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利用尿液沉渣中的新型 DNA 甲基化生物标志物检测膀胱癌。

Detection of bladder cancer using novel DNA methylation biomarkers in urine sediments.

机构信息

Department of Leukemia, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA.

出版信息

Cancer Epidemiol Biomarkers Prev. 2011 Jul;20(7):1483-91. doi: 10.1158/1055-9965.EPI-11-0067. Epub 2011 May 17.

DOI:10.1158/1055-9965.EPI-11-0067
PMID:21586619
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3132294/
Abstract

BACKGROUND

Bladder cancer (BCa) remains a lethal malignancy that can be cured if detected early. DNA hypermethylation is a common epigenetic abnormality in cancer that may serve as a marker of disease activity.

METHODS

We selected 10 novel candidate genes from the most frequently hypermethylated genes detected by DNA microarray and bisulfite pyrosequencing of bladder cancers and applied them to detect bladder cancer in urine sediments. We analyzed DNA methylation in the candidate genes by quantitative methylation-specific real-time PCR (qMSP) to detect bladder cancer in urine sediments from 128 bladder cancer patients and 110 age-matched control subjects.

RESULTS

Based on a multigene predictive model, we discovered 6 methylation markers (MYO3A, CA10, SOX11, NKX6-2, PENK, and DBC1) as most promising for detecting bladder cancer. A panel of 4 genes (MYO3A, CA10, NKX6-2, and DBC1 or SOX11) had 81% sensitivity and 97% specificity, whereas a panel of 5 genes (MYO3A, CA10, NKX6-2, DBC1, and SOX11 or PENK) had 85% sensitivity and 95% specificity for detection of bladder cancer (area under curve = 0.939). By analyzing the data by cancer invasiveness, detection rate was 47 of 58 (81%) in non-muscle invasive tumors (pTa, Tis, and pT1) and 62 of 70 (90%) in muscle invasive tumors (T2, T3, and T4).

CONCLUSIONS

This biomarker panel analyzed by qMSP may help the early detection of bladder tumors in urine sediments with high accuracy.

IMPACT

The panel of biomarker deserves validation in a large well-controlled prospectively collected sample set.

摘要

背景

膀胱癌(BCa)仍然是一种致命的恶性肿瘤,如果早期发现可以治愈。DNA 超甲基化是癌症中常见的表观遗传异常,可能作为疾病活动的标志物。

方法

我们从膀胱癌的 DNA 微阵列和亚硫酸氢盐焦磷酸测序检测到的最常超甲基化基因中选择了 10 个新的候选基因,并将其应用于尿沉渣中膀胱癌的检测。我们通过定量甲基化特异性实时 PCR(qMSP)分析候选基因的 DNA 甲基化,以检测 128 例膀胱癌患者和 110 例年龄匹配的对照者的尿沉渣中的膀胱癌。

结果

基于多基因预测模型,我们发现 6 个甲基化标志物(MYO3A、CA10、SOX11、NKX6-2、PENK 和 DBC1)最有希望用于检测膀胱癌。由 4 个基因(MYO3A、CA10、NKX6-2 和 DBC1 或 SOX11)组成的基因组合具有 81%的敏感性和 97%的特异性,而由 5 个基因(MYO3A、CA10、NKX6-2、DBC1、SOX11 或 PENK)组成的基因组合对膀胱癌的检测具有 85%的敏感性和 95%的特异性(曲线下面积=0.939)。通过分析癌症侵袭性数据,非肌层浸润性肿瘤(pTa、Tis 和 pT1)的检出率为 58 例中的 47 例(81%),肌层浸润性肿瘤(T2、T3 和 T4)的检出率为 70 例中的 62 例(90%)。

结论

通过 qMSP 分析的这个生物标志物组合可能有助于尿液沉淀物中膀胱癌的早期检测,具有较高的准确性。

影响

该生物标志物组合值得在大样本、对照、前瞻性收集的样本中进行验证。

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