Copy Number Variants Are Ovarian Cancer Risk Alleles at Known and Novel Risk Loci

Amber A Devries, Joe Dennis, Jonathan P Tyrer, Pei-chen Peng, Simon G Coetzee, Alberto L Reyes, Jasmine T Plummer, Brian D Davis, Stephanie S Chen, Felipe Segato Dezem, Katja K H Aben, Hoda Anton-culver, Natalia N Antonenkova, Matthias W Beckmann, Alicia Beeghly-fadiel, Andrew Berchuck, Natalia V Bogdanova, Nadja Bogdanova-markov, James D Brenton, Ralf ButzowIan Campbell, Jenny Chang-claude, G Chenevix-trench, Linda S Cook, A Defazio, Jennifer A Doherty, Thilo Dörk, Diana M Eccles, A Heather Eliassen, Peter A Fasching, Renée T Fortner, Graham G Giles, Ellen L Goode, Marc T Goodman, Jacek Gronwald, P Webb, A Defazio, M Friedlander, A Obermair, P Grant, C Nagle, V Beesley, G Chevenix-trench, D Bowtell, P Blomfield, A Brand, A Davis, Y Leung, J Nicklin, M Quinn, K Livingstone, H O'neill, M Williams, A Black, A Hadley, A Glasgow, A Garrett, A Rao, C Shannon, C Steer, D Allen, D Neesham, G Otton, G Au-yeung, G Goss, G Wain, G Gard, G Robertson, J Lombard, J Tan, J Mcneilage, J Power, J Coward, J Miller, J Carter, J Lamont, K M Wong, K Reid, L Perrin, L Milishkin, M Nascimento, M Buck, M Bunting, M Harrison, N Chetty, N Hacker, O Mcnally, P Harnett, P Beale, R Awad, R Mohan, R Farrell, R Mcintosh, R Rome, R Sayer, R Houghton, R Hogg, R Land, S Baron-hay, S Paramasivum, S Pather, S Hyde, S Salfinger, S Valmadre, T Jobling, T Manolitsas, T Bonaventura, V Arora, D Bowtell, G Chenevix-trench, A Green, P Webb, A Defazio, D Gertig, N Traficante, S Fereday, S Moore, J Hung, K Harrap, T Sadkowsky, N Pandeya, M Malt, R Robertson, T Vanden Bergh, M Jones, P Mckenzie, J Maidens, K Nattress, Y E Chiew, A Stenlake, H Sullivan, B Alexander, P Ashover, S Brown, T Corrish, L Green, L Jackman, K Ferguson, K Martin, A Martyn, B Ranieri, J White, V Jayde, L Bowes, P Mamers, L Galletta, D Giles, J Hendley, K Alsop, T Schmidt, H Shirley, C Ball, C Young, S Viduka, H Tran, S Bilic, L Glavinas, J Brooks, R Stuart-harris, F Kirsten, J Rutovitz, P Clingan, A Glasgow, A Proietto, S Braye, G Otton, J Shannon, T Bonaventura, J Stewart, S Begbie, Niclas Håkansson, Michelle A T Hildebrandt, Chad Huff, David G Huntsman, Allan Jensen, Siddhartha Kar, Beth Y Karlan, Elza K Khusnutdinova, Lambertus A Kiemeney, Susanne K Kjaer, Jolanta Kupryjanczyk, Marilyne Labrie, Diether Lambrechts, Nhu D Le, Jan Lubiński, Taymaa May, Usha Menon, Roger L Milne, Francesmary Modugno, Alvaro N Monteiro, Kirsten B Moysich, Kunle Odunsi, Håkan Olsson, Celeste L Pearce, Tanja Pejovic, Susan J Ramus, Elio Riboli, Marjorie J Riggan, Isabelle Romieu, Dale P Sandler, Joellen M Schildkraut, V Wendy Setiawan, Weiva Sieh, Honglin Song, Rebecca Sutphen, Kathryn L Terry, Pamela J Thompson, Linda Titus, Shelley S Tworoger, Els Van Nieuwenhuysen, Digna Velez Edwards, Penelope M Webb, Nicolas Wentzensen, Alice S Whittemore, Alicja Wolk, Anna H Wu, Argyrios Ziogas, Matthew L Freedman, Kate Lawrenson, Paul D P Pharoah, Douglas F Easton, Simon A Gayther, Michelle R Jones*

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

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Abstract

Background
Known risk alleles for epithelial ovarian cancer (EOC) account for approximately 40% of the heritability for EOC. Copy number variants (CNVs) have not been investigated as EOC risk alleles in a large population cohort.

Methods
Single nucleotide polymorphism array data from 13 071 EOC cases and 17 306 controls of White European ancestry were used to identify CNVs associated with EOC risk using a rare admixture maximum likelihood test for gene burden and a by-probe ratio test. We performed enrichment analysis of CNVs at known EOC risk loci and functional biofeatures in ovarian cancer–related cell types.

Results
We identified statistically significant risk associations with CNVs at known EOC risk genes; BRCA1 (PEOC = 1.60E-21; OREOC = 8.24), RAD51C (Phigh-grade serous ovarian cancer [HGSOC] = 5.5E-4; odds ratio [OR]HGSOC = 5.74 del), and BRCA2 (PHGSOC = 7.0E-4; ORHGSOC = 3.31 deletion). Four suggestive associations (P < .001) were identified for rare CNVs. Risk-associated CNVs were enriched (P < .05) at known EOC risk loci identified by genome-wide association study. Noncoding CNVs were enriched in active promoters and insulators in EOC-related cell types.

Conclusions
CNVs in BRCA1 have been previously reported in smaller studies, but their observed frequency in this large population-based cohort, along with the CNVs observed at BRCA2 and RAD51C gene loci in EOC cases, suggests that these CNVs are potentially pathogenic and may contribute to the spectrum of disease-causing mutations in these genes. CNVs are likely to occur in a wider set of susceptibility regions, with potential implications for clinical genetic testing and disease prevention.
Original languageEnglish
Article numberdjac160
Pages (from-to)1533–1544
Number of pages12
JournalJournal of the National Cancer Institute
Volume114
Issue number11
Early online date10 Oct 2022
DOIs
Publication statusPublished - 10 Oct 2022

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