A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

Dominik Glodzik; Sandro Morganella; Helen Davies; Peter T. Simpson; Yilong Li; Xueqing Zou; Javier Diez-Perez; Johan Staaf; Ludmil B. Alexandrov; Marcel Smid; Arie B. Brinkman; Inga Hansine Rye; Hege Russnes; Keiran Raine; Colin A. Purdie; Sunil R. Lakhani; Alastair M. Thompson; Ewan Birney; Hendrik G. Stunnenberg; Marc J. Van De Vijver; John W.M. Martens; Anne Lise Børresen-Dale; Andrea L. Richardson; Gu Kong; Alain Viari; Douglas Easton; Gerard Evan; Peter J. Campbell; Michael R. Stratton; Serena Nik-Zainal

doi:10.1038/ng.3771

A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

Dominik Glodzik, Sandro Morganella, Helen Davies, Peter T. Simpson, Yilong Li, Xueqing Zou, Javier Diez-Perez, Johan Staaf, Ludmil B. Alexandrov, Marcel Smid, Arie B. Brinkman, Inga Hansine Rye, Hege Russnes, Keiran Raine, Colin A. Purdie, Sunil R. Lakhani, Alastair M. Thompson, Ewan Birney, Hendrik G. Stunnenberg, Marc J. Van De VijverJohn W.M. Martens, Anne Lise Børresen-Dale, Andrea L. Richardson, Gu Kong, Alain Viari, Douglas Easton, Gerard Evan, Peter J. Campbell, Michael R. Stratton, Serena Nik-Zainal

Surgical Oncology

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Abstract

Somatic rearrangements contribute to the mutagenized landscape of cancer genomes. Here, we systematically interrogated rearrangements in 560 breast cancers by using a piecewise constant fitting approach. We identified 33 hotspots of large (>100 kb) tandem duplications, a mutational signature associated with homologous-recombination-repair deficiency. Notably, these tandem-duplication hotspots were enriched in breast cancer germline susceptibility loci (odds ratio (OR) = 4.28) and breast-specific 'super-enhancer' regulatory elements (OR = 3.54). These hotspots may be sites of selective susceptibility to double-strand-break damage due to high transcriptional activity or, through incrementally increasing copy number, may be sites of secondary selective pressure. The transcriptomic consequences ranged from strong individual oncogene effects to weak but quantifiable multigene expression effects. We thus present a somatic-rearrangement mutational process affecting coding sequences and noncoding regulatory elements and contributing a continuum of driver consequences, from modest to strong effects, thereby supporting a polygenic model of cancer development.

Original language	English (US)
Pages (from-to)	341-348
Number of pages	8
Journal	Nature Genetics
Volume	49
Issue number	3
DOIs	https://doi.org/10.1038/ng.3771
State	Published - Mar 1 2017

ASJC Scopus subject areas

Genetics

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Glodzik, D., Morganella, S., Davies, H., Simpson, P. T., Li, Y., Zou, X., Diez-Perez, J., Staaf, J., Alexandrov, L. B., Smid, M., Brinkman, A. B., Rye, I. H., Russnes, H., Raine, K., Purdie, C. A., Lakhani, S. R., Thompson, A. M., Birney, E., Stunnenberg, H. G., ... Nik-Zainal, S. (2017). A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers. Nature Genetics, 49(3), 341-348. https://doi.org/10.1038/ng.3771

Glodzik, D, Morganella, S, Davies, H, Simpson, PT, Li, Y, Zou, X, Diez-Perez, J, Staaf, J, Alexandrov, LB, Smid, M, Brinkman, AB, Rye, IH, Russnes, H, Raine, K, Purdie, CA, Lakhani, SR, Thompson, AM, Birney, E, Stunnenberg, HG, Van De Vijver, MJ, Martens, JWM, Børresen-Dale, AL, Richardson, AL, Kong, G, Viari, A, Easton, D, Evan, G, Campbell, PJ, Stratton, MR & Nik-Zainal, S 2017, 'A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers', Nature Genetics, vol. 49, no. 3, pp. 341-348. https://doi.org/10.1038/ng.3771

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title = "A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers",

abstract = "Somatic rearrangements contribute to the mutagenized landscape of cancer genomes. Here, we systematically interrogated rearrangements in 560 breast cancers by using a piecewise constant fitting approach. We identified 33 hotspots of large (>100 kb) tandem duplications, a mutational signature associated with homologous-recombination-repair deficiency. Notably, these tandem-duplication hotspots were enriched in breast cancer germline susceptibility loci (odds ratio (OR) = 4.28) and breast-specific 'super-enhancer' regulatory elements (OR = 3.54). These hotspots may be sites of selective susceptibility to double-strand-break damage due to high transcriptional activity or, through incrementally increasing copy number, may be sites of secondary selective pressure. The transcriptomic consequences ranged from strong individual oncogene effects to weak but quantifiable multigene expression effects. We thus present a somatic-rearrangement mutational process affecting coding sequences and noncoding regulatory elements and contributing a continuum of driver consequences, from modest to strong effects, thereby supporting a polygenic model of cancer development.",

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AU - Glodzik, Dominik

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AU - Davies, Helen

AU - Simpson, Peter T.

AU - Li, Yilong

AU - Zou, Xueqing

AU - Diez-Perez, Javier

AU - Staaf, Johan

AU - Alexandrov, Ludmil B.

AU - Smid, Marcel

AU - Brinkman, Arie B.

AU - Rye, Inga Hansine

AU - Russnes, Hege

AU - Raine, Keiran

AU - Purdie, Colin A.

AU - Lakhani, Sunil R.

AU - Thompson, Alastair M.

AU - Birney, Ewan

AU - Stunnenberg, Hendrik G.

AU - Van De Vijver, Marc J.

AU - Martens, John W.M.

AU - Børresen-Dale, Anne Lise

AU - Richardson, Andrea L.

AU - Kong, Gu

AU - Viari, Alain

AU - Easton, Douglas

AU - Evan, Gerard

AU - Campbell, Peter J.

AU - Stratton, Michael R.

AU - Nik-Zainal, Serena

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N2 - Somatic rearrangements contribute to the mutagenized landscape of cancer genomes. Here, we systematically interrogated rearrangements in 560 breast cancers by using a piecewise constant fitting approach. We identified 33 hotspots of large (>100 kb) tandem duplications, a mutational signature associated with homologous-recombination-repair deficiency. Notably, these tandem-duplication hotspots were enriched in breast cancer germline susceptibility loci (odds ratio (OR) = 4.28) and breast-specific 'super-enhancer' regulatory elements (OR = 3.54). These hotspots may be sites of selective susceptibility to double-strand-break damage due to high transcriptional activity or, through incrementally increasing copy number, may be sites of secondary selective pressure. The transcriptomic consequences ranged from strong individual oncogene effects to weak but quantifiable multigene expression effects. We thus present a somatic-rearrangement mutational process affecting coding sequences and noncoding regulatory elements and contributing a continuum of driver consequences, from modest to strong effects, thereby supporting a polygenic model of cancer development.

AB - Somatic rearrangements contribute to the mutagenized landscape of cancer genomes. Here, we systematically interrogated rearrangements in 560 breast cancers by using a piecewise constant fitting approach. We identified 33 hotspots of large (>100 kb) tandem duplications, a mutational signature associated with homologous-recombination-repair deficiency. Notably, these tandem-duplication hotspots were enriched in breast cancer germline susceptibility loci (odds ratio (OR) = 4.28) and breast-specific 'super-enhancer' regulatory elements (OR = 3.54). These hotspots may be sites of selective susceptibility to double-strand-break damage due to high transcriptional activity or, through incrementally increasing copy number, may be sites of secondary selective pressure. The transcriptomic consequences ranged from strong individual oncogene effects to weak but quantifiable multigene expression effects. We thus present a somatic-rearrangement mutational process affecting coding sequences and noncoding regulatory elements and contributing a continuum of driver consequences, from modest to strong effects, thereby supporting a polygenic model of cancer development.

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A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

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