Start Over

Copy number signatures and mutational processes in ovarian carcinoma

Authors :: Macintyre, Geoff
Goranova, Teodora E.
De Silva, Dilrini
Ennis, Darren
Piskorz, Anna M.
Eldridge, Matthew
Sie, Daoud
Lewsley, Liz-Anne
Hanif, Aishah
Wilson, Cheryl
Dowson, Suzanne
Glasspool, Rosalind M.
Lockley, Michelle
Brockbank, Elly
Montes, Ana
Walther, Axel
Sundar, Sudha
Edmondson, Richard
Hall, Geoff D.
Clamp, Andrew
Gourley, Charlie
Hall, Marcia
Fotopoulou, Christina
Gabra, Hani
Paul, James
Supernat, Anna
Millan, David
Hoyle, Aoisha
Bryson, Gareth
Nourse, Craig
Mincarelli, Laura
Sanchez, Luis Navarro
Ylstra, Bauke
Jimenez-Linan, Mercedes
Moore, Luiza
Hofmann, Oliver
Markowetz, Florian
McNeish, Iain A.
Brenton, James D.
Source :: Nature Genetics; September 2018, Vol. 50 Issue: 9 p1262-1270, 9p
Publication Year :: 2018
Abstract: The genomic complexity of profound copy number aberrations has prevented effective molecular stratification of ovarian cancers. Here, to decode this complexity, we derived copy number signatures from shallow whole-genome sequencing of 117 high-grade serous ovarian cancer (HGSOC) cases, which were validated on 527 independent cases. We show that HGSOC comprises a continuum of genomes shaped by multiple mutational processes that result in known patterns of genomic aberration. Copy number signature exposures at diagnosis predict both overall survival and the probability of platinum-resistant relapse. Measurement of signature exposures provides a rational framework to choose combination treatments that target multiple mutational processes.