Department of Surgery, Johns Hopkins University, Baltimore, MD, USA.
Epigenetics. 2012 Jul;7(7):701-9. doi: 10.4161/epi.20445. Epub 2012 Jul 1.
Breast cancer (BC) is a disease with diverse tumor heterogeneity, which challenges conventional approaches to develop biomarkers for early detection and prognosis. To identify effective biomarkers, we performed a genome-wide screen for functional methylation changes in BC, i.e., genes silenced by promoter hypermethylation, using a functionally proven gene expression approach. A subset of candidate hypermethylated genes were validated in primary BCs and tested as markers for detection and prognosis prediction of BC. We identified 33 cancer specific methylated genes and, among these, two categories of genes: (1) highly frequent methylated genes that detect early stages of BC. Within that category, we have identified the combination of NDRG2 and HOXD1 as the most sensitive (94%) and specific (90%) gene combination for detection of BC; (2) genes that show stage dependent methylation frequency pattern, which are candidates to help delineate BC prognostic signatures. For this category, we found that methylation of CDO1, CKM, CRIP1, KL and TAC1 correlated with clinical prognostic variables and was a significant prognosticator for poor overall survival in BC patients. CKM [Hazard ratio (HR) = 2.68] and TAC1 (HR = 7.73) were the strongest single markers and the combination of both (TAC1 and CKM) was associated with poor overall survival independent of age and stage in our training (HR = 1.92) and validation cohort (HR = 2.87). Our study demonstrates an efficient method to utilize functional methylation changes in BC for the development of effective biomarkers for detection and prognosis prediction of BC.
乳腺癌(BC)是一种具有多种肿瘤异质性的疾病,这对开发用于早期检测和预后的生物标志物的传统方法提出了挑战。为了确定有效的生物标志物,我们使用经过功能验证的基因表达方法,对 BC 中的功能甲基化变化(即启动子超甲基化沉默的基因)进行了全基因组筛选。在原发性 BC 中验证了候选超甲基化基因的子集,并将其作为 BC 检测和预后预测的标志物进行了测试。我们确定了 33 个癌症特异性甲基化基因,其中包括两类基因:(1)高频率甲基化基因,可检测 BC 的早期阶段。在该类别中,我们已经确定了 NDRG2 和 HOXD1 的组合作为检测 BC 最敏感(94%)和最特异(90%)的基因组合;(2)显示阶段依赖性甲基化频率模式的基因,是帮助描绘 BC 预后特征的候选基因。对于该类别,我们发现 CDO1、CKM、CRIP1、KL 和 TAC1 的甲基化与临床预后变量相关,并且是 BC 患者总体生存不良的显著预后因素。CKM[风险比(HR)=2.68]和 TAC1(HR=7.73)是最强的单一标志物,并且 TAC1 和 CKM 的组合与我们的训练队列(HR=1.92)和验证队列(HR=2.87)中年龄和阶段无关的总体生存不良相关。我们的研究表明,利用 BC 中的功能甲基化变化来开发用于 BC 检测和预后预测的有效生物标志物的有效方法。
