Functional mechanisms underlying pleiotropic risk alleles at the 19p13.1 breast–ovarian cancer susceptibility locus

Lawrenson, Kate; Kar, Siddhartha; McCue, Karen; Kuchenbaeker, Karoline B.; Michailidou, Kyriaki; Tyrer, Jonathan P.; Beesley, Jonathan; Ramus, Susan J.; Li, Qiyuan; Delgado, Melissa K.; Lee, Janet M.; Aittomäki, Kristiina; Andrulis, Irene L.; Anton‐Culver, Hoda; Arndt, Volker; Arun, Banu K.; Arver, Brita; Bandera, Elisa V.; Barile, Mônica; Barkardóttir, Rósa B.; Barrowdale, Daniel; Beckmann, Matthias W.; Benı́tez, Javier; Berchuck, Andrew; Bisogna, Maria; Bjørge, Line; Blomqvist, Carl; Blot, William J.; Bogdanova, Natalia; Bojesen, Anders; Bojesen, Stig E.; Bolla, Manjeet K.; Bonanni, Bernardo; Børresen‐Dale, Anne‐Lise; Brauch, Hiltrud; Brennan, Paul; Brenner, Hermann; Bruinsma, Fiona; Brunet, Joan; Buhari, Shaik Ahmad; Burwinkel, Barbara; Bützow, Ralf; Buys, Saundra S.; Cai, Qiuyin; Caldés, Trinidad; Campbell, Ian G.; Canniotto, Rikki; Chang‐Claude, Jenny; Chiquette, Jocelyne; Choi, Ji-Yeob; Claes, Kathleen; Collonge-Rame, Marie Agnès; Damette, Alexandre; Barouk-Simonet, Emmanuelle; Bonnet, Françoise; Bubien, Virginie; Sévenet, Nicolas; Longy, Michel; Berthet, Pascaline; Vaur, Dominique; Castéra, Laurent; Ferrer, Sandra Fert; Bignon, Yves‐Jean; Uhrhammer, Nancy; Coron, Fanny; Faivre, Laurence; Baurand, Amandine; Jacquot, Caroline; Bertolone, Geoffrey; Lizard, Sarab; Leroux, Dominique; Dreyfus, Hélène; Rebischung, Christine; Peysselon, Magalie; Peyrat, Jean‐Philippe; Fournier, Joëlle; Révillion, Françoise; Adenis, Claude; Vénat-Bouvet, Laurence; Léoné, Mélanie; Boutry‐Kryza, Nadia; Calender, Alain; Giraud, Sophie; Verny-Pierre, Carole; Lasset, Christine; Bonadona, Valérie; Barjhoux, Laure; Sobol, Hagay; Bourdon, Violaine; Noguchi, Tetsuro; Remenieras, Audrey; Coupier, Isabelle; Pujol, Pascal; Sokolowska, Johanna; Bronner, Myriam; Delnatte, Capucine; Bézieau, Stéphane; Mari, Véronique; Gauthier‐Villars, Marion; Bruno, Benedetto; Rouleau, Étienne; Golmard, Lisa; Moncoutier, Virginie; Belotti, Muriel; Pauw, Antoine de; Elan, Camille; Fourme, Emmanuelle; Birot, Anne-Marie; Saule, Claire; Laurent, M; Houdayer, Claude; Lesueur, Fabienne; Mebirouk, Noura; Coulet, Florence; Colas, Chrystelle; Soubrier, Florent; Warcoin, Mathilde; Prieur, Fabienne; Lebrun, Marine; Kientz, Caroline; Muller, Danièle; Fricker, Jean-Pierre; Toulas, Christine; Guimbaud, Rosine; Gladieff, Laurence; Feillel, V.; Mortemousque, Isabelle; Paillerets, Brigitte Bressac-de; Caron, Olivier; Guillaud‐Bataille, Marine; Cook, Linda S.; Cox, Angela; Cramer, Daniel W.; Cross, Simon S.; Cybulski, Cezary; Czene, Kamila; Daly, Mary B.; Damiola, Francesca; Dansonka-Mieszkowska, Agnieszka; Darabi, Hatef; Dennis, Joe; Devilee, Peter; Dı́ez, Orland; Doherty, Jennifer A.; Domchek, Susan M.; Dorfling, Cecilia M.; Dörk, Thilo; Dumont, Martine; Ehrencrona, Hans; Ejlertsen, Bent; Ellis, Steve; Gregory, Helen; Miedzybrodzka, Zosia; Morrison, Patrick J.; Donaldson, Alan; Rogers, Mark T.; Kennedy, Michael J.; Porteous, Mary; Brady, Angela; Barwell, Julian; Foo, Claire; Lalloo, Fiona; Side, Lucy; Eason, Jacqueline; Henderson, Alex; Walker, Lisa; Cook, Jackie; Snape, Katie; Murray, Alex; McCann, Emma; Engel, Christoph; Lee, Eunjung; Evans, D. 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doi:10.1038/ncomms12675

Cited by 82 publications

(107 citation statements)

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“…Detailed functional studies will be required to define the underlying biology of SNP-regulatory interactions to identify the causal SNP(s) at each locus, and to confirm which candidate susceptibility genes represent the targets of these risk SNPs. Evolving technologies, in particular CRISPR-Cas9 genome editing, now enable precision modification of risk SNPs to create isogenic models of different alleles 35 , enabling the effects of each allele on disease pathogenesis to be studied, for example at 19p13 36 , 8q24 14 , 17q12 12 and 5p15 13 . Finally, given that several previously identified EOC susceptibility alleles are associated with risk of other cancers 17 , and that there are similarities in molecular phenotype and/or shared tissue of origin between endometrial cancer, endometriosis and ENOC and CCOC 37 as well as basal-like breast cancer 38 , we anticipate that the loci reported here may be also associated with risk of other cancer-related traits.…”

Section: Discussionmentioning

confidence: 99%

Identification of 12 new susceptibility loci for different histotypes of epithelial ovarian cancer

Phelan¹,

Kuchenbaecker²,

Tyrer³

et al. 2017

Nat Genet

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395

454

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To identify common alleles associated with different histotypes of epithelial ovarian cancer (EOC), we pooled data from multiple genome-wide genotyping projects totaling 25,509 EOC cases and 40,941 controls. We identified nine new susceptibility loci for different EOC histotypes: six for serous EOC histotypes (3q28, 4q32.3, 8q21.11, 10q24.33, 18q11.2 and 22q12.1), two for mucinous EOC (3q22.3, 9q31.1) and one for endometrioid EOC (5q12.3). We then meta-analysed the results for high-grade serous ovarian cancer with the results from analysis of 31,448 BRCA1 and BRCA2 mutation carriers, including 3,887 mutation carriers with EOC. This identified an additional three loci at 2q13, 8q24.1 and 12q24.31. Integrated analyses of genes and regulatory biofeatures at each locus predicted candidate susceptibility genes, including OBFC1, a novel susceptibility gene for low grade/borderline serous EOC.

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Section: Discussionmentioning

confidence: 99%

Identification of 12 new susceptibility loci for different histotypes of epithelial ovarian cancer

Phelan¹,

Kuchenbaecker²,

Tyrer³

et al. 2017

Nat Genet

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395

454

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“…Genotypes at many millions of common variants across the genome can be genotyped or imputed with high accuracy using largescale genotyping arrays, using reference panels from the 1000 Genomes Project (Auton et al 2015). This approach has been applied with great success in cancer epidemiology in the general population, with GWAS having identified more than 100 common susceptibility variants for breast cancer , Hunter et al 2007, Stacey et al 2007, Ahmed et al 2009, Thomas et al 2009, Antoniou et al 2010b, Turnbull et al 2010, Cai et al 2011, Fletcher et al 2011, Ghoussaini et al 2012, Hein et al 2012, Long et al 2012, Siddiq et al 2012, Bojesen et al 2013, French et al 2013, Garcia-Closas et al 2013, Gaudet et al 2013, Meyer et al 2013, Cai et al 2014, Milne et al 2014a, Orr et al 2015, Couch et al 2016, Dunning et al 2016, Lawrenson et al 2016, Zheng et al 2009) and 22 for ovarian cancer (Song et al 2009, Bolton et al 2010, Goode et al 2010, Bojesen et al 2013, Permuth-Wey et al 2013, Pharoah et al 2013, Kuchenbaecker et al 2015.…”

Section: Genetic Modifiersmentioning

confidence: 99%

“…In this context, within CIMBA, four approaches have been applied to identify loci associated with breast and ovarian cancer for mutation carriers: (i) GWAS for breast and ovarian cancer specifically performed in samples of BRCA1 and BRCA2 mutation carriers (Antoniou et al 2010b, Gaudet et al 2013; (ii) association 23:10 studies to assess common breast and ovarian cancer susceptibility alleles identified in the general population as potential modifiers of risk for mutation carriers (Antoniou et al 2008b, Kuchenbaecker et al 2014; (iii) meta-analyses of GWAS performed in BRCA1 and BRCA2 mutation carriers with GWAS of related phenotypes in the general population (for example, combining studies of breast cancer risk for BRCA1 mutation carriers with those of oestrogen receptor-negative breast cancer in general population or studies of ovarian cancer risk for BRCA1 and BRCA2 mutation carriers with GWAS of serous ovarian cancer in the general population) (Kuchenbaecker et al 2015, Couch et al 2016; and iv) finescale mapping of risk-modifying loci identified through GWAS approaches to fully characterise the associations with all genetic variants at these loci (Bojesen et al 2013, Dunning et al 2016, Lawrenson et al 2016.…”

Section: Genetic Modifiersmentioning

confidence: 99%

“…Fine-mapping studies, in which a much denser selection of SNPs in susceptibility loci is genotyped and analysed using multivariable (conditional) 23:10 models, can highlight potentially causal variants, although extensive laboratory work is often required to demonstrate their function. These experiments are not feasible for all loci, and those that are, are often laborious and sometimes equivocal in identifying a single causal variant or even a single target gene (Dunning et al 2016, Lawrenson et al 2016). These fine-mapping studies often identify additional independent associations.…”

Section: Genetic Modifiersmentioning

confidence: 99%

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Modifiers of breast and ovarian cancer risks for BRCA1 and BRCA2 mutation carriers

Milne

Antoniou

2016

Endocrine-Related Cancer

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Pathogenic mutations in BRCA1 and BRCA2 are associated with high risks of breast and ovarian cancer. However, penetrance estimates for mutation carriers have been found to vary substantially between studies, and the observed differences in risk are consistent with the hypothesis that genetic and environmental factors modify cancer risks for women with these mutations. Direct evidence that this is the case has emerged in the past decade, through large-scale international collaborative efforts. Here, we describe the methodological challenges in the identification and characterisation of these risk-modifying factors, review the latest evidence on genetic and lifestyle/hormonal risk factors that modify breast and ovarian cancer risks for women with BRCA1 and BRCA2 mutations and outline the implications of these findings for cancer risk prediction. We also review the unresolved issues in this area of research and identify strategies of clinical implementation so that women with BRCA1 and BRCA2 mutations are no longer counselled on the basis of 'average' risk estimates.

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“…One additional variant, rs11571833 at chromosome 13q13, was not genotyped and could not be imputed in all 3 studies; this variant had a minor allele frequency of 0.006 in the 1000 Genomes AFR population. These 74 risk variants include stronger markers than the index SNP found in GWAS as well as independent signals discovered through subsequent fine-mapping studies (Supplemental Table S1) (1, 3, 4, 8, 10, 11). …”

Section: Methodsmentioning

confidence: 99%

Characterizing Genetic Susceptibility to Breast Cancer in Women of African Ancestry

Feng

Rhie

Huo

et al. 2017

Cancer Epidemiology, Biomarkers &Amp; Prevention

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Background Genome-wide association studies have identified ~100 common genetic variants associated with breast cancer risk, the majority of which were discovered in women of European ancestry. Due to different patterns of linkage disequilibrium, many of these genetic markers may not represent signals in populations of African ancestry. Methods We tested 74 breast cancer risk variants and conducted fine-mapping of these susceptibility regions in 6,522 breast cancer cases and 7,643 controls of African ancestry from three genetic consortia (AABC, AMBER and ROOT). Results Fifty-four of the 74 variants (73%) were found to have odds ratios that were directionally consistent with those previously reported, of which twelve were nominally statistically significant (P < 0.05). Through fine-mapping, in six regions (3p24, 12p11, 14q13, 16q12/FTO, 16q23, 19p13) we observed seven markers that better represent the underlying risk variant for overall breast cancer or breast cancer subtypes, whereas in another two regions (11q13, 16q12/TOX3) we identified suggestive evidence of signals that are independent of the reported index variant. Overlapping chromatin features and regulatory elements suggest that many of the risk alleles lie in regions with biological functionality. Conclusions Through fine-mapping of known susceptibility regions we have revealed alleles that better characterize breast cancer risk in women of African ancestry. Impact The risk alleles identified represent genetic markers for modeling and stratifying breast cancer risk in women of African ancestry.

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Functional mechanisms underlying pleiotropic risk alleles at the 19p13.1 breast–ovarian cancer susceptibility locus

Cited by 82 publications

References 55 publications

Identification of 12 new susceptibility loci for different histotypes of epithelial ovarian cancer

Identification of 12 new susceptibility loci for different histotypes of epithelial ovarian cancer

Modifiers of breast and ovarian cancer risks for BRCA1 and BRCA2 mutation carriers

Characterizing Genetic Susceptibility to Breast Cancer in Women of African Ancestry

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