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DNA copy number alterations in prostate cancers: A combined analysis of published CGH studies
Author(s) -
Sun Jishan,
Liu Wennuan,
Adams Tamara S.,
Sun Jielin,
Li Xingnan,
Turner Aubrey R.,
Chang Baoli,
Kim Jin Woo,
Zheng Siqun Lilly,
Isaacs William B.,
Xu Jianfeng
Publication year - 2007
Publication title -
the prostate
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.295
H-Index - 123
eISSN - 1097-0045
pISSN - 0270-4137
DOI - 10.1002/pros.20543
Subject(s) - prostate cancer , comparative genomic hybridization , prostate , cancer , copy number analysis , copy number variation , biology , cancer research , genome , chromoplexy , gene , medicine , pathology , oncology , genetics , pca3
BACKGROUND Identifying genomic regions that are commonly deleted or gained in neoplastic cells is an important approach to identify tumor suppressor genes and oncogenes. Studies in the last two decades have identified a number of common DNA copy number alterations in prostate cancer. However, because of various sample sizes, diverse tumor types and sources, as well as a variety of detection methods with various sensitivities and resolutions, it is difficult to summarize and fully interpret the overall results. METHODS We performed a combined analysis of all published comparative genomic hybridization (CGH) studies of prostate cancer and estimated the frequency of alterations across the genome for all tumors, as well as in advanced and localized tumors separately. A total of 41 studies examining 872 cancers were included in this study. RESULTS The frequency of deletions and gains were estimated in all tumors, as well as in advanced and localized tumors. Eight deleted and five gained regions were found in more than 10% of the prostate tumors. An additional six regions were commonly deleted and seven were commonly gained in advanced tumors. While 8p was the most common location of deletion, occurring in about a third of all tumors and about half of advanced tumors, 8q was the most commonly gained region, affecting about a quarter of all tumors and about half of all advanced tumors. CONCLUSIONS The large number of tumors examined in this combined analysis provides better estimates of the frequency of specific alterations in the prostate cancer cell genome, and offers important clues for prioritizing efforts to identify tumor suppressor genes and oncogenes in these altered regions. Prostate 67: 692–700, 2007. © 2007 Wiley‐Liss, Inc.