Complex landscapes of somatic rearrangement in human breast cancer genomes

Philip J. Stephens; David J. McBride; Meng Lay Lin; Ignacio Varela; Erin D. Pleasance; Jared T. Simpson; Lucy A. Stebbings; Catherine Leroy; Sarah Edkins; Laura J. Mudie; Chris D. Greenman; Mingming Jia; Calli Latimer; Jon W. Teague; King Wai Lau; John Burton; Michael A. Quail; Harold Swerdlow; Carol Churcher; Rachael Natrajan; Anieta M. Sieuwerts; John W.M. Martens; Daniel P. Silver; Anita Langerød; Hege E.G. Russnes; John A. Foekens; Jorge S. Reis-Filho; Laura Van T Veer; Andrea L. Richardson; Anne Lise Børresen-Dale; Peter J. Campbell; P. Andrew Futreal; Michael R. Stratton

doi:10.1038/nature08645

Complex landscapes of somatic rearrangement in human breast cancer genomes

Philip J. Stephens, David J. McBride, Meng Lay Lin, Ignacio Varela, Erin D. Pleasance, Jared T. Simpson, Lucy A. Stebbings, Catherine Leroy, Sarah Edkins, Laura J. Mudie, Chris D. Greenman, Mingming Jia, Calli Latimer, Jon W. Teague, King Wai Lau, John Burton, Michael A. Quail, Harold Swerdlow, Carol Churcher, Rachael NatrajanAnieta M. Sieuwerts, John W.M. Martens, Daniel P. Silver, Anita Langerød, Hege E.G. Russnes, John A. Foekens, Jorge S. Reis-Filho, Laura Van T Veer, Andrea L. Richardson, Anne Lise Børresen-Dale, Peter J. Campbell, P. Andrew Futreal, Michael R. Stratton

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Abstract

Multiple somatic rearrangements are often found in cancer genomes; however, the underlying processes of rearrangement and their contribution to cancer development are poorly characterized. Here we use a paired-end sequencing strategy to identify somatic rearrangements in breast cancer genomes. There are more rearrangements in some breast cancers than previously appreciated. Rearrangements are more frequent over gene footprints and most are intrachromosomal. Multiple rearrangement architectures are present, but tandem duplications are particularly common in some cancers, perhaps reflecting a specific defect in DNA maintenance. Short overlapping sequences at most rearrangement junctions indicate that these have been mediated by non-homologous end-joining DNA repair, although varying sequence patterns indicate that multiple processes of this type are operative. Several expressed in-frame fusion genes were identified but none was recurrent. The study provides a new perspective on cancer genomes, highlighting the diversity of somatic rearrangements and their potential contribution to cancer development.

Original language	English (US)
Pages (from-to)	1005-1010
Number of pages	6
Journal	Nature
Volume	462
Issue number	7276
DOIs	https://doi.org/10.1038/nature08645
State	Published - Dec 24 2009

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Stephens, P. J., McBride, D. J., Lin, M. L., Varela, I., Pleasance, E. D., Simpson, J. T., Stebbings, L. A., Leroy, C., Edkins, S., Mudie, L. J., Greenman, C. D., Jia, M., Latimer, C., Teague, J. W., Lau, K. W., Burton, J., Quail, M. A., Swerdlow, H., Churcher, C., ... Stratton, M. R. (2009). Complex landscapes of somatic rearrangement in human breast cancer genomes. Nature, 462(7276), 1005-1010. https://doi.org/10.1038/nature08645

Stephens, PJ, McBride, DJ, Lin, ML, Varela, I, Pleasance, ED, Simpson, JT, Stebbings, LA, Leroy, C, Edkins, S, Mudie, LJ, Greenman, CD, Jia, M, Latimer, C, Teague, JW, Lau, KW, Burton, J, Quail, MA, Swerdlow, H, Churcher, C, Natrajan, R, Sieuwerts, AM, Martens, JWM, Silver, DP, Langerød, A, Russnes, HEG, Foekens, JA, Reis-Filho, JS, Van T Veer, L, Richardson, AL, Børresen-Dale, AL, Campbell, PJ, Futreal, PA & Stratton, MR 2009, 'Complex landscapes of somatic rearrangement in human breast cancer genomes', Nature, vol. 462, no. 7276, pp. 1005-1010. https://doi.org/10.1038/nature08645

@article{a7d0d09e34a24125b84ab02a04094f26,

title = "Complex landscapes of somatic rearrangement in human breast cancer genomes",

abstract = "Multiple somatic rearrangements are often found in cancer genomes; however, the underlying processes of rearrangement and their contribution to cancer development are poorly characterized. Here we use a paired-end sequencing strategy to identify somatic rearrangements in breast cancer genomes. There are more rearrangements in some breast cancers than previously appreciated. Rearrangements are more frequent over gene footprints and most are intrachromosomal. Multiple rearrangement architectures are present, but tandem duplications are particularly common in some cancers, perhaps reflecting a specific defect in DNA maintenance. Short overlapping sequences at most rearrangement junctions indicate that these have been mediated by non-homologous end-joining DNA repair, although varying sequence patterns indicate that multiple processes of this type are operative. Several expressed in-frame fusion genes were identified but none was recurrent. The study provides a new perspective on cancer genomes, highlighting the diversity of somatic rearrangements and their potential contribution to cancer development.",

author = "Stephens, {Philip J.} and McBride, {David J.} and Lin, {Meng Lay} and Ignacio Varela and Pleasance, {Erin D.} and Simpson, {Jared T.} and Stebbings, {Lucy A.} and Catherine Leroy and Sarah Edkins and Mudie, {Laura J.} and Greenman, {Chris D.} and Mingming Jia and Calli Latimer and Teague, {Jon W.} and Lau, {King Wai} and John Burton and Quail, {Michael A.} and Harold Swerdlow and Carol Churcher and Rachael Natrajan and Sieuwerts, {Anieta M.} and Martens, {John W.M.} and Silver, {Daniel P.} and Anita Langer{\o}d and Russnes, {Hege E.G.} and Foekens, {John A.} and Reis-Filho, {Jorge S.} and {Van T Veer}, Laura and Richardson, {Andrea L.} and B{\o}rresen-Dale, {Anne Lise} and Campbell, {Peter J.} and Futreal, {P. Andrew} and Stratton, {Michael R.}",

note = "Funding Information: Acknowledgements We are grateful to M. Lambros, F. Geyer and R. Vatcheva for their assistance in the FISH experiments. We would like to acknowledge the support of the Kay Kendall Leukaemia Fund under Grant KKL282, Human Frontiers Award reference LT000561/2009-L, the Dana-Farber/Harvard SPORE in breast cancer under NCI grant reference CA089393, Breakthrough Breast Cancer, the Research Council of Norway Grants no. 155218 and 175240, and the Wellcome Trust under grant reference 077012/Z/05/Z.",

year = "2009",

month = dec,

day = "24",

doi = "10.1038/nature08645",

language = "English (US)",

volume = "462",

pages = "1005--1010",

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T1 - Complex landscapes of somatic rearrangement in human breast cancer genomes

AU - Stephens, Philip J.

AU - McBride, David J.

AU - Lin, Meng Lay

AU - Varela, Ignacio

AU - Pleasance, Erin D.

AU - Simpson, Jared T.

AU - Stebbings, Lucy A.

AU - Leroy, Catherine

AU - Edkins, Sarah

AU - Mudie, Laura J.

AU - Greenman, Chris D.

AU - Jia, Mingming

AU - Latimer, Calli

AU - Teague, Jon W.

AU - Lau, King Wai

AU - Burton, John

AU - Quail, Michael A.

AU - Swerdlow, Harold

AU - Churcher, Carol

AU - Natrajan, Rachael

AU - Sieuwerts, Anieta M.

AU - Martens, John W.M.

AU - Silver, Daniel P.

AU - Langerød, Anita

AU - Russnes, Hege E.G.

AU - Foekens, John A.

AU - Reis-Filho, Jorge S.

AU - Van T Veer, Laura

AU - Richardson, Andrea L.

AU - Børresen-Dale, Anne Lise

AU - Campbell, Peter J.

AU - Futreal, P. Andrew

AU - Stratton, Michael R.

N1 - Funding Information: Acknowledgements We are grateful to M. Lambros, F. Geyer and R. Vatcheva for their assistance in the FISH experiments. We would like to acknowledge the support of the Kay Kendall Leukaemia Fund under Grant KKL282, Human Frontiers Award reference LT000561/2009-L, the Dana-Farber/Harvard SPORE in breast cancer under NCI grant reference CA089393, Breakthrough Breast Cancer, the Research Council of Norway Grants no. 155218 and 175240, and the Wellcome Trust under grant reference 077012/Z/05/Z.

PY - 2009/12/24

Y1 - 2009/12/24

N2 - Multiple somatic rearrangements are often found in cancer genomes; however, the underlying processes of rearrangement and their contribution to cancer development are poorly characterized. Here we use a paired-end sequencing strategy to identify somatic rearrangements in breast cancer genomes. There are more rearrangements in some breast cancers than previously appreciated. Rearrangements are more frequent over gene footprints and most are intrachromosomal. Multiple rearrangement architectures are present, but tandem duplications are particularly common in some cancers, perhaps reflecting a specific defect in DNA maintenance. Short overlapping sequences at most rearrangement junctions indicate that these have been mediated by non-homologous end-joining DNA repair, although varying sequence patterns indicate that multiple processes of this type are operative. Several expressed in-frame fusion genes were identified but none was recurrent. The study provides a new perspective on cancer genomes, highlighting the diversity of somatic rearrangements and their potential contribution to cancer development.

AB - Multiple somatic rearrangements are often found in cancer genomes; however, the underlying processes of rearrangement and their contribution to cancer development are poorly characterized. Here we use a paired-end sequencing strategy to identify somatic rearrangements in breast cancer genomes. There are more rearrangements in some breast cancers than previously appreciated. Rearrangements are more frequent over gene footprints and most are intrachromosomal. Multiple rearrangement architectures are present, but tandem duplications are particularly common in some cancers, perhaps reflecting a specific defect in DNA maintenance. Short overlapping sequences at most rearrangement junctions indicate that these have been mediated by non-homologous end-joining DNA repair, although varying sequence patterns indicate that multiple processes of this type are operative. Several expressed in-frame fusion genes were identified but none was recurrent. The study provides a new perspective on cancer genomes, highlighting the diversity of somatic rearrangements and their potential contribution to cancer development.

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DO - 10.1038/nature08645

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VL - 462

SP - 1005

EP - 1010

JO - Nature

JF - Nature

IS - 7276

ER -

Complex landscapes of somatic rearrangement in human breast cancer genomes

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