High-resolution analysis of gene copy number alterations in human prostate cancer using CGH on cDNA microarrays: impact of copy number on gene expression.

Maija Wolf, Spyro Mousses, Sampsa Hautaniemi, Ritva Karhu, Pia Huusko, Minna Allinen, Abdel Elkahloun, Outi Monni, Yidong Chen, Anne Kallioniemi, Olli-P Kallioniemi
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Abstract

Identification of target genes for genetic rearrangements in prostate cancer and the impact of copy number changes on gene expression are currently not well understood. Here, we applied high-resolution comparative genomic hybridization (CGH) on cDNA microarrays for analysis of prostate cancer cell lines. CGH microarrays identified most of the alterations detected by classic chromosomal CGH, as well as a number of previously unreported alterations. Specific recurrent regions of gain (28) and loss (18) were found, and their boundaries defined with sub-megabasepair accuracy. The most common changes included copy number decreases at 13q, and gains at 1q and 5p. Refined mapping identified several sites, such as at 13q (33-44, 49-51, and 74-76 Mbp from the p-telomere), which matched with minimal regions of loss seen in extensive loss of heterozygosity mapping studies of large numbers of tumors. Previously unreported recurrent changes were found at 2p, 2q, 3p, and 17q (losses), and at 3q, 5p, and 6p (gains). Integration of genomic and transcriptomic data revealed the role of individual candidate target genes for genomic alterations as well as a highly significant (P <.0001) overall association between copy number levels and the percentage of differentially expressed genes. Across the genome, the overall impact of copy number on gene expression levels was, to a large extent, attributable to low-level gains and losses of copy number, corresponding to common deletions and gains of often large chromosomal regions.

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利用cDNA微阵列上的CGH对人前列腺癌基因拷贝数变化的高分辨率分析:拷贝数对基因表达的影响。
前列腺癌基因重排靶基因的鉴定以及拷贝数变化对基因表达的影响目前还不是很清楚。在这里,我们应用高分辨率比较基因组杂交(CGH)的cDNA微阵列分析前列腺癌细胞系。CGH微阵列识别了经典染色体CGH检测到的大多数改变,以及一些以前未报道的改变。发现了增益(28)和损耗(18)的特定循环区域,并以亚兆对精度定义了它们的边界。最常见的变化包括拷贝数在13q时减少,在1q和5p时增加。精确的定位确定了几个位点,如13q(33-44、49-51和74-76 Mbp,距p端粒),这些位点与大量肿瘤杂合性定位研究中广泛缺失的最小缺失区域相匹配。在2p, 2q, 3p和17q(损失)以及3q, 5p和6p(收益)发现了以前未报道的反复变化。基因组和转录组学数据的整合揭示了个体候选靶基因在基因组改变中的作用,以及高度显著的(P
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