通过阵列比较基因组杂交确定小肠神经内分泌肿瘤中的拷贝数改变。
Copy number alterations in small intestinal neuroendocrine tumors determined by array comparative genomic hybridization.
作者信息
Hashemi Jamileh, Fotouhi Omid, Sulaiman Luqman, Kjellman Magnus, Höög Anders, Zedenius Jan, Larsson Catharina
机构信息
Department of Oncology-Pathology, Karolinska Institutet, Cancer Center Karolinska, Karolinska University Hospital R8:04, Stockholm SE-171 76, Sweden.
出版信息
BMC Cancer. 2013 Oct 29;13:505. doi: 10.1186/1471-2407-13-505.
BACKGROUND
Small intestinal neuroendocrine tumors (SI-NETs) are typically slow-growing tumors that have metastasized already at the time of diagnosis. The purpose of the present study was to further refine and define regions of recurrent copy number (CN) alterations (CNA) in SI-NETs.
METHODS
Genome-wide CNAs was determined by applying array CGH (a-CGH) on SI-NETs including 18 primary tumors and 12 metastases. Quantitative PCR analysis (qPCR) was used to confirm CNAs detected by a-CGH as well as to detect CNAs in an extended panel of SI-NETs. Unsupervised hierarchical clustering was used to detect tumor groups with similar patterns of chromosomal alterations based on recurrent regions of CN loss or gain. The log rank test was used to calculate overall survival. Mann-Whitney U test or Fisher's exact test were used to evaluate associations between tumor groups and recurrent CNAs or clinical parameters.
RESULTS
The most frequent abnormality was loss of chromosome 18 observed in 70% of the cases. CN losses were also frequently found of chromosomes 11 (23%), 16 (20%), and 9 (20%), with regions of recurrent CN loss identified in 11q23.1-qter, 16q12.2-qter, 9pter-p13.2 and 9p13.1-11.2. Gains were most frequently detected in chromosomes 14 (43%), 20 (37%), 4 (27%), and 5 (23%) with recurrent regions of CN gain located to 14q11.2, 14q32.2-32.31, 20pter-p11.21, 20q11.1-11.21, 20q12-qter, 4 and 5. qPCR analysis confirmed most CNAs detected by a-CGH as well as revealed CNAs in an extended panel of SI-NETs. Unsupervised hierarchical clustering of recurrent regions of CNAs revealed two separate tumor groups and 5 chromosomal clusters. Loss of chromosomes 18, 16 and 11 and gain of chromosome 20 were found in both tumor groups. Tumor group II was enriched for alterations in chromosome cluster-d, including gain of chromosomes 4, 5, 7, 14 and gain of 20 in chromosome cluster-b. Gain in 20pter-p11.21 was associated with short survival. Statistically significant differences were observed between primary tumors and metastases for loss of 16q and gain of 7.
CONCLUSION
Our results revealed recurrent CNAs in several candidate regions with a potential role in SI-NET development. Distinct genetic alterations and pathways are involved in tumorigenesis of SI-NETs.
背景
小肠神经内分泌肿瘤(SI-NETs)通常是生长缓慢的肿瘤,在诊断时就已经发生转移。本研究的目的是进一步细化和界定SI-NETs中复发性拷贝数(CN)改变(CNA)的区域。
方法
通过对包括18例原发性肿瘤和12例转移瘤的SI-NETs应用阵列比较基因组杂交(a-CGH)来确定全基因组CNA。定量PCR分析(qPCR)用于确认a-CGH检测到的CNA,以及检测更多SI-NETs中的CNA。采用无监督层次聚类法,根据CN丢失或增加的复发区域,检测具有相似染色体改变模式的肿瘤组。采用对数秩检验计算总生存期。采用曼-惠特尼U检验或费舍尔精确检验评估肿瘤组与复发性CNA或临床参数之间的关联。
结果
最常见的异常是70%的病例中观察到18号染色体缺失。11号(23%)、16号(20%)和9号(20%)染色体也经常出现CN缺失,在11q23.1-qter、16q12.2-qter、9pter-p13.2和9p13.1-11.2发现了复发性CN缺失区域。增益最常出现在14号(43%)、20号(37%)、4号(27%)和5号(23%)染色体上,复发性CN增益区域位于14q11.2、14q32.2-32.31、20pter-p11.21、20q11.1-11.21、20q12-qter、4号和5号染色体上。qPCR分析证实了a-CGH检测到的大多数CNA,并在更多SI-NETs中发现了CNA。对CNA复发区域进行无监督层次聚类,发现两个独立的肿瘤组和5个染色体簇。两个肿瘤组均发现18号、16号和11号染色体缺失以及20号染色体增益。肿瘤组II在染色体簇d的改变中富集,包括4号、5号、7号、14号染色体增益和染色体簇b中的20号染色体增益。20pter-p11.21增益与生存期短相关。在原发性肿瘤和转移瘤之间,观察到16q缺失和7号染色体增益存在统计学显著差异。
结论
我们的结果揭示了几个候选区域中的复发性CNA,它们在SI-NET发展中可能发挥作用。不同的基因改变和途径参与了SI-NETs的肿瘤发生。
Zotero 插件