Understanding the biological processes of kidney carcinogenesis: an integrative multi-omics approach.

IF 8.5 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Systems Biology Pub Date : 2024-11-26 DOI:10.1038/s44320-024-00072-3

Ricardo Cortez Cardoso Penha, Alexandra Sexton Oates, Sergey Senkin, Hanla A Park, Joshua Atkins, Ivana Holcatova, Anna Hornakova, Slavisa Savic, Simona Ognjanovic, Beata Świątkowska, Jolanta Lissowska, David Zaridze, Anush Mukeria, Vladimir Janout, Amelie Chabrier, Vincent Cahais, Cyrille Cuenin, Ghislaine Scelo, Matthieu Foll, Zdenko Herceg, Paul Brennan, Karl Smith-Byrne, Nicolas Alcala, James D Mckay

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Abstract

Biological mechanisms related to cancer development can leave distinct molecular fingerprints in tumours. By leveraging multi-omics and epidemiological information, we can unveil relationships between carcinogenesis processes that would otherwise remain hidden. Our integrative analysis of DNA methylome, transcriptome, and somatic mutation profiles of kidney tumours linked ageing, epithelial-mesenchymal transition (EMT), and xenobiotic metabolism to kidney carcinogenesis. Ageing process was represented by associations with cellular mitotic clocks such as epiTOC2, SBS1, telomere length, and PBRM1 and SETD2 mutations, which ticked faster as tumours progressed. We identified a relationship between BAP1 driver mutations and the epigenetic upregulation of EMT genes (IL20RB and WT1), correlating with increased tumour immune infiltration, advanced stage, and poorer patient survival. We also observed an interaction between epigenetic silencing of the xenobiotic metabolism gene GSTP1 and tobacco use, suggesting a link to genotoxic effects and impaired xenobiotic metabolism. Our pan-cancer analysis showed these relationships in other tumour types. Our study enhances the understanding of kidney carcinogenesis and its relation to risk factors and progression, with implications for other tumour types.

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了解肾癌发生的生物学过程：一种综合的多组学方法。

与癌症发展相关的生物机制会在肿瘤中留下独特的分子指纹。通过利用多组学和流行病学信息，我们可以揭示致癌过程之间的关系，否则这些关系就会被隐藏起来。我们对肾脏肿瘤的DNA甲基组、转录组和体细胞突变图谱进行了综合分析，发现老化、上皮-间质转化（EMT）和异种生物代谢与肾癌的发生有关。老化过程与细胞有丝分裂钟（如 epiTOC2、SBS1）、端粒长度以及 PBRM1 和 SETD2 突变有关，随着肿瘤的发展，这些突变的速度加快。我们发现了 BAP1 驱动基因突变与 EMT 基因（IL20RB 和 WT1）表观遗传上调之间的关系，这与肿瘤免疫浸润增加、晚期分期和患者生存率降低有关。我们还观察到异生物代谢基因 GSTP1 的表观遗传沉默与吸烟之间的相互作用，这表明基因毒性效应与异生物代谢受损之间存在联系。我们的泛癌症分析表明，在其他类型的肿瘤中也存在这些关系。我们的研究加深了人们对肾癌发生及其与危险因素和进展的关系的了解，对其他类型的肿瘤也有借鉴意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Systems Biology 生物-生化与分子生物学

CiteScore

18.50

自引率

1.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Systems biology is a field that aims to understand complex biological systems by studying their components and how they interact. It is an integrative discipline that seeks to explain the properties and behavior of these systems. Molecular Systems Biology is a scholarly journal that publishes top-notch research in the areas of systems biology, synthetic biology, and systems medicine. It is an open access journal, meaning that its content is freely available to readers, and it is peer-reviewed to ensure the quality of the published work.