Ali Hamad, Bitar Milad S, Al Madhoun Ashraf, Marafie Makia, Al-Mulla Fahd
Department of Medical Laboratory Sciences, Faculty of Allied Health Sciences, Kuwait University, Jabriya, Kuwait.
Research Division, Immunology Unit, Dasman Diabetes Institute (DDI), Dasman, Kuwait.
PLoS One. 2017 Feb 23;12(2):e0171690. doi: 10.1371/journal.pone.0171690. eCollection 2017.
Array-based comparative genomic hybridization (aCGH) emerged as a powerful technology for studying copy number variations at higher resolution in many cancers including colorectal cancer. However, the lack of standardized systematic protocols including bioinformatic algorithms to obtain and analyze genomic data resulted in significant variation in the reported copy number aberration (CNA) data. Here, we present genomic aCGH data obtained using highly stringent and functionally relevant statistical algorithms from 116 well-defined microsatellites instable (MSI) and microsatellite stable (MSS) colorectal cancers. We utilized aCGH to characterize genomic CNAs in 116 well-defined sets of colorectal cancer (CRC) cases. We further applied the significance testing for aberrant copy number (STAC) and Genomic Identification of Significant Targets in Cancer (GISTIC) algorithms to identify functionally relevant (nonrandom) chromosomal aberrations in the analyzed colorectal cancer samples. Our results produced high resolution genomic landscapes of both, MSI and MSS sporadic CRC. We found that CNAs in MSI and MSS CRCs are heterogeneous in nature but may be divided into 3 distinct genomic patterns. Moreover, we show that although CNAs in MSI and MSS CRCs differ with respect to their size, number and chromosomal distribution, the functional copy number aberrations obtained from MSI and MSS CRCs were in fact comparable but not identical. These unifying CNAs were verified by MLPA tumor-loss gene panel, which spans 15 different chromosomal locations and contains 50 probes for at least 20 tumor suppressor genes. Consistently, deletion/amplification in these frequently cancer altered genes were identical in MSS and MSI CRCs. Our results suggest that MSI and MSS copy number aberrations driving CRC may be functionally comparable.
基于芯片的比较基因组杂交技术(aCGH)成为一种强大的技术,可用于在包括结直肠癌在内的多种癌症中以更高分辨率研究拷贝数变异。然而,由于缺乏包括生物信息学算法在内的标准化系统方案来获取和分析基因组数据,导致所报道的拷贝数畸变(CNA)数据存在显著差异。在此,我们展示了使用高度严格且功能相关的统计算法从116例明确的微卫星不稳定(MSI)和微卫星稳定(MSS)结直肠癌中获得的基因组aCGH数据。我们利用aCGH对116例明确的结直肠癌(CRC)病例组中的基因组CNA进行表征。我们进一步应用异常拷贝数的显著性检验(STAC)和癌症中重要靶点的基因组鉴定(GISTIC)算法,以识别所分析的结直肠癌样本中功能相关(非随机)的染色体畸变。我们的结果产生了MSI和MSS散发性CRC的高分辨率基因组图谱。我们发现,MSI和MSS CRC中的CNA本质上是异质性的,但可分为3种不同的基因组模式。此外,我们表明,尽管MSI和MSS CRC中的CNA在大小、数量和染色体分布方面存在差异,但从MSI和MSS CRC中获得的功能拷贝数畸变实际上是可比的,但并不相同。这些统一的CNA通过MLPA肿瘤缺失基因检测板得到验证,该检测板跨越15个不同的染色体位置,包含至少20个肿瘤抑制基因的50个探针。一致地,这些在癌症中频繁改变的基因中的缺失/扩增在MSS和MSI CRC中是相同的。我们的结果表明,驱动CRC的MSI和MSS拷贝数畸变在功能上可能具有可比性。