Molecular Analysis of BRCA1 in Human Breast Cancer Cells Under Oxidative Stress

被引:0
|
作者
Brian L. Gilmore
Yanping Liang
Carly E. Winton
Kaya Patel
Vasilea Karageorge
A. Cameron Varano
William Dearnaley
Zhi Sheng
Deborah F. Kelly
机构
[1] Virginia Tech Carilion Research Institute,Department of Biological Sciences
[2] Virginia Tech,undefined
[3] School of Biomedical Engineering and Science,undefined
[4] Virginia Tech,undefined
[5] Translational Biology,undefined
[6] Medicine,undefined
[7] and Health Graduate Program,undefined
[8] Virginia Tech,undefined
[9] Virginia Tech Carilion School of Medicine,undefined
[10] Virginia Tech,undefined
[11] Virginia Tech,undefined
来源
Scientific Reports | / 7卷
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摘要
The precise manner in which physical changes to the breast cancer susceptibility protein (BRCA1) affect its role in DNA repair events remain unclear. Indeed, cancer cells harboring mutations in BRCA1 suffer from genomic instability and increased DNA lesions. Here, we used a combination of molecular imaging and biochemical tools to study the properties of the BRCA1 in human cancer cells. Our results reveal new information for the manner in which full-length BRCA1 engages its binding partner, the BRCA1-associated Ring Domain protein (BARD1) under oxidative stress conditions. We also show how physical differences between wild type and mutated BRCA15382insC impact the cell’s response to oxidative damage. Overall, we demonstrate how clinically relevant changes to BRCA1 affect its structure-function relationship in hereditary breast cancer.
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