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Pan-cancer whole-genome analyses of metastatic solid tumours.

Peter Priestley ,
Jonathan Baber ,
Martijn P Lolkema ,
Neeltje Steeghs ,
Ewart de Bruijn ,
Charles Shale ,
Korneel Duyvesteyn ,
Susan Haidari ,
Arne van Hoeck ,
Wendy Onstenk ,
Paul Roepman ,
Mircea Voda ,
Haiko J Bloemendal ,
Vivianne C G Tjan-Heijnen ,
Carla M L van Herpen ,
Mariette Labots ,
Petronella O Witteveen ,
Egbert F Smit ,
Stefan Sleijfer ,
Emile E Voest ,
Edwin Cuppen

Abstract

Metastatic cancer is a major cause of death and is associated with poor treatment efficacy. A better understanding of the characteristics of late-stage cancer is required to help adapt personalized treatments, reduce overtreatment and improve outcomes. Here we describe the largest, to our knowledge, pan-cancer study of metastatic solid tumour genomes, including whole-genome sequencing data for 2,520 pairs of tumour and normal tissue, analysed at median depths of 106× and 38×, respectively, and surveying more than 70 million somatic variants. The characteristic mutations of metastatic lesions varied widely, with mutations that reflect those of the primary tumour types, and with high rates of whole-genome duplication events (56%). Individual metastatic lesions were relatively homogeneous, with the vast majority (96%) of driver mutations being clonal and up to 80% of tumour-suppressor genes being inactivated bi-allelically by different mutational mechanisms. Although metastatic tumour genomes showed similar mutational landscape and driver genes to primary tumours, we find characteristics that could contribute to responsiveness to therapy or resistance in individual patients. We implement an approach for the review of clinically relevant associations and their potential for actionability. For 62% of patients, we identify genetic variants that may be used to stratify patients towards therapies that either have been approved or are in clinical trials. This demonstrates the importance of comprehensive genomic tumour profiling for precision medicine in cancer.

More about this publication

Nature

Volume 575
Issue nr. 7781
Pages 210-216
Publication date 01-11-2019

Full text links

Publisher website (DOI) 10.1038/s41586-019-1689-y
Europe PubMed Central 31645765
Pubmed 31645765

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