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

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

doi:10.1038/s44320-024-00072-3

Molecular Systems Biology (Nov 2024)

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

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

Affiliations

Ricardo Cortez Cardoso Penha: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Alexandra Sexton Oates: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Sergey Senkin: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Hanla A Park: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Joshua Atkins: Cancer Epidemiology Unit, University of Oxford, Oxford
Ivana Holcatova: Institute of Public Health & Preventive Medicine, Charles University
Anna Hornakova: Institute of Hygiene and Epidemiology, Charles University
Slavisa Savic: Department of Urology, Kliničko-Bolnički Centar Dr Dragiša Mišović
Simona Ognjanovic: International Organization for Cancer Prevention and Research
Beata Świątkowska: Department of Environmental Epidemiology, Nofer Institute of Occupational Medicine
Jolanta Lissowska: Maria Sklodowska-Curie National Research Institute of Oncology
David Zaridze: N.N. Blokhin Cancer Research Center
Anush Mukeria: N.N. Blokhin Cancer Research Center
Vladimir Janout: Faculty of Health Sciences, Palacký University Olomouc
Amelie Chabrier: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Vincent Cahais: Epigenomics and Mechanisms Branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Cyrille Cuenin: Epigenomics and Mechanisms Branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Ghislaine Scelo: The Observational & Pragmatic Research Institute
Matthieu Foll: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Zdenko Herceg: Epigenomics and Mechanisms Branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Paul Brennan: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
Karl Smith-Byrne: Cancer Epidemiology Unit, University of Oxford, Oxford
Nicolas Alcala: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)
James D Mckay: Genomic Epidemiology branch, International Agency for Research on Cancer/World Health Organization (IARC/WHO)

DOI: https://doi.org/10.1038/s44320-024-00072-3
Journal volume & issue: Vol. 20, no. 12
pp. 1282 – 1302

Abstract

Read online

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.

Published in Molecular Systems Biology

ISSN: 1744-4292 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General); Medicine: Medicine (General)
Website: https://www.embopress.org/journal/17444292

About the journal

Abstract

Keywords