Abstract
In this study, we performed high-resolution array comparative genomic hybridization with an array of 4153 bacterial artificial chromosome clones to assess copy number changes in 44 archival breast cancers. The tumors were flow sorted to exclude non-tumor DNA and increase our ability to detect gene copy number changes. In these tumors, losses were more frequent than gains, and gains in 1q and loss in 16q were the most frequent alterations. We compared gene copy number changes in the tumors based on histologic subtype and estrogen receptor (ER) status, i.e., ER-negative infiltrating ductal carcinoma, ER-positive infiltrating ductal carcinoma, and ER-positive infiltrating lobular carcinoma. We observed a consistent association between loss in regions of 5q and ER-negative infiltrating ductal carcinoma, as well as more frequent loss in 4p16, 8p23, 8p21, 10q25, and 17p11.2 in ER-negative infiltrating ductal carcinoma compared with ER-positive infiltrating ductal carcinoma (adjusted P values < or = 0.05). We also observed high-level amplifications in ER-negative infiltrating ductal carcinoma in regions of 8q24 and 17q12 encompassing the c-myc and c-erbB-2 genes and apparent homozygous deletions in 3p21, 5q33, 8p23, 8p21, 9q34, 16q24, and 19q13. ER-positive infiltrating ductal carcinoma showed a higher frequency of gain in 16p13 and loss in 16q21 than ER-negative infiltrating ductal carcinoma. Correlation analysis highlighted regions of change commonly seen together in ER-negative infiltrating ductal carcinoma. ER-positive infiltrating lobular carcinoma differed from ER-positive infiltrating ductal carcinoma in the frequency of gain in 1q and loss in 11q and showed high-level amplifications in 1q32, 8p23, 11q13, and 11q14. These results indicate that array comparative genomic hybridization can identify significant differences in the genomic alterations between subtypes of breast cancer.
Highlights
Conventional comparative genomic hybridization has been used to demonstrate chromosomal loss and gain in breast cancer [1, 2]
The array results for the archival tumors were highly reproducible: 12 of the archival tumors were relabeled by the PCR method and assayed in duplicate resulting in high correlation coefficients, ranging from 0.86 to 0.97
To identify regions of loss and gain associated with histologic type, we compared the frequencies of genetic alterations between ERpositive infiltrating ductal carcinoma and infiltrating lobular carcinoma tumors
Summary
Conventional comparative genomic hybridization has been used to demonstrate chromosomal loss and gain in breast cancer [1, 2]. To identify genetic alterations that are associated with ER status in a single histologic type, we first compared the frequency of gains and losses in ER-negative and ER-positive infiltrating ductal carcinoma.
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