鉴定胆管癌中无胆汁细胞 DNA 的全基因组突变和结构变异。

IF 3.4 2区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Genomics Pub Date : 2024-08-13 DOI:10.1016/j.ygeno.2024.110916

Lei Yin , Anqi Duan , Wei Zhang , Bin Li , Teng Zhao , Xiaoya Xu , Lixue Yang , Baoning Nian , Kai Lu , Sheng Chen , Zhikuan Li , Jian Liu , Qiaonan Duan , Dongyu Liu , Hao Chen , Longjiu Cui , Yanxin Chang , Yue Kuang , Dadong Zhang , Xiang Wang , Yongjie Zhang

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引用次数: 0

摘要

据报道，无胆汁细胞DNA（cfDNA）是一种很有前景的胆管癌（CCA）液体活检工具，然而，胆汁cfDNA的全基因组突变情况和结构变异（SVs）仍然未知。在此，我们对胆汁cfDNA进行了全基因组测序，并分析了胆汁cfDNA突变特征与临床预后之间的相关性。TP53和KRAS是最常发生突变的基因，RTK/RAS、同源重组（HR）和HIPPO是包含最多基因突变的三大通路。在胆汁cfDNA和肿瘤组织中发现了10个重叠的推测驱动基因。发现了染色质三分裂（chromothripsis）和卡塔吉斯（kataegis）等SV。此外，HR通路突变的危险比为15.77（95% CI：1.571-158.4），胆汁cfDNA中存在HR通路突变的患者总生存率较低（P = 0.0049）。我们的研究表明，胆汁cfDNA含有基因组突变和SV，胆汁cfDNA中的HR通路突变可预测CCA患者的不良预后。

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Identification of whole-genome mutations and structural variations of bile cell-free DNA in cholangiocarcinoma

Bile cell-free DNA (cfDNA) has been reported as a promising liquid biopsy tool for cholangiocarcinoma (CCA), however, the whole-genome mutation landscape and structural variants (SVs) of bile cfDNA remains unknown. Here we performed whole-genome sequencing on bile cfDNA and analyzed the correlation between mutation characteristics of bile cfDNA and clinical prognosis. TP53 and KRAS were the most frequently mutated genes, and the RTK/RAS, homologous recombination (HR), and HIPPO were top three pathways containing most gene mutations. Ten overlapping putative driver genes were found in bile cfDNA and tumor tissue. SVs such as chromothripsis and kataegis were identified. Moreover, the hazard ratio of HR pathway mutations were 15.77 (95% CI: 1.571–158.4), patients with HR pathway mutations in bile cfDNA exhibited poorer overall survival (P = 0.0049). Our study suggests that bile cfDNA contains genome mutations and SVs, and HR pathway mutations in bile cfDNA can predict poor outcomes of CCA patients.

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来源期刊

Genomics 生物-生物工程与应用微生物

CiteScore

9.60

自引率

2.30%

发文量

260

审稿时长

60 days

期刊介绍： Genomics is a forum for describing the development of genome-scale technologies and their application to all areas of biological investigation. As a journal that has evolved with the field that carries its name, Genomics focuses on the development and application of cutting-edge methods, addressing fundamental questions with potential interest to a wide audience. Our aim is to publish the highest quality research and to provide authors with rapid, fair and accurate review and publication of manuscripts falling within our scope.