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Literature DB >> 29996110

A Pan-Cancer Compendium of Genes Deregulated by Somatic Genomic Rearrangement across More Than 1,400 Cases.

Yiqun Zhang¹, Lixing Yang², Melanie Kucherlapati³, Fengju Chen¹, Angela Hadjipanayis³, Angeliki Pantazi⁴, Christopher A Bristow⁵, Eunjung A Lee⁶, Harshad S Mahadeshwar⁵, Jiabin Tang⁵, Jianhua Zhang⁵, Sahil Seth⁵, Semin Lee⁷, Xiaojia Ren⁴, Xingzhi Song⁵, Huandong Sun⁵, Jonathan Seidman⁸, Lovelace J Luquette⁷, Ruibin Xi⁷, Lynda Chin⁹, Alexei Protopopov¹⁰, Wei Li¹¹, Peter J Park¹², Raju Kucherlapati³, Chad J Creighton¹³.

Abstract

A systematic cataloging of genes affected by genomic rearrangement, using multiple patient cohorts and cancer types, can provide insight into cancer-relevant alterations outside of exomes. By integrative analysis of whole-genome sequencing (predominantly low pass) and gene expression data from 1,448 cancers involving 18 histopathological types in The Cancer Genome Atlas, we identified hundreds of genes for which the nearby presence (within 100 kb) of a somatic structural variant (SV) breakpoint is associated with altered expression. While genomic rearrangements are associated with widespread copy-number alteration (CNA) patterns, approximately 1,100 genes-including overexpressed cancer driver genes (e.g., TERT, ERBB2, CDK12, CDK4) and underexpressed tumor suppressors (e.g., TP53, RB1, PTEN, STK11)-show SV-associated deregulation independent of CNA. SVs associated with the disruption of topologically associated domains, enhancer hijacking, or fusion transcripts are implicated in gene upregulation. For cancer-relevant pathways, SVs considerably expand our understanding of how genes are affected beyond point mutation or CNA.

Entities: CellLine Chemical Disease Gene Species

Keywords: TCGA; cancer; genomic rearrangement; pan-cancer; structural variation; whole genome sequencing

Mesh：

Year: 2018 PMID： 29996110 PMCID： PMC6092947 DOI： 10.1016/j.celrep.2018.06.025

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

48 in total

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31 in total

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2. Cancer mutational burden is shaped by G4 DNA, replication stress and mitochondrial dysfunction.

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