Mutational heterogeneity in cancer and the search for new cancer genes

Lawrence, Michael S.; Stojanov, Petar; Polak, Paz; Kryukov, Gregory V.; Cibulskis, Kristian; Sivachenko, Andrey; Carter, Scott L.; Stewart, Chip; Mermel, Craig H.; Roberts, Steven A.; Kiezun, Adam; Hammerman, Peter S.; McKenna, Aaron; Drier, Yotam; Zou, Lihua; Ramos, Alex H.; Pugh, Trevor J.; Stransky, Nicolas; Helman, Elena; Kim, Jaegil; Sougnez, Carrie; Ambrogio, Lauren; Nickerson, Elizabeth; Shefler, Erica; Cortés, Maria L.; Auclair, Daniel; Saksena, Gordon; Voet, Douglas; Noble, Michael; DiCara, Daniel; Lin, Pei; Lichtenstein, Lee; Heiman, David I.; Fennell, Timothy; Imielinski, Marcin; Hernandez, Bryan; Hodis, Eran; Baca, Sylvan; Dulak, Austin M.; Lohr, Jens; Landau, Dan-Avi; Wu, Catherine J.; Melendez-Zajgla, Jorge; Hidalgo-Miranda, Alfredo; Koren, Amnon; McCarroll, Steven A.; Mora, Jaume; Lee, Ryan S.; Crompton, Brian; Onofrio, Robert; Parkin, Melissa; Winckler, Wendy; Ardlie, Kristin; Gabriel, Stacey B.; Roberts, Charles W. M.; Biegel, Jaclyn A.; Stegmaier, Kimberly; Bass, Adam J.; Garraway, Levi A.; Meyerson, Matthew; Golub, Todd R.; Gordenin, Dmitry A.; Sunyaev, Shamil; Lander, Eric S.; Getz, Gad

Author(s)

Helman, Elena; Lander, Eric Steven

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Alternative title

Mutational heterogeneity in cancer and the search for new cancer-associated genes

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Creative Commons Attribution-Noncommercial-Share Alike http://creativecommons.org/licenses/by-nc-sa/4.0/

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Abstract

Major international projects are underway that are aimed at creating a comprehensive catalogue of all the genes responsible for the initiation and progression of cancer. These studies involve the sequencing of matched tumour–normal samples followed by mathematical analysis to identify those genes in which mutations occur more frequently than expected by random chance. Here we describe a fundamental problem with cancer genome studies: as the sample size increases, the list of putatively significant genes produced by current analytical methods burgeons into the hundreds. The list includes many implausible genes (such as those encoding olfactory receptors and the muscle protein titin), suggesting extensive false-positive findings that overshadow true driver events. We show that this problem stems largely from mutational heterogeneity and provide a novel analytical methodology, MutSigCV, for resolving the problem. We apply MutSigCV to exome sequences from 3,083 tumour–normal pairs and discover extraordinary variation in mutation frequency and spectrum within cancer types, which sheds light on mutational processes and disease aetiology, and in mutation frequency across the genome, which is strongly correlated with DNA replication timing and also with transcriptional activity. By incorporating mutational heterogeneity into the analyses, MutSigCV is able to eliminate most of the apparent artefactual findings and enable the identification of genes truly associated with cancer.

Date issued

2013-06

URI

http://hdl.handle.net/1721.1/96673

Department

Harvard University--MIT Division of Health Sciences and Technology; Massachusetts Institute of Technology. Department of Biology

Journal

Nature

Publisher

Nature Publishing Group

Citation

Lawrence, Michael S., Petar Stojanov, Paz Polak, Gregory V. Kryukov, Kristian Cibulskis, Andrey Sivachenko, Scott L. Carter, et al. “Mutational Heterogeneity in Cancer and the Search for New Cancer-Associated Genes.” Nature 499, no. 7457 (June 16, 2013): 214–218.

Version: Author's final manuscript

ISSN

0028-0836

1476-4687

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