一种新的癌症转录组荟萃分析方法揭示了癌细胞中普遍存在的转录网络。

A. Niida, S. Imoto, Masao Nagasaki, R. Yamaguchi, S. Miyano
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引用次数: 8

摘要

尽管微阵列技术已经揭示了各种癌症表型的转录组多样性,但控制它们的转录程序尚未得到很好的阐明。为了解码控制癌症转录组的转录程序,我们最近开发了一种称为EEM的计算方法,该方法从由先前生物学知识(如TF结合基序)定义的指定基因集中搜索表达模块。在本文中,我们扩展了EEM方法来预测癌症转录网络。从功能性TF结合基序和EEM识别的表达模块开始,我们预测了包含调控TF、相关GO术语以及TF结合基序之间相互作用的癌症转录网络。为了系统地分析广泛类型癌症的转录程序,我们将基于eem的网络预测方法应用于从公共数据库收集的122个微阵列数据集。数据集包含约15000个不同组织来源的肿瘤样本,包括乳腺、结肠、肺等。这项基于EEM的荟萃分析成功地揭示了在大部分癌症转录组中起作用的普遍癌症转录网络;它们包括细胞周期和免疫相关子网络。本研究证明了EEM的广泛适用性,并为全面了解癌细胞的转录网络开辟了一条道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel meta-analysis approach of cancer transcriptomes reveals prevailing transcriptional networks in cancer cells.
Although microarray technology has revealed transcriptomic diversities underlining various cancer phenotypes, transcriptional programs controlling them have not been well elucidated. To decode transcriptional programs governing cancer transcriptomes, we have recently developed a computational method termed EEM, which searches for expression modules from prescribed gene sets defined by prior biological knowledge like TF binding motifs. In this paper, we extend our EEM approach to predict cancer transcriptional networks. Starting from functional TF binding motifs and expression modules identified by EEM, we predict cancer transcriptional networks containing regulatory TFs, associated GO terms, and interactions between TF binding motifs. To systematically analyze transcriptional programs in broad types of cancer, we applied our EEM-based network prediction method to 122 microarray datasets collected from public databases. The data sets contain about 15000 experiments for tumor samples of various tissue origins including breast, colon, lung etc. This EEM based meta-analysis successfully revealed a prevailing cancer transcriptional network which functions in a large fraction of cancer transcriptomes; they include cell-cycle and immune related sub-networks. This study demonstrates broad applicability of EEM, and opens a way to comprehensive understanding of transcriptional networks in cancer cells.
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