Division of Molecular Genetic Epidemiology, German Cancer Research Center, Heidelberg, Germany.
Genes Chromosomes Cancer. 2010 Aug;49(8):733-45. doi: 10.1002/gcc.20785.
We performed DNA microarray-based comparative genomic hybridization to identify somatic alterations specific to melanoma genome in 60 human cell lines from metastasized melanoma and from 44 corresponding peripheral blood mononuclear cells. Our data showed gross but nonrandom somatic changes specific to the tumor genome. Although the CDKN2A (78%) and PTEN (70%) loci were the major targets of mono-allelic and bi-allelic deletions, amplifications affected loci with BRAF (53%) and NRAS (12%) as well as EGFR (52%), MITF (40%), NOTCH2 (35%), CCND1 (18%), MDM2 (18%), CCNE1 (10%), and CDK4 (8%). The amplified loci carried additional genes, many of which could potentially play a role in melanoma. Distinct patterns of copy number changes showed that alterations in CDKN2A tended to be more clustered in cell lines with mutations in the BRAF and NRAS genes; the PTEN locus was targeted mainly in conjunction with BRAF mutations. Amplification of CCND1, CDK4, and other loci was significantly increased in cell lines without BRAF-NRAS mutations and so was the loss of chromosome arms 13q and 16q. Our data suggest involvement of distinct genetic pathways that are driven either through oncogenic BRAF and NRAS mutations complemented by aberrations in the CDKN2A and PTEN genes or involve amplification of oncogenic genomic loci and loss of 13q and 16q. It also emerges that each tumor besides being affected by major and most common somatic genetic alterations also acquires additional genetic alterations that could be crucial in determining response to small molecular inhibitors that are being currently pursued.
我们进行了基于 DNA 微阵列的比较基因组杂交,以鉴定 60 个人类转移性黑色素瘤细胞系和 44 个相应的外周血单核细胞中黑色素瘤基因组特有的体细胞改变。我们的数据显示了与肿瘤基因组特异性相关的广泛但非随机的体细胞改变。尽管 CDKN2A(78%)和 PTEN(70%)基因座是单等位基因和双等位基因缺失的主要靶点,但扩增影响了 BRAF(53%)和 NRAS(12%)以及 EGFR(52%)、MITF(40%)、NOTCH2(35%)、CCND1(18%)、MDM2(18%)、CCNE1(10%)和 CDK4(8%)的基因座。扩增的基因座携带了其他潜在发挥作用的基因。拷贝数变化的独特模式表明,在 BRAF 和 NRAS 基因突变的细胞系中,CDKN2A 的改变往往更加聚集;PTEN 基因座主要与 BRAF 突变一起靶向。CCND1、CDK4 和其他基因座的扩增在没有 BRAF-NRAS 突变的细胞系中显著增加,13q 和 16q 染色体臂的缺失也是如此。我们的数据表明涉及不同的遗传途径,这些途径要么通过致癌的 BRAF 和 NRAS 突变驱动,同时伴有 CDKN2A 和 PTEN 基因的异常,要么涉及致癌基因组基因座的扩增和 13q 和 16q 的缺失。此外,除了受到主要和最常见的体细胞遗传改变的影响外,每个肿瘤还获得了额外的遗传改变,这些改变在决定对当前正在研究的小分子抑制剂的反应方面可能至关重要。
