists for prostate cancer (PC) that gives rise to multifocal disease in the peripheral prostate. In the current multicenter study, we examined the predictive strength of a panel of loci to detect cancer presence and grade in patients with negative biopsy tissue. Prostate cancer (PC) is the most frequently observed cancer in men, with approximately 1 in 6 diagnosed in their lifetime [1]. The concept of a field defect, which can explain the multifocality of some cancers, including prostate, colon, and bladder [4,5,6], suggests that preneoplastic molecular alterations may exist in benign tissues [2]. The predilection of PC for the peripheral zone of the prostate and its frequent multifocality suggests a field of susceptibility.
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