基于下一代测序的尿游离线粒体DNA分析揭示癌症患者线粒体DNA片段化异常及突变特征

Next-Generation Sequencing-Based Analysis of Urine Cell-Free mtDNA Reveals Aberrant Fragmentation and Mutation Profile in Cancer Patients.

作者信息

Zhou Kaixiang, Liu Yang, Yuan Qing, Lai Dong, Guo Shanshan, Wang Zhenni, Su Liping, Zhang Huanqin, Wang Xiangxu, Guo Wenjie, Ji Xiaoying, Gu Xiwen, Huang Qichao, Guo Xu, Xing Jinliang

机构信息

State Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology, Fourth Military Medical University, Xi'an, China.

Institute of Medical Research, Northwestern Polytechnical University, Xi'an, China.

出版信息

Clin Chem. 2022 Mar 31;68(4):561-573. doi: 10.1093/clinchem/hvab268.

DOI:10.1093/clinchem/hvab268

PMID:34993545

Abstract

BACKGROUND

Many studies have demonstrated the high efficacy of cell-free nuclear DNA in cancer diagnostics. Compared to nuclear DNA, mitochondrial DNA (mtDNA) exhibits distinct characteristics, including multiple copies per cell and higher mutation frequency. However, the potential applicability of cell-free mtDNA (cf-mtDNA) in plasma and urine remains poorly investigated.

METHODS

Here, we comprehensively analyzed the fragmentomic and mutational characteristics of cf-mtDNA in urine and plasma samples from controls and cancer patients using next-generation sequencing.

RESULTS

Compared to plasma cf-mtDNA, urine cf-mtDNA exhibited increased copy numbers and wider spread in fragment size distributions. Based on 2 independent animal models, urine cf-mtDNA originated predominantly from local shedding and transrenal excretion. Further analysis indicated an enhanced fragmentation of urine cf-mtDNA in renal cell carcinoma (RCC) and colorectal cancer (CRC) patients. Using the mtDNA sequence of peripheral blood mononuclear cells for reference, the mutant fragments were shorter than wild-type fragments in urine cf-mtDNA. Size selection of short urine cf-mtDNA fragments (<150 bp) significantly enhanced the somatic mutation detection. Our data revealed remarkably different base proportions of fragment ends between urine and plasma cf-mtDNA that also were associated with fragment size. Moreover, both RCC and CRC patients exhibited significantly higher T-end and lower A-end proportions in urine cf-mtDNA than controls. By integrating the fragmentomic and mutational features of urine cf-mtDNA, our nomogram model exhibited a robust efficacy for cancer diagnosis.

CONCLUSIONS

Our proof-of-concept findings revealed aberrant fragmentation and mutation profiles of urine cf-mtDNA in cancer patients that have diagnostic potential.

摘要

背景

许多研究已证明游离核DNA在癌症诊断中具有高效性。与核DNA相比，线粒体DNA（mtDNA）具有独特的特征，包括每个细胞有多个拷贝以及更高的突变频率。然而，游离线粒体DNA（cf-mtDNA）在血浆和尿液中的潜在适用性仍研究不足。

方法

在此，我们使用下一代测序全面分析了来自对照和癌症患者的尿液和血浆样本中cf-mtDNA的片段组学和突变特征。

结果

与血浆cf-mtDNA相比，尿液cf-mtDNA的拷贝数增加，片段大小分布更广泛。基于2个独立的动物模型，尿液cf-mtDNA主要来源于局部脱落和经肾排泄。进一步分析表明，肾细胞癌（RCC）和结直肠癌（CRC）患者尿液cf-mtDNA的片段化增强。以外周血单个核细胞的mtDNA序列为参考，尿液cf-mtDNA中的突变片段比野生型片段短。选择短的尿液cf-mtDNA片段（<150 bp）进行大小筛选可显著提高体细胞突变检测。我们的数据显示，尿液和血浆cf-mtDNA的片段末端碱基比例存在显著差异，且与片段大小有关。此外，RCC和CRC患者尿液cf-mtDNA的T末端比例均显著高于对照组，A末端比例则低于对照组。通过整合尿液cf-mtDNA的片段组学和突变特征，我们的列线图模型在癌症诊断中显示出强大的功效。

结论

我们的概念验证研究结果揭示了癌症患者尿液cf-mtDNA存在异常的片段化和突变谱，具有诊断潜力。

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基于下一代测序的尿游离线粒体DNA分析揭示癌症患者线粒体DNA片段化异常及突变特征

Next-Generation Sequencing-Based Analysis of Urine Cell-Free mtDNA Reveals Aberrant Fragmentation and Mutation Profile in Cancer Patients.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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