临床样本中DNA甲基化的灵敏数字定量分析。

Sensitive digital quantification of DNA methylation in clinical samples.

作者信息

Li Meng, Chen Wei-Dong, Papadopoulos Nickolas, Goodman Steven N, Bjerregaard Niels Christian, Laurberg Søren, Levin Bernard, Juhl Hartmut, Arber Nadir, Moinova Helen, Durkee Kris, Schmidt Kerstin, He Yiping, Diehl Frank, Velculescu Victor E, Zhou Shibin, Diaz Luis A, Kinzler Kenneth W, Markowitz Sanford D, Vogelstein Bert

机构信息

The Ludwig Center for Cancer Genetics and Therapeutics, Howard Hughes Medical Institute and Sidney Kimmel Cancer Center at the Johns Hopkins Medical Institutions, Baltimore, Maryland, USA.

出版信息

Nat Biotechnol. 2009 Sep;27(9):858-63. doi: 10.1038/nbt.1559. Epub 2009 Aug 16.

DOI:10.1038/nbt.1559

PMID:19684580

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2847606/

Abstract

Analysis of abnormally methylated genes is increasingly important in basic research and in the development of cancer biomarkers. We have developed methyl-BEAMing technology to enable absolute quantification of the number of methylated molecules in a sample. Individual DNA fragments are amplified and analyzed either by flow cytometry or next-generation sequencing. We demonstrate enumeration of as few as one methylated molecule in approximately 5,000 unmethylated molecules in DNA from plasma or fecal samples. Using methylated vimentin as a biomarker in plasma samples, methyl-BEAMing detected 59% of cancer cases. In early-stage colorectal cancers, this sensitivity was four times more than that obtained by assaying serum-carcinoembryonic antigen (CEA). With stool samples, methyl-BEAMing detected 41% of cancers and 45% of advanced adenomas. In addition to diagnostic and prognostic applications, this digital quantification of rare methylation events should be applicable to preclinical assessment of new epigenetic biomarkers and quantitative analyses in epigenetic research.

摘要

异常甲基化基因的分析在基础研究和癌症生物标志物的开发中越来越重要。我们已经开发出甲基化BEAMing技术，能够对样本中甲基化分子的数量进行绝对定量。单个DNA片段通过流式细胞术或新一代测序进行扩增和分析。我们证明，在血浆或粪便样本的DNA中，在大约5000个未甲基化分子中能够检测到低至一个甲基化分子。使用甲基化波形蛋白作为血浆样本中的生物标志物，甲基化BEAMing检测到59%的癌症病例。在早期结直肠癌中，这种灵敏度是检测血清癌胚抗原（CEA）的四倍。对于粪便样本，甲基化BEAMing检测到41%的癌症和45%的晚期腺瘤。除了诊断和预后应用外，这种对罕见甲基化事件的数字定量应该适用于新表观遗传生物标志物的临床前评估和表观遗传研究中的定量分析。

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