原发性肝癌细胞系的遗传学分析:与原肿瘤形态特征的相关性。
Genetic Analyses of Primary Liver Cancer Cell Lines: Correspondence With Morphological Features of Original Tumors.
机构信息
Department of Diagnostic Pathology, Kurume University Hospital, Fukuoka, Japan;
Department of Pathology, Kurume University, School of Medicine, Fukuoka, Japan.
出版信息
Cancer Genomics Proteomics. 2024 May-Jun;21(3):260-271. doi: 10.21873/cgp.20445.
BACKGROUND/AIM: Advancements in genetic analysis technologies have led to establishment of molecular classifications systems for primary liver cancers. The correlation between pathological morphology and genetic mutations in hepatocellular carcinoma (HCC) is becoming increasingly evident. To construct appropriate experimental models, it is crucial to select cell lines based on their morphology and genetic mutations. In this study, we conducted comprehensive genetic analyses of primary liver cancer cell lines and examined their correlations with morphology.
MATERIALS AND METHODS
Thirteen primary liver cancer cell lines established in our Department were investigated. Eleven cell lines were HCC cell lines, whereas 2 were combined hepatocellular-cholangiocarcinoma (CHC) cell line characteristics. Whole exome sequencing and fusion gene analyses were conducted using a next generation sequencing platform. We also examined correlations between cell mutations and morphological findings and conducted experiments to clarify the association between morphological findings and genetic alterations.
RESULTS
Mutations in TP53, HMCN1, PCLO, HYDIN, APOB, and EYS were found in 11, 5, 4, 4, 3, and 3 cell lines, respectively. CTNNB1 mutation was not identified in any cell line. The original tumor of four cell lines (KYN-1, KYN-2, KYN-3, and HAK-6) showed morphologically macrotrabecular massive patterns and these cell lines harbor TP53 mutations. Two cell lines (KYN-2 and KMCH-2) showed an extremely high tumor mutation burden. These two cell lines possess ultra-mutations associated with DNA repair and/or DNA polymerase.
CONCLUSION
The study identified correlations between morphological findings and genetic mutations in several HCC cell lines. Cell lines with unique genetic mutations were found. This information will be a valuable tool for the selection of suitable experimental models in HCC research.
背景/目的:遗传分析技术的进步促使原发性肝癌的分子分类系统得以建立。肝细胞癌(HCC)的病理形态与基因突变之间的相关性变得越来越明显。为了构建合适的实验模型,根据形态和基因突变选择细胞系至关重要。在本研究中,我们对原发性肝癌细胞系进行了全面的遗传分析,并研究了它们与形态学的相关性。
材料和方法
我们对本部门建立的 13 种原发性肝癌细胞系进行了研究。11 种细胞系为 HCC 细胞系,而 2 种为混合性肝细胞-胆管细胞癌(CHC)细胞系特征。使用下一代测序平台对全外显子组测序和融合基因分析进行了检测。我们还研究了细胞突变与形态学发现之间的相关性,并进行了实验以阐明形态学发现与遗传改变之间的关联。
结果
在 11 种细胞系中发现了 TP53、HMCN1、PCLO、HYDIN、APOB 和 EYS 的突变,在 5 种细胞系中发现了 CTNNB1 突变,在 4 种细胞系中发现了 HYDIN 突变,在 4 种细胞系中发现了 HYDIN 突变,在 3 种细胞系中发现了 APOB 突变,在 3 种细胞系中发现了 EYS 突变。在四个细胞系(KYN-1、KYN-2、KYN-3 和 HAK-6)的原始肿瘤中,形态学表现为大的巨梁状块状模式,这些细胞系均存在 TP53 突变。两个细胞系(KYN-2 和 KMCH-2)表现出极高的肿瘤突变负担。这两个细胞系具有与 DNA 修复和/或 DNA 聚合酶相关的超高突变。
结论
本研究发现了几种 HCC 细胞系中形态学发现与基因突变之间的相关性。发现了具有独特遗传突变的细胞系。这些信息将成为 HCC 研究中选择合适实验模型的有用工具。
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