Abstract
Abstract BACKGROUND: The genomic complexity of profound copy-number aberration has prevented effective molecular stratification of high grade serous ovarian carcinoma (HGSOC). Recent algorithmic advances have enabled interpretation of complex genomic changes by identifying mutational signatures—genomic patterns that are the imprint of mutagenic processes accumulated over the lifetime of a cancer cell. We hypothesized that specific features of copy-number (CN) abnormalities could represent the imprints of distinct mutational processes, and developed methods to identify signatures from copy-number features in HGSOC. METHODS: We derived copy-number signatures from absolute copy number profiles from 253 primary and relapsed HGSOC samples from 132 patients in the BriTROC-1 cohort using low-cost shallow whole-genome sequencing (sWGS; 0.1×). A subset of 56 of these cases had deep whole-genome sequencing (dWGS) performed for mutation analysis and comparison with sWGS data. Independent validation was performed using 112 dWGS HGSOC cases from PCAWG and 415 HGSOC cases with SNP array and whole exome sequence from TCGA. CN signature exposures were correlated with mutation data, SNV signatures, and other measures derived from deep WGS and exome sequencing to identify statistically significant genomic associations using a false discovery rate <0.05. RESULTS: We identified 7 CN signatures that provided a molecular framework to rederive the major defining elements of HGSOC genomes, including defective homologous recombination (HRD), tandem duplication, amplification of CCNE1 and amplification-associated fold-back inversions. Almost all patients with HGSOC demonstrated a mixture of signatures indicative of combinations of mutational processes, including those with early driver events such as BRCA2 mutation (in addition to HRD signatures). High exposure to CN signature 3, characterised by BRCA1/2-related HRD, was associated with improved overall survival. Conversely, high exposure to signature 1, which was characterised by oncogenic RAS signaling (including NF1, KRAS and NRAS mutation), predicted platinum-resistant relapse and poor survival. CONCLUSIONS: HGSOC lacks clinically-relevant patient stratification, which is reflected in poor survival and is a significant barrier to precision medicine. Copy-number signature exposures at diagnosis predict both overall survival and the probability of platinum-resistant relapse. Our results suggest that early TP53 mutation, the ubiquitous initiating event in HGSOC, may permit multiple mutational processes to co-evolve, potentially simultaneously and that additional signature exposures may alter the risk of developing therapeutic resistance. Thus, our results suggest that HGSOC is a continuum of genomes. We derived signatures using inexpensive sWGS of DNA from core biopsies. These approaches are rapid and cost effective, thus providing a clear path to clinical implementation. By dissecting the mutational forces shaping HGSOC genomes, our study paves the way to understanding extreme genomic complexity, as well as revealing the evolution of tumors as they relapse and acquire resistance to therapy. Citation Format: Geoff Macintyre, Teodora E. Goranova, Dilrini De Silva, Darren Ennis, Anna M. Piskorz, Matthew Eldridge, Daoud Sie, Liz-Anne Lewsley, Aishah Hanif, Cheryl Wilson, Suzanne Dowson, Rosalind M. Glasspool, Michelle Lockley, Elly Brockbank, Ana Montes, Axel Walther, Sudha Sundar, Richard Edmondson, Geoff D. Hall, Andrew Clamp, Charlie Gourley, Marcia Hall, Christina Fotopoulou, Hani Gabra, James Paul, Anna Supernat, David Millan, Aoisha Hoyle, Gareth Bryson, Craig Nourse, Laura Mincarelli, Luis Navarro Sanchez, Bauke Ylstra, Mercedes Jimenez-Linan, Luiza Moore, Oliver Hofmann, Florian Markowetz, Iain A. McNeish, James D. Brenton. COPY-NUMBER SIGNATURES AND MUTATIONAL PROCESSES IN HIGH GRADE SEROUS OVARIAN CARCINOMA [abstract]. In: Proceedings of the 12th Biennial Ovarian Cancer Research Symposium; Sep 13-15, 2018; Seattle, WA. Philadelphia (PA): AACR; Clin Cancer Res 2019;25(22 Suppl):Abstract nr AP09.
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