Secondary mutations as a mechanism of cisplatin resistance in BRCA2-mutated cancers

Wataru Sakai; Elizabeth M. Swisher; Beth Y. Karlan; Mukesh K. Agarwal; Jake Higgins; Cynthia Friedman; Emily Villegas; Céline Jacquemont; Daniel J. Farrugia; Fergus J. Couch; Nicole Urban; Toshiyasu Taniguchi

doi:10.1038/nature06633

Secondary mutations as a mechanism of cisplatin resistance in BRCA2-mutated cancers

Wataru Sakai, Elizabeth M. Swisher, Beth Y. Karlan, Mukesh K. Agarwal, Jake Higgins, Cynthia Friedman, Emily Villegas, Céline Jacquemont, Daniel J. Farrugia, Fergus J. Couch, Nicole Urban, Toshiyasu Taniguchi

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Abstract

Ovarian carcinomas with mutations in the tumour suppressor BRCA2 are particularly sensitive to platinum compounds. However, such carcinomas ultimately develop cisplatin resistance. The mechanism of that resistance is largely unknown. Here we show that acquired resistance to cisplatin can be mediated by secondary intragenic mutations in BRCA2 that restore the wild-type BRCA2 reading frame. First, in a cisplatin-resistant BRCA2-mutated breast-cancer cell line, HCC1428, a secondary genetic change in BRCA2 rescued BRCA2 function. Second, cisplatin selection of a BRCA2-mutated pancreatic cancer cell line, Capan-1 (refs 3, 4), led to five different secondary mutations that restored the wild-type BRCA2 reading frame. All clones with secondary mutations were resistant both to cisplatin and to a poly(ADP-ribose) polymerase (PARP) inhibitor (AG14361). Finally, we evaluated recurrent cancers from patients whose primary BRCA2-mutated ovarian carcinomas were treated with cisplatin. The recurrent tumour that acquired cisplatin resistance had undergone reversion of its BRCA2 mutation. Our results suggest that secondary mutations that restore the wild-type BRCA2 reading frame may be a major clinical mediator of acquired resistance to platinum-based chemotherapy.

Original language	English (US)
Pages (from-to)	1116-1120
Number of pages	5
Journal	Nature
Volume	451
Issue number	7182
DOIs	https://doi.org/10.1038/nature06633
State	Published - Feb 28 2008

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@article{e693ba4ae9b54875b87df01e2865d063,

title = "Secondary mutations as a mechanism of cisplatin resistance in BRCA2-mutated cancers",

abstract = "Ovarian carcinomas with mutations in the tumour suppressor BRCA2 are particularly sensitive to platinum compounds. However, such carcinomas ultimately develop cisplatin resistance. The mechanism of that resistance is largely unknown. Here we show that acquired resistance to cisplatin can be mediated by secondary intragenic mutations in BRCA2 that restore the wild-type BRCA2 reading frame. First, in a cisplatin-resistant BRCA2-mutated breast-cancer cell line, HCC1428, a secondary genetic change in BRCA2 rescued BRCA2 function. Second, cisplatin selection of a BRCA2-mutated pancreatic cancer cell line, Capan-1 (refs 3, 4), led to five different secondary mutations that restored the wild-type BRCA2 reading frame. All clones with secondary mutations were resistant both to cisplatin and to a poly(ADP-ribose) polymerase (PARP) inhibitor (AG14361). Finally, we evaluated recurrent cancers from patients whose primary BRCA2-mutated ovarian carcinomas were treated with cisplatin. The recurrent tumour that acquired cisplatin resistance had undergone reversion of its BRCA2 mutation. Our results suggest that secondary mutations that restore the wild-type BRCA2 reading frame may be a major clinical mediator of acquired resistance to platinum-based chemotherapy.",

author = "Wataru Sakai and Swisher, {Elizabeth M.} and Karlan, {Beth Y.} and Agarwal, {Mukesh K.} and Jake Higgins and Cynthia Friedman and Emily Villegas and C{\'e}line Jacquemont and Farrugia, {Daniel J.} and Couch, {Fergus J.} and Nicole Urban and Toshiyasu Taniguchi",

note = "Funding Information: Acknowledgements We thank M.C. King and C. W. Drescher for discussions, B. Trask for overseeing the FISH analyses in her laboratory and for comments on the manuscript, J.W. Huang for comments on the manuscript, and M. Hoatlin and K. Polyak for reagents. We thank Pfizer for AG14361. We thank the Pacific Ovarian Cancer Research Consortium (supported by a Specialized Program of Research Excellence in Ovarian Cancer) for clinical specimens. This work was supported by grants from the National Institutes of Health/National Cancer Institute (to T.T. and E.M.S.), the Searle Scholars Program, the V Foundation and the Hartwell Innovation Fund (to T.T.), the L&S Milken Foundation (to B.Y.K.), the American Cancer Society California Division-Early Detection Professorship (to B.Y.K.), start-up funds from the Fred Hutchinson Cancer Research Center (to T.T.) and a gift from the Yvonne Betson Trust (to E.M.S.).",

year = "2008",

month = feb,

day = "28",

doi = "10.1038/nature06633",

language = "English (US)",

volume = "451",

pages = "1116--1120",

journal = "Nature",

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TY - JOUR

T1 - Secondary mutations as a mechanism of cisplatin resistance in BRCA2-mutated cancers

AU - Sakai, Wataru

AU - Swisher, Elizabeth M.

AU - Karlan, Beth Y.

AU - Agarwal, Mukesh K.

AU - Higgins, Jake

AU - Friedman, Cynthia

AU - Villegas, Emily

AU - Jacquemont, Céline

AU - Farrugia, Daniel J.

AU - Couch, Fergus J.

AU - Urban, Nicole

AU - Taniguchi, Toshiyasu

N1 - Funding Information: Acknowledgements We thank M.C. King and C. W. Drescher for discussions, B. Trask for overseeing the FISH analyses in her laboratory and for comments on the manuscript, J.W. Huang for comments on the manuscript, and M. Hoatlin and K. Polyak for reagents. We thank Pfizer for AG14361. We thank the Pacific Ovarian Cancer Research Consortium (supported by a Specialized Program of Research Excellence in Ovarian Cancer) for clinical specimens. This work was supported by grants from the National Institutes of Health/National Cancer Institute (to T.T. and E.M.S.), the Searle Scholars Program, the V Foundation and the Hartwell Innovation Fund (to T.T.), the L&S Milken Foundation (to B.Y.K.), the American Cancer Society California Division-Early Detection Professorship (to B.Y.K.), start-up funds from the Fred Hutchinson Cancer Research Center (to T.T.) and a gift from the Yvonne Betson Trust (to E.M.S.).

PY - 2008/2/28

Y1 - 2008/2/28

N2 - Ovarian carcinomas with mutations in the tumour suppressor BRCA2 are particularly sensitive to platinum compounds. However, such carcinomas ultimately develop cisplatin resistance. The mechanism of that resistance is largely unknown. Here we show that acquired resistance to cisplatin can be mediated by secondary intragenic mutations in BRCA2 that restore the wild-type BRCA2 reading frame. First, in a cisplatin-resistant BRCA2-mutated breast-cancer cell line, HCC1428, a secondary genetic change in BRCA2 rescued BRCA2 function. Second, cisplatin selection of a BRCA2-mutated pancreatic cancer cell line, Capan-1 (refs 3, 4), led to five different secondary mutations that restored the wild-type BRCA2 reading frame. All clones with secondary mutations were resistant both to cisplatin and to a poly(ADP-ribose) polymerase (PARP) inhibitor (AG14361). Finally, we evaluated recurrent cancers from patients whose primary BRCA2-mutated ovarian carcinomas were treated with cisplatin. The recurrent tumour that acquired cisplatin resistance had undergone reversion of its BRCA2 mutation. Our results suggest that secondary mutations that restore the wild-type BRCA2 reading frame may be a major clinical mediator of acquired resistance to platinum-based chemotherapy.

AB - Ovarian carcinomas with mutations in the tumour suppressor BRCA2 are particularly sensitive to platinum compounds. However, such carcinomas ultimately develop cisplatin resistance. The mechanism of that resistance is largely unknown. Here we show that acquired resistance to cisplatin can be mediated by secondary intragenic mutations in BRCA2 that restore the wild-type BRCA2 reading frame. First, in a cisplatin-resistant BRCA2-mutated breast-cancer cell line, HCC1428, a secondary genetic change in BRCA2 rescued BRCA2 function. Second, cisplatin selection of a BRCA2-mutated pancreatic cancer cell line, Capan-1 (refs 3, 4), led to five different secondary mutations that restored the wild-type BRCA2 reading frame. All clones with secondary mutations were resistant both to cisplatin and to a poly(ADP-ribose) polymerase (PARP) inhibitor (AG14361). Finally, we evaluated recurrent cancers from patients whose primary BRCA2-mutated ovarian carcinomas were treated with cisplatin. The recurrent tumour that acquired cisplatin resistance had undergone reversion of its BRCA2 mutation. Our results suggest that secondary mutations that restore the wild-type BRCA2 reading frame may be a major clinical mediator of acquired resistance to platinum-based chemotherapy.

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DO - 10.1038/nature06633

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SP - 1116

EP - 1120

JO - Nature

JF - Nature

IS - 7182

ER -

Secondary mutations as a mechanism of cisplatin resistance in BRCA2-mutated cancers

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