通过表观基因组分析鉴定癌症中的驱动和乘客 DNA 甲基化。
Identification of driver and passenger DNA methylation in cancer by epigenomic analysis.
机构信息
Department of Cancer Biology, Beckman Research Institute of the Cityof Hope, Duarte, CA, USA.
出版信息
Adv Genet. 2010;70:277-308. doi: 10.1016/B978-0-12-380866-0.60010-1.
Abstract
Human cancer genomes are characterized by widespread aberrations in DNA methylation patterns including DNA hypomethylation of mostly repetitive sequences and hypermethylation of numerous CpG islands. The analysis of DNA methylation patterns in cancer has progressed from single gene studies examining potentially important candidate genes to a more global analysis where all or almost all promoter and CpG island sequences can be analyzed. We provide a brief overview of these genome-scale methylation-profiling techniques, summarize some of the information that has been obtained with these approaches, and discuss what we have learned about the specificity of methylation aberrations in cancer at a genome-wide level. The challenge is now to identify those methylation changes that are thought to be crucial for the processes of tumor initiation, tumor progression, or metastasis and distinguish these from methylation changes that are merely passenger events that accompany the transformation process but have no effect per se on the process of carcinogenesis.
摘要
人类癌症基因组的特征是 DNA 甲基化模式的广泛异常,包括大多数重复序列的 DNA 低甲基化和许多 CpG 岛的 hypermethylation。对癌症中 DNA 甲基化模式的分析已经从研究潜在重要候选基因的单个基因研究发展到可以分析所有或几乎所有启动子和 CpG 岛序列的更全面的分析。我们简要概述了这些基因组规模的甲基化分析技术,总结了这些方法获得的一些信息,并讨论了我们在全基因组水平上对癌症中甲基化异常的特异性的了解。现在的挑战是识别那些被认为对肿瘤起始、肿瘤进展或转移过程至关重要的甲基化变化,并将其与那些仅仅是伴随转化过程的乘客事件但本身对癌变过程没有影响的甲基化变化区分开来。
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