Department of Medical Oncology, University Medical Center Utrecht, The Netherlands.
Clin Cancer Res. 2012 Feb 1;18(3):688-99. doi: 10.1158/1078-0432.CCR-11-1965. Epub 2011 Dec 15.
In the era of DNA-guided personalized cancer treatment, it is essential to conduct predictive analysis on the tissue that matters. Here, we analyzed genetic differences between primary colorectal adenocarcinomas (CRC) and their respective hepatic metastasis.
The primary CRC and the subsequent hepatic metastasis of 21 patients with CRC were analyzed using targeted deep-sequencing of DNA isolated from formalin-fixed, paraffin-embedded archived material.
We have interrogated the genetic constitution of a designed "Cancer Mini-Genome" consisting of all exons of 1,264 genes associated with pathways relevant to cancer. In total, 6,696 known and 1,305 novel variations were identified in 1,174 and 667 genes, respectively, including 817 variants that potentially altered protein function. On average, 83 (SD = 69) potentially function-impairing variations were gained in the metastasis and 70 (SD = 48) variations were lost, showing that the primary tumor and hepatic metastasis are genetically significantly different. Besides novel and known variations in genes such as KRAS, BRAF, KDR, FLT1, PTEN, and PI3KCA, aberrations in the up/downstream genes of EGFR/PI3K/VEGF-pathways and other pathways (mTOR, TGFβ, etc.) were also detected, potentially influencing therapeutic responsiveness. Chemotherapy between removal of the primary tumor and the metastasis (N = 11) did not further increase the amount of genetic variation.
Our study indicates that the genetic characteristics of the hepatic metastases are different from those of the primary CRC tumor. As a consequence, the choice of treatment in studies investigating targeted therapies should ideally be based on the genetic properties of the metastasis rather than on those of the primary tumor.
在 DNA 指导的个体化癌症治疗时代,对重要组织进行预测分析至关重要。在此,我们分析了原发性结直肠腺癌(CRC)与其各自肝转移之间的遗传差异。
使用靶向深度测序技术,对 21 例 CRC 患者的福尔马林固定石蜡包埋存档组织中的 DNA 进行分析,比较原发性 CRC 和随后的肝转移组织。
我们对一个设计的“癌症迷你基因组”进行了遗传构成分析,该基因组包含与癌症相关途径相关的 1264 个基因的所有外显子。总共在 1174 个基因中鉴定出 6696 个已知和 1305 个新变异,分别在 667 个基因中鉴定出 817 个和 1305 个潜在改变蛋白功能的变异,包括 817 个潜在改变蛋白功能的变异。平均而言,在转移中获得了 83 个(SD=69)潜在功能受损的变异,而丢失了 70 个(SD=48)变异,表明原发肿瘤和肝转移在遗传上存在显著差异。除了 KRAS、BRAF、KDR、FLT1、PTEN 和 PI3KCA 等基因中的新的和已知的变异外,还检测到 EGFR/PI3K/VEGF 通路和其他通路(mTOR、TGFβ 等)的上下游基因的异常,这可能影响治疗反应。在原发性肿瘤和转移瘤之间(N=11)切除后进行化疗并没有进一步增加遗传变异的数量。
我们的研究表明,肝转移的遗传特征与原发性 CRC 肿瘤不同。因此,在研究靶向治疗的试验中,治疗选择理想情况下应基于转移的遗传特性,而不是原发性肿瘤的遗传特性。
