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The genomic landscape of metastatic castration-resistant prostate cancers reveals multiple distinct genotypes with potential clinical impact.

Lisanne F van Dessel ,
Job van Riet ,
Minke Smits ,
Yanyun Zhu ,
Paul Hamberg ,
Michiel S van der Heijden ,
Andries M Bergman ,
Inge M van Oort ,
Ronald de Wit ,
Emile E Voest ,
Neeltje Steeghs ,
Takafumi N Yamaguchi ,
Julie Livingstone ,
Paul C Boutros ,
John W M Martens ,
Stefan Sleijfer ,
Edwin Cuppen ,
Wilbert Zwart ,
Harmen J G van de Werken ,
Niven Mehra ,
Martijn P Lolkema

Abstract

Metastatic castration-resistant prostate cancer (mCRPC) has a highly complex genomic landscape. With the recent development of novel treatments, accurate stratification strategies are needed. Here we present the whole-genome sequencing (WGS) analysis of fresh-frozen metastatic biopsies from 197 mCRPC patients. Using unsupervised clustering based on genomic features, we define eight distinct genomic clusters. We observe potentially clinically relevant genotypes, including microsatellite instability (MSI), homologous recombination deficiency (HRD) enriched with genomic deletions and BRCA2 aberrations, a tandem duplication genotype associated with CDK12-/- and a chromothripsis-enriched subgroup. Our data suggests that stratification on WGS characteristics may improve identification of MSI, CDK12-/- and HRD patients. From WGS and ChIP-seq data, we show the potential relevance of recurrent alterations in non-coding regions identified with WGS and highlight the central role of AR signaling in tumor progression. These data underline the potential value of using WGS to accurately stratify mCRPC patients into clinically actionable subgroups.

More about this publication

Nature communications

Volume 10
Issue nr. 1
Pages 5251
Publication date 20-11-2019

Full text links

Publisher website (DOI) 10.1038/s41467-019-13084-7
Europe PubMed Central 31748536
Pubmed 31748536

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