Targeting the DNA repair defect in BRCA mutant cells as a therapeutic strategy

被引:0
|
作者
Hannah Farmer
Nuala McCabe
Christopher J. Lord
Andrew N. J. Tutt
Damian A. Johnson
Tobias B. Richardson
Manuela Santarosa
Krystyna J. Dillon
Ian Hickson
Charlotte Knights
Niall M. B. Martin
Stephen P. Jackson
Graeme C. M. Smith
Alan Ashworth
机构
[1] Cancer Research UK Gene Function and Regulation Group,Wellcome Trust and Cancer Research UK, Gurdon Institute of Cancer and Developmental Biology, and Department of Zoology
[2] The Breakthrough Breast Cancer Research Centre Institute of Cancer Research,Division of Experimental Oncology1
[3] Guy's Hospital,undefined
[4] KuDOS Pharmaceuticals Ltd,undefined
[5] Cambridge Science Park,undefined
[6] University of Cambridge,undefined
[7] CRO-IRCCS,undefined
来源
Nature | 2005年 / 434卷
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摘要
The discovery that BRCA1/2 mutant cells (defective in the homologous recombination pathway of DNA repair) are spectacularly sensitive to inhibition of the enzyme PARP (involved in base excision repair) suggests a new, low toxicity, approach to the treatment of women with breast cancers caused by BRCA mutations. As the PARP inhibitors have no effect on cells with functional homologous recombination, the hope is that the treatment will be specific for breast cancer cells. PARP-inhibiting chemotherapeutics may be able to make use of a ‘synthetic lethal’ effect as an alternative to conventional nonspecific cytotoxic anticancer treatments.
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页码:917 / 921
页数:4
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