Department of Pathology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, United States of America.
PLoS One. 2011;6(5):e18846. doi: 10.1371/journal.pone.0018846. Epub 2011 May 13.
The molecular events in chordoma pathogenesis have not been fully delineated, particularly with respect to copy number changes. Understanding copy number alterations in chordoma may reveal critical disease mechanisms that could be exploited for tumor classification and therapy. We report the copy number analysis of 21 sporadic chordomas using array comparative genomic hybridization (CGH). Recurrent copy changes were further evaluated with immunohistochemistry, methylation specific PCR, and quantitative real-time PCR. Similar to previous findings, large copy number losses, involving chromosomes 1p, 3, 4, 9, 10, 13, 14, and 18, were more common than copy number gains. Loss of CDKN2A with or without loss of CDKN2B on 9p21.3 was observed in 16/20 (80%) unique cases of which six (30%) showed homozygous deletions ranging from 76 kilobases to 4.7 megabases. One copy loss of the 10q23.31 region which encodes PTEN was found in 16/20 (80%) cases. Loss of CDKN2A and PTEN expression in the majority of cases was not attributed to promoter methylation. Our sporadic chordoma cases did not show hotspot point mutations in some common cancer gene targets. Moreover, most of these sporadic tumors are not associated with T (brachyury) duplication or amplification. Deficiency of CDKN2A and PTEN expression, although shared across many other different types of tumors, likely represents a key aspect of chordoma pathogenesis. Sporadic chordomas may rely on mechanisms other than copy number gain if they indeed exploit T/brachyury for proliferation.
脊索瘤发病机制中的分子事件尚未完全阐明,尤其是在拷贝数变化方面。了解脊索瘤中的拷贝数改变可能揭示关键的疾病机制,这些机制可用于肿瘤分类和治疗。我们使用阵列比较基因组杂交(CGH)分析了 21 例散发性脊索瘤的拷贝数。进一步通过免疫组织化学、甲基化特异性 PCR 和定量实时 PCR 评估了反复出现的拷贝数变化。与先前的发现相似,涉及染色体 1p、3、4、9、10、13、14 和 18 的大片段拷贝数丢失比拷贝数获得更为常见。在 20 例(80%)独特病例中观察到 16/20(80%)存在 9p21.3 上 CDKN2A 缺失,伴有或不伴有 CDKN2B 缺失,其中 6 例(30%)表现为 76 千碱基至 4.7 兆碱基的纯合缺失。10q23.31 区域编码 PTEN 的一个拷贝丢失在 16/20 例(80%)中发现。大多数情况下,CDKN2A 和 PTEN 的表达缺失不是由于启动子甲基化所致。我们的散发性脊索瘤病例没有发现一些常见癌症基因靶标中的热点点突变。此外,这些散发性肿瘤大多数与 T(brachyury)重复或扩增无关。CDKN2A 和 PTEN 表达的缺失,尽管在许多其他不同类型的肿瘤中都存在,可能代表了脊索瘤发病机制的一个关键方面。如果散发性脊索瘤确实利用 T/brachyury 进行增殖,那么它们可能依赖于其他机制而不是拷贝数获得。
