A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples
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Publication date
2018-04-05
Authors
Chen, Han
Li, Chunyan
Peng, Xinxin
Zhou, Zhicheng
Weinstein, John N
Liang, Han
Cancer Genome Atlas Research Network
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Article
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cc_by_nc_nd
Abstract
The role of enhancers, a key class of non-coding regulatory DNA elements, in cancer development has increasingly been appreciated. Here, we present the detection and characterization of a large number of expressed enhancers in a genome-wide analysis of 8928 tumor samples across 33 cancer types using TCGA RNA-seq data. Compared with matched normal tissues, global enhancer activation was observed in most cancers. Across cancer types, global enhancer activity was positively associated with aneuploidy, but not mutation load, suggesting a hypothesis centered on “chromatin-state” to explain their interplay. Integrating eQTL, mRNA co-expression, and Hi-C data analysis, we developed a computational method to infer causal enhancer-gene interactions, revealing enhancers of clinically actionable genes. Having identified an enhancer ∼140 kb downstream of PD-L1, a major immunotherapy target, we validated it experimentally. This study provides a systematic view of enhancer activity in diverse tumor contexts and suggests the clinical implications of enhancers. Causal enhancer-target-gene relationships are inferred from a systematic analysis of 33 cancer types.
Keywords
aneuploidy, chromatin state, enhancer expression, mutation burden, pan-cancer analysis, PD-L1 expression, prognostic markers, The Cancer Genome Atlas, General Biochemistry,Genetics and Molecular Biology
Citation
Chen, H, Li, C, Peng, X, Zhou, Z, Weinstein, J N, Liang, H & Cancer Genome Atlas Research Network 2018, 'A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples', Cell, vol. 173, no. 2, pp. 386-399.e12. https://doi.org/10.1016/j.cell.2018.03.027