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1. An original phylogenetic approach identified mitochondrial haplogroup T1a1 as inversely associated with breast cancer risk in BRCA2 mutation carriers

Author

Blein, S, Bardel, C, Danjean, V, McGuffog, L, Healey, S, Barrowdale, D, Lee, A, Dennis, J, Kuchenbaecker, KB, Soucy, P, Terry, MB, Chung, WK, Goldgar, DE, Buys, SS, Janavicius, R, Tihomirova, L, Tung, N, Dorfling, CM, van Rensburg, EJ, Neuhausen, SL, Ding, YC, Gerdes, AM, Ejlertsen, B, Nielsen, FC, Hansen, TVO, Osorio, A, Benitez, J, Conejero, RA, Segota, E, Weitzel, JN, Thelander, M, Peterlongo, P, Radice, P, Pensotti, V, Dolcetti, R, Bonanni, B, Peissel, B, Zaffaroni, D, Scuvera, G, Manoukian, S, Varesco, L, Capone, GL, Papi, L, Ottini, L, Yannoukakos, D, Konstantopoulou, I, Garber, J, Hamann, U, Donaldson, A, Brady, A, Brewer, C, Foo, C, Evans, DG, Frost, D, Eccles, D, Douglas, F, Cook, J, Adlard, J, Barwell, J, Walker, L, Izatt, L, Side, LE, Kennedy, MJ, Tischkowitz, M, Rogers, MT, Porteous, ME, Morrison, PJ, Platte, R, Eeles, R, Davidson, R, Hodgson, S, Cole, T, Godwin, AK, Isaacs, C, Claes, K, De Leeneer, K, Meindl, A, Gehrig, A, Wappenschmidt, B, Sutter, C, Engel, C, Niederacher, D, Steinemann, D, Plendl, H, Kast, K, Rhiem, K, Ditsch, N, Arnold, N, Varon-Mateeva, R, Schmutzler, RK, Preisler-Adams, S, Markov, NB, Wang-Gohrke, S, de Pauw, A, Lefol, C, Lasset, C, Leroux, D, Rouleau, E, Damiola, F, and Dreyfus, H

Subjects
Oncology & Carcinogenesis, Oncology and Carcinogenesis
Abstract

Introduction: Individuals carrying pathogenic mutations in the BRCA1 and BRCA2 genes have a high lifetime risk of breast cancer. BRCA1 and BRCA2 are involved in DNA double-strand break repair, DNA alterations that can be caused by exposure to reactive oxygen species, a main source of which are mitochondria. Mitochondrial genome variations affect electron transport chain efficiency and reactive oxygen species production. Individuals with different mitochondrial haplogroups differ in their metabolism and sensitivity to oxidative stress. Variability in mitochondrial genetic background can alter reactive oxygen species production, leading to cancer risk. In the present study, we tested the hypothesis that mitochondrial haplogroups modify breast cancer risk in BRCA1/2 mutation carriers. Methods: We genotyped 22,214 (11,421 affected, 10,793 unaffected) mutation carriers belonging to the Consortium of Investigators of Modifiers of BRCA1/2 for 129 mitochondrial polymorphisms using the iCOGS array. Haplogroup inference and association detection were performed using a phylogenetic approach. ALTree was applied to explore the reference mitochondrial evolutionary tree and detect subclades enriched in affected or unaffected individuals. Results: We discovered that subclade T1a1 was depleted in affected BRCA2 mutation carriers compared with the rest of clade T (hazard ratio (HR) = 0.55; 95% confidence interval (CI), 0.34 to 0.88; P = 0.01). Compared with the most frequent haplogroup in the general population (that is, H and T clades), the T1a1 haplogroup has a HR of 0.62 (95% CI, 0.40 to 0.95; P = 0.03). We also identified three potential susceptibility loci, including G13708A/rs28359178, which has demonstrated an inverse association with familial breast cancer risk. Conclusions: This study illustrates how original approaches such as the phylogeny-based method we used can empower classical molecular epidemiological studies aimed at identifying association or risk modification effects.

Published
2015

2. Common breast cancer susceptibility alleles are associated with tumour subtypes in BRCA1 and BRCA2 mutation carriers: results from the Consortium of Investigators of Modifiers of BRCA1/2

Author

Mulligan, AM, Couch, FJ, Barrowdale, D, Domchek, SM, Eccles, D, Nevanlinna, H, Ramus, SJ, Robson, M, Sherman, M, Spurdle, AB, Wappenschmidt, B, Lee, A, McGuffog, L, Healey, S, Sinilnikova, OM, Janavicius, R, Hansen, TV, Nielsen, FC, Ejlertsen, B, Osorio, A, Muñoz-Repeto, I, Durán, M, Godino, J, Pertesi, M, Benítez, J, Peterlongo, P, Manoukian, S, Peissel, B, Zaffaroni, D, Cattaneo, E, Bonanni, B, Viel, A, Pasini, B, Papi, L, Ottini, L, Savarese, A, Bernard, L, Radice, P, Hamann, U, Verheus, M, Meijers-Heijboer, HEJ, Wijnen, J, Gómez García, EB, Nelen, MR, Kets, CM, Seynaeve, C, Tilanus-Linthorst, MMA, van der Luijt, RB, Os, TV, Rookus, M, Frost, D, Jones, JL, Evans, DG, Lalloo, F, Eeles, R, Izatt, L, Adlard, J, Davidson, R, Cook, J, Donaldson, A, Dorkins, H, Gregory, H, Eason, J, Houghton, C, Barwell, J, Side, LE, McCann, E, Murray, A, Peock, S, Godwin, AK, Schmutzler, RK, Rhiem, K, Engel, C, Meindl, A, Ruehl, I, Arnold, N, Niederacher, D, Sutter, C, Deissler, H, Gadzicki, D, Kast, K, Preisler-Adams, S, Varon-Mateeva, R, Schoenbuchner, I, Fiebig, B, Heinritz, W, Schäfer, D, Gevensleben, H, and Caux-Moncoutier, V

Abstract

Introduction: Previous studies have demonstrated that common breast cancer susceptibility alleles are differentially associated with breast cancer risk for BRCA1 and/or BRCA2 mutation carriers. It is currently unknown how these alleles are associated with different breast cancer subtypes in BRCA1 and BRCA2 mutation carriers defined by estrogen (ER) or progesterone receptor (PR) status of the tumour.Methods: We used genotype data on up to 11,421 BRCA1 and 7,080 BRCA2 carriers, of whom 4,310 had been affected with breast cancer and had information on either ER or PR status of the tumour, to assess the associations of 12 loci with breast cancer tumour characteristics. Associations were evaluated using a retrospective cohort approach.Results: The results suggested stronger associations with ER-positive breast cancer than ER-negative for 11 loci in both BRCA1 and BRCA2 carriers. Among BRCA1 carriers, single nucleotide polymorphism (SNP) rs2981582 (FGFR2) exhibited the biggest difference based on ER status (per-allele hazard ratio (HR) for ER-positive = 1.35, 95% CI: 1.17 to 1.56 vs HR = 0.91, 95% CI: 0.85 to 0.98 for ER-negative, P-heterogeneity = 6.5 × 10-6). In contrast, SNP rs2046210 at 6q25.1 near ESR1 was primarily associated with ER-negative breast cancer risk for both BRCA1 and BRCA2 carriers. In BRCA2 carriers, SNPs in FGFR2, TOX3, LSP1, SLC4A7/NEK10, 5p12, 2q35, and 1p11.2 were significantly associated with ER-positive but not ER-negative disease. Similar results were observed when differentiating breast cancer cases by PR status.Conclusions: The associations of the 12 SNPs with risk for BRCA1 and BRCA2 carriers differ by ER-positive or ER-negative breast cancer status. The apparent differences in SNP associations between BRCA1 and BRCA2 carriers, and non-carriers, may be explicable by differences in the prevalence of tumour subtypes. As more risk modifying variants are identified, incorporating these associations into breast cancer subtype-specific risk models may improve clinical management for mutation carriers. © 2011 Mulligan et al.; licensee BioMed Central Ltd.

Published
2011

3. Aggregation tests identify new gene associations with breast cancer in populations with diverse ancestry

Author

Mueller, SH, Lai, AG, Valkovskaya, M, Michailidou, K, Bolla, MK, Wang, Q, Dennis, J, Lush, M, Abu-Ful, Z, Ahearn, TU, Andrulis, IL, Anton-Culver, H, Antonenkova, NN, Arndt, V, Aronson, KJ, Augustinsson, A, Baert, T, Freeman, LEB, Beckmann, MW, Behrens, S, Benitez, J, Bermisheva, M, Blomqvist, C, Bogdanova, N, Bojesen, SE, Bonanni, B, Brenner, H, Brucker, SY, Buys, SS, Castelao, JE, Chan, TL, Chang-Claude, J, Chanock, SJ, Choi, J-Y, Chung, WK, Colonna, S, Cornelissen, S, Couch, FJ, Czene, K, Daly, MB, Devilee, P, Dork, T, Dossus, L, Dwek, M, Eccles, DM, Ekici, AB, Eliassen, AH, Engel, C, Evans, DG, Fasching, PA, Fletcher, O, Flyger, H, Gago-Dominguez, M, Gao, Y-T, Garcia-Closas, M, Garcia-Saenz, JA, Genkinger, J, Gentry-Maharaj, A, Grassmann, F, Guenel, P, Gundert, M, Haeberle, L, Hahnen, E, Haiman, CA, Hakansson, N, Hall, P, Harkness, EF, Harrington, PA, Hartikainen, JM, Hartman, M, Hein, A, Ho, W-K, Hooning, MJ, Hoppe, R, Hopper, JL, Houlston, RS, Howell, A, Hunter, DJ, Huo, D, Investigators, A, Ito, H, Iwasaki, M, Jakubowska, A, Janni, W, John, EM, Jones, ME, Jung, A, Kaaks, R, Kang, D, Khusnutdinova, EK, Kim, S-W, Kitahara, CM, Koutros, S, Kraft, P, Kristensen, VN, Kubelka-Sabit, K, Kurian, AW, Kwong, A, Lacey, J, Lambrechts, D, Le Marchand, L, Li, J, Linet, M, Lo, W-Y, Long, J, Lophatananon, A, Mannermaa, A, Manoochehri, M, Margolin, S, Matsuo, K, Mavroudis, D, Menon, U, Muir, K, Murphy, RA, Nevanlinna, H, Newman, WG, Niederacher, D, O'Brien, KM, Obi, N, Offit, K, Olopade, O, Olshan, AF, Olsson, H, Park, SK, Patel, A, Perou, CM, Peto, J, Pharoah, PDP, Plaseska-Karanfilska, D, Presneau, N, Rack, B, Radice, P, Ramachandran, D, Rashid, MU, Rennert, G, Romero, A, Ruddy, KJ, Ruebner, M, Saloustros, E, Sandler, DP, Sawyer, EJ, Schmidt, MK, Schmutzler, RK, Schneider, MO, Scott, C, Shah, M, Sharma, P, Shen, C-Y, Shu, X-O, Simard, J, Surowy, H, Tamimi, RM, Tapper, WJ, Taylor, JA, Teo, SH, Teras, LR, Toland, AE, Tollenaar, RAEM, Torres, D, Torres-Mejia, G, Troester, MA, Truong, T, Vachon, CM, Vijai, J, Weinberg, CR, Wendt, C, Winqvist, R, Wolk, A, Wu, AH, Yamaji, T, Yang, XR, Yu, J-C, Zheng, W, Ziogas, A, Ziv, E, Dunning, AM, Easton, DF, Hemingway, H, Hamann, U, Kuchenbaecker, KB, Mueller, SH, Lai, AG, Valkovskaya, M, Michailidou, K, Bolla, MK, Wang, Q, Dennis, J, Lush, M, Abu-Ful, Z, Ahearn, TU, Andrulis, IL, Anton-Culver, H, Antonenkova, NN, Arndt, V, Aronson, KJ, Augustinsson, A, Baert, T, Freeman, LEB, Beckmann, MW, Behrens, S, Benitez, J, Bermisheva, M, Blomqvist, C, Bogdanova, N, Bojesen, SE, Bonanni, B, Brenner, H, Brucker, SY, Buys, SS, Castelao, JE, Chan, TL, Chang-Claude, J, Chanock, SJ, Choi, J-Y, Chung, WK, Colonna, S, Cornelissen, S, Couch, FJ, Czene, K, Daly, MB, Devilee, P, Dork, T, Dossus, L, Dwek, M, Eccles, DM, Ekici, AB, Eliassen, AH, Engel, C, Evans, DG, Fasching, PA, Fletcher, O, Flyger, H, Gago-Dominguez, M, Gao, Y-T, Garcia-Closas, M, Garcia-Saenz, JA, Genkinger, J, Gentry-Maharaj, A, Grassmann, F, Guenel, P, Gundert, M, Haeberle, L, Hahnen, E, Haiman, CA, Hakansson, N, Hall, P, Harkness, EF, Harrington, PA, Hartikainen, JM, Hartman, M, Hein, A, Ho, W-K, Hooning, MJ, Hoppe, R, Hopper, JL, Houlston, RS, Howell, A, Hunter, DJ, Huo, D, Investigators, A, Ito, H, Iwasaki, M, Jakubowska, A, Janni, W, John, EM, Jones, ME, Jung, A, Kaaks, R, Kang, D, Khusnutdinova, EK, Kim, S-W, Kitahara, CM, Koutros, S, Kraft, P, Kristensen, VN, Kubelka-Sabit, K, Kurian, AW, Kwong, A, Lacey, J, Lambrechts, D, Le Marchand, L, Li, J, Linet, M, Lo, W-Y, Long, J, Lophatananon, A, Mannermaa, A, Manoochehri, M, Margolin, S, Matsuo, K, Mavroudis, D, Menon, U, Muir, K, Murphy, RA, Nevanlinna, H, Newman, WG, Niederacher, D, O'Brien, KM, Obi, N, Offit, K, Olopade, O, Olshan, AF, Olsson, H, Park, SK, Patel, A, Perou, CM, Peto, J, Pharoah, PDP, Plaseska-Karanfilska, D, Presneau, N, Rack, B, Radice, P, Ramachandran, D, Rashid, MU, Rennert, G, Romero, A, Ruddy, KJ, Ruebner, M, Saloustros, E, Sandler, DP, Sawyer, EJ, Schmidt, MK, Schmutzler, RK, Schneider, MO, Scott, C, Shah, M, Sharma, P, Shen, C-Y, Shu, X-O, Simard, J, Surowy, H, Tamimi, RM, Tapper, WJ, Taylor, JA, Teo, SH, Teras, LR, Toland, AE, Tollenaar, RAEM, Torres, D, Torres-Mejia, G, Troester, MA, Truong, T, Vachon, CM, Vijai, J, Weinberg, CR, Wendt, C, Winqvist, R, Wolk, A, Wu, AH, Yamaji, T, Yang, XR, Yu, J-C, Zheng, W, Ziogas, A, Ziv, E, Dunning, AM, Easton, DF, Hemingway, H, Hamann, U, and Kuchenbaecker, KB

Abstract

BACKGROUND: Low-frequency variants play an important role in breast cancer (BC) susceptibility. Gene-based methods can increase power by combining multiple variants in the same gene and help identify target genes. METHODS: We evaluated the potential of gene-based aggregation in the Breast Cancer Association Consortium cohorts including 83,471 cases and 59,199 controls. Low-frequency variants were aggregated for individual genes' coding and regulatory regions. Association results in European ancestry samples were compared to single-marker association results in the same cohort. Gene-based associations were also combined in meta-analysis across individuals with European, Asian, African, and Latin American and Hispanic ancestry. RESULTS: In European ancestry samples, 14 genes were significantly associated (q < 0.05) with BC. Of those, two genes, FMNL3 (P = 6.11 × 10-6) and AC058822.1 (P = 1.47 × 10-4), represent new associations. High FMNL3 expression has previously been linked to poor prognosis in several other cancers. Meta-analysis of samples with diverse ancestry discovered further associations including established candidate genes ESR1 and CBLB. Furthermore, literature review and database query found further support for a biologically plausible link with cancer for genes CBLB, FMNL3, FGFR2, LSP1, MAP3K1, and SRGAP2C. CONCLUSIONS: Using extended gene-based aggregation tests including coding and regulatory variation, we report identification of plausible target genes for previously identified single-marker associations with BC as well as the discovery of novel genes implicated in BC development. Including multi ancestral cohorts in this study enabled the identification of otherwise missed disease associations as ESR1 (P = 1.31 × 10-5), demonstrating the importance of diversifying study cohorts.

Published
2023

13. Breast and Prostate Cancer Risks for Male BRCA1 and BRCA2 Pathogenic Variant Carriers Using Polygenic Risk Scores

Author

Barnes, DR, Silvestri, V, Leslie, G, McGuffog, L, Dennis, J, Yang, X, Adlard, J, Agnarsson, BA, Ahmed, M, Aittomaki, K, Andrulis, IL, Arason, A, Arnold, N, Auber, B, Azzollini, J, Balmana, J, Barkardottir, RB, Barrowdale, D, Barwell, J, Belotti, M, Benitez, J, Berthet, P, Boonen, SE, Borg, A, Bozsik, A, Brady, AF, Brennan, P, Brewer, C, Brunet, J, Bucalo, A, Buys, SS, Caldes, T, Caligo, MA, Campbell, I, Cassingham, H, Christensen, LL, Cini, G, Claes, KBM, Cook, J, Coppa, A, Cortesi, L, Damante, G, Darder, E, Davidson, R, de la Hoya, M, De Leeneer, K, de Putter, R, Del Valle, J, Diez, O, Ding, YC, Domchek, SM, Donaldson, A, Eason, J, Eeles, R, Engel, C, Evans, DG, Feliubadalo, L, Fostira, F, Frone, M, Frost, D, Gallagher, D, Gehrig, A, Giraud, S, Glendon, G, Godwin, AK, Goldgar, DE, Greene, MH, Gregory, H, Gross, E, Hahnen, E, Hamann, U, Hansen, TVO, Hanson, H, Hentschel, J, Horvath, J, Izatt, L, Izquierdo, A, James, PA, Janavicius, R, Jensen, UB, Johannsson, OT, John, EM, Kramer, G, Kroeldrup, L, Kruse, TA, Lautrup, C, Lazaro, C, Lesueur, F, Lopez-Fernandez, A, Mai, PL, Manoukian, S, Matrai, Z, Matricardi, L, Maxwell, KN, Mebirouk, N, Meindl, A, Montagna, M, Monteiro, AN, Morrison, PJ, Muranen, TA, Murray, A, Nathanson, KL, Neuhausen, SL, Nevanlinna, H, Tu, N-D, Niederacher, D, Olah, E, Olopade, O, Palli, D, Parsons, MT, Pedersen, IS, Peissel, B, Perez-Segura, P, Peterlongo, P, Petersen, AH, Pinto, P, Porteous, ME, Pottinger, C, Pujana, MA, Radice, P, Ramser, J, Rantala, J, Robson, M, Rogers, MT, Ronlund, K, Rump, A, Sanchez de Abajo, AM, Shah, PD, Sharif, S, Side, LE, Singer, CF, Stadler, Z, Steele, L, Stoppa-Lyonnet, D, Sutter, C, Tan, YY, Teixeira, MR, Teule, A, Thull, DL, Tischkowitz, M, Toland, AE, Tommasi, S, Toss, A, Trainer, AH, Tripathi, V, Valentini, V, van Asperen, CJ, Venturelli, M, Viel, A, Vijai, J, Walker, L, Wang-Gohrke, S, Wappenschmidt, B, Whaite, A, Zanna, I, Offit, K, Thomassen, M, Couch, FJ, Schmutzler, RK, Simard, J, Easton, DF, Chenevix-Trench, G, Antoniou, AC, Ottini, L, Barnes, DR, Silvestri, V, Leslie, G, McGuffog, L, Dennis, J, Yang, X, Adlard, J, Agnarsson, BA, Ahmed, M, Aittomaki, K, Andrulis, IL, Arason, A, Arnold, N, Auber, B, Azzollini, J, Balmana, J, Barkardottir, RB, Barrowdale, D, Barwell, J, Belotti, M, Benitez, J, Berthet, P, Boonen, SE, Borg, A, Bozsik, A, Brady, AF, Brennan, P, Brewer, C, Brunet, J, Bucalo, A, Buys, SS, Caldes, T, Caligo, MA, Campbell, I, Cassingham, H, Christensen, LL, Cini, G, Claes, KBM, Cook, J, Coppa, A, Cortesi, L, Damante, G, Darder, E, Davidson, R, de la Hoya, M, De Leeneer, K, de Putter, R, Del Valle, J, Diez, O, Ding, YC, Domchek, SM, Donaldson, A, Eason, J, Eeles, R, Engel, C, Evans, DG, Feliubadalo, L, Fostira, F, Frone, M, Frost, D, Gallagher, D, Gehrig, A, Giraud, S, Glendon, G, Godwin, AK, Goldgar, DE, Greene, MH, Gregory, H, Gross, E, Hahnen, E, Hamann, U, Hansen, TVO, Hanson, H, Hentschel, J, Horvath, J, Izatt, L, Izquierdo, A, James, PA, Janavicius, R, Jensen, UB, Johannsson, OT, John, EM, Kramer, G, Kroeldrup, L, Kruse, TA, Lautrup, C, Lazaro, C, Lesueur, F, Lopez-Fernandez, A, Mai, PL, Manoukian, S, Matrai, Z, Matricardi, L, Maxwell, KN, Mebirouk, N, Meindl, A, Montagna, M, Monteiro, AN, Morrison, PJ, Muranen, TA, Murray, A, Nathanson, KL, Neuhausen, SL, Nevanlinna, H, Tu, N-D, Niederacher, D, Olah, E, Olopade, O, Palli, D, Parsons, MT, Pedersen, IS, Peissel, B, Perez-Segura, P, Peterlongo, P, Petersen, AH, Pinto, P, Porteous, ME, Pottinger, C, Pujana, MA, Radice, P, Ramser, J, Rantala, J, Robson, M, Rogers, MT, Ronlund, K, Rump, A, Sanchez de Abajo, AM, Shah, PD, Sharif, S, Side, LE, Singer, CF, Stadler, Z, Steele, L, Stoppa-Lyonnet, D, Sutter, C, Tan, YY, Teixeira, MR, Teule, A, Thull, DL, Tischkowitz, M, Toland, AE, Tommasi, S, Toss, A, Trainer, AH, Tripathi, V, Valentini, V, van Asperen, CJ, Venturelli, M, Viel, A, Vijai, J, Walker, L, Wang-Gohrke, S, Wappenschmidt, B, Whaite, A, Zanna, I, Offit, K, Thomassen, M, Couch, FJ, Schmutzler, RK, Simard, J, Easton, DF, Chenevix-Trench, G, Antoniou, AC, and Ottini, L

Abstract

BACKGROUND: Recent population-based female breast cancer and prostate cancer polygenic risk scores (PRS) have been developed. We assessed the associations of these PRS with breast and prostate cancer risks for male BRCA1 and BRCA2 pathogenic variant carriers. METHODS: 483 BRCA1 and 1318 BRCA2 European ancestry male carriers were available from the Consortium of Investigators of Modifiers of BRCA1/2 (CIMBA). A 147-single nucleotide polymorphism (SNP) prostate cancer PRS (PRSPC) and a 313-SNP breast cancer PRS were evaluated. There were 3 versions of the breast cancer PRS, optimized to predict overall (PRSBC), estrogen receptor (ER)-negative (PRSER-), or ER-positive (PRSER+) breast cancer risk. RESULTS: PRSER+ yielded the strongest association with breast cancer risk. The odds ratios (ORs) per PRSER+ standard deviation estimates were 1.40 (95% confidence interval [CI] =1.07 to 1.83) for BRCA1 and 1.33 (95% CI = 1.16 to 1.52) for BRCA2 carriers. PRSPC was associated with prostate cancer risk for BRCA1 (OR = 1.73, 95% CI = 1.28 to 2.33) and BRCA2 (OR = 1.60, 95% CI = 1.34 to 1.91) carriers. The estimated breast cancer odds ratios were larger after adjusting for female relative breast cancer family history. By age 85 years, for BRCA2 carriers, the breast cancer risk varied from 7.7% to 18.4% and prostate cancer risk from 34.1% to 87.6% between the 5th and 95th percentiles of the PRS distributions. CONCLUSIONS: Population-based prostate and female breast cancer PRS are associated with a wide range of absolute breast and prostate cancer risks for male BRCA1 and BRCA2 carriers. These findings warrant further investigation aimed at providing personalized cancer risks for male carriers and informing clinical management.

Published
2022

14. Cancer Risks Associated With BRCA1 and BRCA2 Pathogenic Variants

Author

Li, S, Silvestri, V, Leslie, G, Rebbeck, TR, Neuhausen, SL, Hopper, JL, Nielsen, HR, Lee, A, Yang, X, McGuffog, L, Parsons, MT, Andrulis, IL, Arnold, N, Belotti, M, Borg, A, Buecher, B, Buys, SS, Caputo, SM, Chung, WK, Colas, C, Colonna, S, Cook, J, Daly, MB, de la Hoya, M, de Pauw, A, Delhomelle, H, Eason, J, Engel, C, Evans, DG, Faust, U, Fehm, TN, Fostira, F, Fountzilas, G, Frone, M, Garcia-Barberan, V, Garre, P, Gauthier-Villars, M, Gehrig, A, Glendon, G, Goldgar, DE, Golmard, L, Greene, MH, Hahnen, E, Hamann, U, Hanson, H, Hassan, T, Hentschel, J, Horvath, J, Izatt, L, Janavicius, R, Jiao, Y, John, EM, Karlan, BY, Kim, S-W, Konstantopoulou, I, Kwong, A, Lauge, A, Lee, JW, Lesueur, F, Mebirouk, N, Meindl, A, Mouret-Fourme, E, Musgrave, H, Yie, JNY, Niederacher, D, Park, SK, Pedersen, IS, Ramser, J, Ramus, SJ, Rantala, J, Rashid, MU, Reichl, F, Ritter, J, Rump, A, Santamarina, M, Saule, C, Schmidt, G, Schmutzler, RK, Senter, L, Shariff, S, Singer, CF, Southey, MC, Stoppa-Lyonnet, D, Sutter, C, Tan, Y, Teo, SH, Terry, MB, Thomassen, M, Tischkowitz, M, Toland, AE, Torres, D, Vega, A, Wagner, SA, Wang-Gohrke, S, Wappenschmidt, B, Weber, BHF, Yannoukakos, D, Spurdle, AB, Easton, DF, Chenevix-Trench, G, Ottini, L, Antoniou, AC, Li, S, Silvestri, V, Leslie, G, Rebbeck, TR, Neuhausen, SL, Hopper, JL, Nielsen, HR, Lee, A, Yang, X, McGuffog, L, Parsons, MT, Andrulis, IL, Arnold, N, Belotti, M, Borg, A, Buecher, B, Buys, SS, Caputo, SM, Chung, WK, Colas, C, Colonna, S, Cook, J, Daly, MB, de la Hoya, M, de Pauw, A, Delhomelle, H, Eason, J, Engel, C, Evans, DG, Faust, U, Fehm, TN, Fostira, F, Fountzilas, G, Frone, M, Garcia-Barberan, V, Garre, P, Gauthier-Villars, M, Gehrig, A, Glendon, G, Goldgar, DE, Golmard, L, Greene, MH, Hahnen, E, Hamann, U, Hanson, H, Hassan, T, Hentschel, J, Horvath, J, Izatt, L, Janavicius, R, Jiao, Y, John, EM, Karlan, BY, Kim, S-W, Konstantopoulou, I, Kwong, A, Lauge, A, Lee, JW, Lesueur, F, Mebirouk, N, Meindl, A, Mouret-Fourme, E, Musgrave, H, Yie, JNY, Niederacher, D, Park, SK, Pedersen, IS, Ramser, J, Ramus, SJ, Rantala, J, Rashid, MU, Reichl, F, Ritter, J, Rump, A, Santamarina, M, Saule, C, Schmidt, G, Schmutzler, RK, Senter, L, Shariff, S, Singer, CF, Southey, MC, Stoppa-Lyonnet, D, Sutter, C, Tan, Y, Teo, SH, Terry, MB, Thomassen, M, Tischkowitz, M, Toland, AE, Torres, D, Vega, A, Wagner, SA, Wang-Gohrke, S, Wappenschmidt, B, Weber, BHF, Yannoukakos, D, Spurdle, AB, Easton, DF, Chenevix-Trench, G, Ottini, L, and Antoniou, AC

Abstract

PURPOSE: To provide precise age-specific risk estimates of cancers other than female breast and ovarian cancers associated with pathogenic variants (PVs) in BRCA1 and BRCA2 for effective cancer risk management. METHODS: We used data from 3,184 BRCA1 and 2,157 BRCA2 families in the Consortium of Investigators of Modifiers of BRCA1/2 to estimate age-specific relative (RR) and absolute risks for 22 first primary cancer types adjusting for family ascertainment. RESULTS: BRCA1 PVs were associated with risks of male breast (RR = 4.30; 95% CI, 1.09 to 16.96), pancreatic (RR = 2.36; 95% CI, 1.51 to 3.68), and stomach (RR = 2.17; 95% CI, 1.25 to 3.77) cancers. Associations with colorectal and gallbladder cancers were also suggested. BRCA2 PVs were associated with risks of male breast (RR = 44.0; 95% CI, 21.3 to 90.9), stomach (RR = 3.69; 95% CI, 2.40 to 5.67), pancreatic (RR = 3.34; 95% CI, 2.21 to 5.06), and prostate (RR = 2.22; 95% CI, 1.63 to 3.03) cancers. The stomach cancer RR was higher for females than males (6.89 v 2.76; P = .04). The absolute risks to age 80 years ranged from 0.4% for male breast cancer to approximately 2.5% for pancreatic cancer for BRCA1 carriers and from approximately 2.5% for pancreatic cancer to 27% for prostate cancer for BRCA2 carriers. CONCLUSION: In addition to female breast and ovarian cancers, BRCA1 and BRCA2 PVs are associated with increased risks of male breast, pancreatic, stomach, and prostate (only BRCA2 PVs) cancers, but not with the risks of other previously suggested cancers. The estimated age-specific risks will refine cancer risk management in men and women with BRCA1/2 PVs.

Published
2022

15. Uncovering the Contribution of Moderate-Penetrance Susceptibility Genes to Breast Cancer by Whole-Exome Sequencing and Targeted Enrichment Sequencing of Candidate Genes in Women of European Ancestry.

Author

Dumont, M, Weber-Lassalle, N, Joly-Beauparlant, C, Ernst, C, Droit, A, Feng, B-J, Dubois, S, Collin-Deschesnes, A-C, Soucy, P, Vallée, M, Fournier, F, Lemaçon, A, Adank, MA, Allen, J, Altmüller, J, Arnold, N, Ausems, MGEM, Berutti, R, Bolla, MK, Bull, S, Carvalho, S, Cornelissen, S, Dufault, MR, Dunning, AM, Engel, C, Gehrig, A, Geurts-Giele, WRR, Gieger, C, Green, J, Hackmann, K, Helmy, M, Hentschel, J, Hogervorst, FBL, Hollestelle, A, Hooning, MJ, Horváth, J, Ikram, MA, Kaulfuß, S, Keeman, R, Kuang, D, Luccarini, C, Maier, W, Martens, JWM, Niederacher, D, Nürnberg, P, Ott, C-E, Peters, A, Pharoah, PDP, Ramirez, A, Ramser, J, Riedel-Heller, S, Schmidt, G, Shah, M, Scherer, M, Stäbler, A, Strom, TM, Sutter, C, Thiele, H, van Asperen, CJ, van der Kolk, L, van der Luijt, RB, Volk, AE, Wagner, M, Waisfisz, Q, Wang, Q, Wang-Gohrke, S, Weber, BHF, Genome Of The Netherlands Project, Ghs Study Group, Devilee, P, Tavtigian, S, Bader, GD, Meindl, A, Goldgar, DE, Andrulis, IL, Schmutzler, RK, Easton, DF, Schmidt, MK, Hahnen, E, Simard, J, Dumont, M, Weber-Lassalle, N, Joly-Beauparlant, C, Ernst, C, Droit, A, Feng, B-J, Dubois, S, Collin-Deschesnes, A-C, Soucy, P, Vallée, M, Fournier, F, Lemaçon, A, Adank, MA, Allen, J, Altmüller, J, Arnold, N, Ausems, MGEM, Berutti, R, Bolla, MK, Bull, S, Carvalho, S, Cornelissen, S, Dufault, MR, Dunning, AM, Engel, C, Gehrig, A, Geurts-Giele, WRR, Gieger, C, Green, J, Hackmann, K, Helmy, M, Hentschel, J, Hogervorst, FBL, Hollestelle, A, Hooning, MJ, Horváth, J, Ikram, MA, Kaulfuß, S, Keeman, R, Kuang, D, Luccarini, C, Maier, W, Martens, JWM, Niederacher, D, Nürnberg, P, Ott, C-E, Peters, A, Pharoah, PDP, Ramirez, A, Ramser, J, Riedel-Heller, S, Schmidt, G, Shah, M, Scherer, M, Stäbler, A, Strom, TM, Sutter, C, Thiele, H, van Asperen, CJ, van der Kolk, L, van der Luijt, RB, Volk, AE, Wagner, M, Waisfisz, Q, Wang, Q, Wang-Gohrke, S, Weber, BHF, Genome Of The Netherlands Project, Ghs Study Group, Devilee, P, Tavtigian, S, Bader, GD, Meindl, A, Goldgar, DE, Andrulis, IL, Schmutzler, RK, Easton, DF, Schmidt, MK, Hahnen, E, and Simard, J

Abstract

Rare variants in at least 10 genes, including BRCA1, BRCA2, PALB2, ATM, and CHEK2, are associated with increased risk of breast cancer; however, these variants, in combination with common variants identified through genome-wide association studies, explain only a fraction of the familial aggregation of the disease. To identify further susceptibility genes, we performed a two-stage whole-exome sequencing study. In the discovery stage, samples from 1528 breast cancer cases enriched for breast cancer susceptibility and 3733 geographically matched unaffected controls were sequenced. Using five different filtering and gene prioritization strategies, 198 genes were selected for further validation. These genes, and a panel of 32 known or suspected breast cancer susceptibility genes, were assessed in a validation set of 6211 cases and 6019 controls for their association with risk of breast cancer overall, and by estrogen receptor (ER) disease subtypes, using gene burden tests applied to loss-of-function and rare missense variants. Twenty genes showed nominal evidence of association (p-value < 0.05) with either overall or subtype-specific breast cancer. Our study had the statistical power to detect susceptibility genes with effect sizes similar to ATM, CHEK2, and PALB2, however, it was underpowered to identify genes in which susceptibility variants are rarer or confer smaller effect sizes. Larger sample sizes would be required in order to identify such genes.

Published
2022

16. Risikoberatung, Prävention und Früherkennung

Author

Beckmann, M. W., Kuschel, B., Betz, B., Niederacher, D., Kaufmann, M., Scharl, A., Schulz, K.-D., Bock, K., Duda, V., Schnürch, H.-G., Berg, Dietrich, editor, Diedrich, Klaus, editor, and Rauskolb, Rüdiger, editor

Published
2000
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21. Analyzing high blood volumes for CTCs via DLA significantly improves detection and identifies pancreatic ductal adenocarcinoma patients with poor prognosis

Author

Fluegen, G, additional, Guglielmi, R, additional, van Dalum, G, additional, Franken, A, additional, Prokein, F, additional, Driemel, C, additional, Neubauer, H, additional, Niederacher, D, additional, Fehm, T, additional, Knoefel, WT, additional, Fischer, JC, additional, and Stoecklein, NH, additional

Published
2021
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22. Height and Body Mass Index as Modifiers of Breast Cancer Risk in BRCA1/2 Mutation Carriers: A Mendelian Randomization Study

Author

Qian, F., Wang, S.F., Mitchell, J., McGuffog, L., Barrowdale, D., Leslie, G., Oosterwijk, J.C., Chung, W.K., Evans, D.G., Engel, C., Kast, K., Aalfs, C.M., Adank, M.A., Adlard, J., Agnarsson, B.A., Aittomaki, K., Alducci, E., Andrulis, I.L., Arun, B.K., Ausems, M.G.E.M., Azzollini, J., Barouk-Simonet, E., Barwell, J., Belotti, M., Benitez, J., Berger, A., Borg, A., Bradbury, A.R., Brunet, J., Buys, S.S., Caldes, T., Caligo, M.A., Campbell, I., Caputo, S.M., Chiquette, J., Claes, K.B.M., Collee, J.M., Couch, F.J., Coupier, I., Daly, M.B., Davidson, R., Diez, O., Domchek, S.M., Donaldson, A., Dorfling, C.M., Eeles, R., Feliubadalo, L., Foretova, L., Fowler, J., Friedman, E., Frost, D., Ganz, P.A., Garber, J., Garcia-Barberan, V., Glendon, G., Godwin, A.K., Garcia, E.B.G., Gronwald, J., Hahnen, E., Hamann, U., Henderson, A., Hendricks, C.B., Hopper, J.L., Hulick, P.J., Imyanitov, E.N., Isaacs, C., Izatt, L., Izquierdo, A., Jakubowska, A., Kaczmarek, K., Kang, E., Karlan, B.Y., Kets, C.M., Kim, S.W., Kim, Z., Kwong, A., Laitman, Y., Lasset, C., Lee, M.H., Lee, J.W., Lee, J., Lester, J., Lesueur, F., Loud, J.T., Lubinski, J., Mebirouk, N., Meijers-Heijboer, H.E.J., Meindl, A., Miller, A., Montagna, M., Mooij, T.M., Morrison, P.J., Mouret-Fourme, E., Nathanson, K.L., Neuhausen, S.L., Nevanlinna, H., Niederacher, D., Nielsen, F.C., Nussbaum, R.L., Offit, K., Olah, E., Ong, K.R., Ottini, L., Park, S.K., Peterlongo, P., Pfeiler, G., Phelan, C.M., Poppe, B., Pradhan, N., Radice, P., Ramus, S.J., Rantala, J., Robson, M., Rodriguez, G.C., Schmutzler, R.K., Selkirk, C.G.H., Shah, P.D., Simard, J., Singer, C.F., Sokolowska, J., Stoppa-Lyonnet, D., Sutter, C., Tan, Y.Y., Teixeira, M.R., Teo, S.H., Terry, M.B., Thomassen, M., Tischkowitz, M., Toland, A.E., Tucker, K.M., Tung, N., Asperen, C.J. van, Engelen, K. van, Rensburg, E.J. van, Wang-Gohrke, S., Wappenschmidt, B., Weitzel, J.N., Yannoukakos, D., Greene, M.H., Rookus, M.A., Easton, D.F., Chenevix-Trench, G., Antoniou, A.C., Goldgar, D.E., Olopade, O.I., Rebbeck, T.R., Huo, D.Z., GEMO Study Collaborators, HEBON, EMBRACE, Clinical Genetics, Damage and Repair in Cancer Development and Cancer Treatment (DARE), Targeted Gynaecologic Oncology (TARGON), Leslie, Goska [0000-0001-5756-6222], Tischkowitz, Marc [0000-0002-7880-0628], Easton, Douglas [0000-0003-2444-3247], Antoniou, Antonis [0000-0001-9223-3116], Apollo - University of Cambridge Repository, Klinische Genetica, MUMC+: DA KG Polikliniek (9), RS: GROW - R4 - Reproductive and Perinatal Medicine, Human Genetics, ARD - Amsterdam Reproduction and Development, Epidemiology and Data Science, Human genetics, CCA - Cancer biology and immunology, Amsterdam Neuroscience - Complex Trait Genetics, and Amsterdam Reproduction & Development (AR&D)

Subjects
Oncology, Cancer Research, LOCI, Disease, DISEASE, Body Mass Index, breast cancer risk, 0302 clinical medicine, Risk Factors, GENETIC-VARIANTS, EPIDEMIOLOGY, skin and connective tissue diseases, 2. Zero hunger, BRCA1 Protein, Articles, Prognosis, INSULIN, 3. Good health, Women's cancers Radboud Institute for Health Sciences [Radboudumc 17], FAMILY, 030220 oncology & carcinogenesis, OBESITY, BIOLOGICAL PATHWAYS, Female, Risk assessment, Adult, medicine.medical_specialty, Breast Neoplasms, Polymorphism, Single Nucleotide, EMBRACE, GEMO Study Collaborators, BMI, 03 medical and health sciences, Breast cancer, SDG 3 - Good Health and Well-being, BRCA1/2, Internal medicine, Mendelian randomization, medicine, Journal Article, Humans, Genetic Predisposition to Disease, HEBON, BRCA2 Protein, IDENTIFICATION, Proportional hazards model, business.industry, Mendelian Randomization Analysis, medicine.disease, Obesity, Confidence interval, Body Height, Mutation, WEIGHT, business, Body mass index
Abstract

Contains fulltext : 206539.pdf (Publisher’s version ) (Closed access) BACKGROUND: BRCA1/2 mutations confer high lifetime risk of breast cancer, although other factors may modify this risk. Whether height or body mass index (BMI) modifies breast cancer risk in BRCA1/2 mutation carriers remains unclear. METHODS: We used Mendelian randomization approaches to evaluate the association of height and BMI on breast cancer risk, using data from the Consortium of Investigators of Modifiers of BRCA1/2 with 14 676 BRCA1 and 7912 BRCA2 mutation carriers, including 11 451 cases of breast cancer. We created a height genetic score using 586 height-associated variants and a BMI genetic score using 93 BMI-associated variants. We examined both observed and genetically determined height and BMI with breast cancer risk using weighted Cox models. All statistical tests were two-sided. RESULTS: Observed height was positively associated with breast cancer risk (HR = 1.09 per 10 cm increase, 95% confidence interval [CI] = 1.0 to 1.17; P = 1.17). Height genetic score was positively associated with breast cancer, although this was not statistically significant (per 10 cm increase in genetically predicted height, HR = 1.04, 95% CI = 0.93 to 1.17; P = .47). Observed BMI was inversely associated with breast cancer risk (per 5 kg/m2 increase, HR = 0.94, 95% CI = 0.90 to 0.98; P = .007). BMI genetic score was also inversely associated with breast cancer risk (per 5 kg/m2 increase in genetically predicted BMI, HR = 0.87, 95% CI = 0.76 to 0.98; P = .02). BMI was primarily associated with premenopausal breast cancer. CONCLUSION: Height is associated with overall breast cancer and BMI is associated with premenopausal breast cancer in BRCA1/2 mutation carriers. Incorporating height and BMI, particularly genetic score, into risk assessment may improve cancer management.

Published
2019

23. ViBiBa: Virtual BioBanking for the DETECT multicenter trial program - decentralized storage and processing

Author

Asperger, H., primary, Cieslik, J.-P., additional, Alberter, B., additional, Köstler, C., additional, Polzer, B., additional, Müller, V., additional, Pantel, K., additional, Riethdorf, S., additional, Koch, A., additional, Hartkopf, A., additional, Wiesmüller, L., additional, Janni, W., additional, Schochter, F., additional, Franken, A., additional, Niederacher, D., additional, Fehm, T., additional, and Neubauer, H., additional

Published
2021
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29. Polygenic risk scores and breast and epithelial ovarian cancer risks for carriers of BRCA1 and BRCA2 pathogenic variants.

Author

Gesta P., Mulligan A.M., Nathanson K.L., Neuhausen S.L., Nevanlinna H., Niederacher D., Nielsen F.C., Nikitina-Zake L., Nogues C., Olah E., Olopade O.I., Ong K.-R., O'Shaughnessy-Kirwan A., Osorio A., Ott C.-E., Papi L., Park S.K., Parsons M.T., Pedersen I.S., Peissel B., Peixoto A., Peterlongo P., Pfeiler G., Phillips K.-A., Prajzendanc K., Pujana M.A., Radice P., Ramser J., Ramus S.J., Rantala J., Rennert G., Risch H.A., Robson M., Ronlund K., Salani R., Schuster H., Senter L., Shah P.D., Sharma P., Side L.E., Singer C.F., Slavin T.P., Soucy P., Southey M.C., Spurdle A.B., Steinemann D., Steinsnyder Z., Stoppa-Lyonnet D., Sutter C., Tan Y.Y., Teixeira M.R., Teo S.H., Thull D.L., Tischkowitz M., Tognazzo S., Toland A.E., Trainer A.H., Tung N., van Engelen K., van Rensburg E.J., Vega A., Vierstraete J., Wagner G., Walker L., Wang-Gohrke S., Wappenschmidt B., Weitzel J.N., Yadav S., Yang X., Yannoukakos D., Zimbalatti D., Offit K., Thomassen M., Couch F.J., Schmutzler R.K., Simard J., Easton D.F., Antoniou A.C., GEMO Study Collaborators, EMBRACE Collaborators, kConFab Investigators, HEBON Investigators, GENEPSO Investigators, Barnes D.R., Rookus M.A., McGuffog L., Leslie G., Mooij T.M., Dennis J., Mavaddat N., Aittomaki K., Andrulis I.L., Arnold N., Arun B.K., Azzollini J., Balmana J., Barkardottir R.B., Benitez J., Bialkowska K., Blanco A.M., Blok M.J., Bonanni B., Boonen S.E., Borg A., Bozsik A., Bradbury A.R., Brunet J., Buys S.S., Caldes T., Caligo M.A., Campbell I., Christensen L.L., Chung W.K., Claes K.B.M., Berthet P., Colas C., Adlard J., Ahmed M., Antoniou A., Barrowdale D., Brennan P., Brewer C., Easton D., Evans D.G., Side L., Collonge-Rame M.-A., Cook J., Daly M.B., Davidson R., de la Hoya M., de Putter R., Delnatte C., Diez O., Ding Y.C., Domchek S.M., Dorfling C.M., Dumont M., Eeles R., Ejlertsen B., Engel C., Faivre L., Foretova L., Fostira F., Friedlander M., Friedman E., Frost D., Ganz P.A., Garber J., Gehrig A., Gerdes A.-M., Giraud S., Glendon G., Godwin A.K., Goldgar D.E., Gonzalez-Neira A., Greene M.H., Gschwantler-Kaulich D., Hahnen E., Hamann U., Hanson H., Hentschel J., Hogervorst F.B.L., Hooning M.J., Horvath J., Hu C., Hulick P.J., Imyanitov E.N., Chenevix-Trench G., Spurdle A., Blok M., Devilee P., Hogervorst F., Hooning M., Mensenkamp A., Meijers-Heijboer H., Rookus M., Engelen K., Andrieu N., Isaacs C., Izatt L., Izquierdo A., Jakubowska A., James P.A., Janavicius R., John E.M., Joseph V., Karlan B.Y., Kast K., Koudijs M., Kruse T.A., Kwong A., Laitman Y., Lasset C., Lazaro C., Lester J., Lesueur F., Liljegren A., Loud J.T., Lubinski J., Mai P.L., Manoukian S., Mari V., Mebirouk N., Meijers-Heijboer H.E.J., Meindl A., Mensenkamp A.R., Miller A., Montagna M., Mouret-Fourme E., Mukherjee S., Gesta P., Mulligan A.M., Nathanson K.L., Neuhausen S.L., Nevanlinna H., Niederacher D., Nielsen F.C., Nikitina-Zake L., Nogues C., Olah E., Olopade O.I., Ong K.-R., O'Shaughnessy-Kirwan A., Osorio A., Ott C.-E., Papi L., Park S.K., Parsons M.T., Pedersen I.S., Peissel B., Peixoto A., Peterlongo P., Pfeiler G., Phillips K.-A., Prajzendanc K., Pujana M.A., Radice P., Ramser J., Ramus S.J., Rantala J., Rennert G., Risch H.A., Robson M., Ronlund K., Salani R., Schuster H., Senter L., Shah P.D., Sharma P., Side L.E., Singer C.F., Slavin T.P., Soucy P., Southey M.C., Spurdle A.B., Steinemann D., Steinsnyder Z., Stoppa-Lyonnet D., Sutter C., Tan Y.Y., Teixeira M.R., Teo S.H., Thull D.L., Tischkowitz M., Tognazzo S., Toland A.E., Trainer A.H., Tung N., van Engelen K., van Rensburg E.J., Vega A., Vierstraete J., Wagner G., Walker L., Wang-Gohrke S., Wappenschmidt B., Weitzel J.N., Yadav S., Yang X., Yannoukakos D., Zimbalatti D., Offit K., Thomassen M., Couch F.J., Schmutzler R.K., Simard J., Easton D.F., Antoniou A.C., GEMO Study Collaborators, EMBRACE Collaborators, kConFab Investigators, HEBON Investigators, GENEPSO Investigators, Barnes D.R., Rookus M.A., McGuffog L., Leslie G., Mooij T.M., Dennis J., Mavaddat N., Aittomaki K., Andrulis I.L., Arnold N., Arun B.K., Azzollini J., Balmana J., Barkardottir R.B., Benitez J., Bialkowska K., Blanco A.M., Blok M.J., Bonanni B., Boonen S.E., Borg A., Bozsik A., Bradbury A.R., Brunet J., Buys S.S., Caldes T., Caligo M.A., Campbell I., Christensen L.L., Chung W.K., Claes K.B.M., Berthet P., Colas C., Adlard J., Ahmed M., Antoniou A., Barrowdale D., Brennan P., Brewer C., Easton D., Evans D.G., Side L., Collonge-Rame M.-A., Cook J., Daly M.B., Davidson R., de la Hoya M., de Putter R., Delnatte C., Diez O., Ding Y.C., Domchek S.M., Dorfling C.M., Dumont M., Eeles R., Ejlertsen B., Engel C., Faivre L., Foretova L., Fostira F., Friedlander M., Friedman E., Frost D., Ganz P.A., Garber J., Gehrig A., Gerdes A.-M., Giraud S., Glendon G., Godwin A.K., Goldgar D.E., Gonzalez-Neira A., Greene M.H., Gschwantler-Kaulich D., Hahnen E., Hamann U., Hanson H., Hentschel J., Hogervorst F.B.L., Hooning M.J., Horvath J., Hu C., Hulick P.J., Imyanitov E.N., Chenevix-Trench G., Spurdle A., Blok M., Devilee P., Hogervorst F., Hooning M., Mensenkamp A., Meijers-Heijboer H., Rookus M., Engelen K., Andrieu N., Isaacs C., Izatt L., Izquierdo A., Jakubowska A., James P.A., Janavicius R., John E.M., Joseph V., Karlan B.Y., Kast K., Koudijs M., Kruse T.A., Kwong A., Laitman Y., Lasset C., Lazaro C., Lester J., Lesueur F., Liljegren A., Loud J.T., Lubinski J., Mai P.L., Manoukian S., Mari V., Mebirouk N., Meijers-Heijboer H.E.J., Meindl A., Mensenkamp A.R., Miller A., Montagna M., Mouret-Fourme E., and Mukherjee S.

Abstract

Purpose: We assessed the associations between population-based polygenic risk scores (PRS) for breast (BC) or epithelial ovarian cancer (EOC) with cancer risks for BRCA1 and BRCA2 pathogenic variant carriers. Method(s): Retrospective cohort data on 18,935 BRCA1 and 12,339 BRCA2 female pathogenic variant carriers of European ancestry were available. Three versions of a 313 single-nucleotide polymorphism (SNP) BC PRS were evaluated based on whether they predict overall, estrogen receptor (ER)-negative, or ER-positive BC, and two PRS for overall or high-grade serous EOC. Associations were validated in a prospective cohort. Result(s): The ER-negative PRS showed the strongest association with BC risk for BRCA1 carriers (hazard ratio [HR] per standard deviation = 1.29 [95% CI 1.25-1.33], P = 3x10-72). For BRCA2, the strongest association was with overall BC PRS (HR = 1.31 [95% CI 1.27-1.36], P = 7x10-50). HR estimates decreased significantly with age and there was evidence for differences in associations by predicted variant effects on protein expression. The HR estimates were smaller than general population estimates. The high-grade serous PRS yielded the strongest associations with EOC risk for BRCA1 (HR = 1.32 [95% CI 1.25-1.40], P = 3x10-22) and BRCA2 (HR = 1.44 [95% CI 1.30-1.60], P = 4x10-12) carriers. The associations in the prospective cohort were similar. Conclusion(s): Population-based PRS are strongly associated with BC and EOC risks for BRCA1/2 carriers and predict substantial absolute risk differences for women at PRS distribution extremes.Copyright © 2020, The Author(s).

Published
2021

30. Breast and Prostate Cancer Risks for Male BRCA1 and BRCA2 Pathogenic Variant Carriers Using Polygenic Risk Scores.

Author

Barnes D.R., Silvestri V., Leslie G., McGuffog L., Dennis J., Yang X., Adlard J., Agnarsson B.A., Ahmed M., Aittomaki K., Andrulis I.L., Arason A., Arnold N., Auber B., Azzollini J., Balmana J., Barkardottir R.B., Barrowdale D., Barwell J., Belotti M., Benitez J., Berthet P., Boonen S.E., Borg A., Bozsik A., Brady A., Brennan P., Brewer C., Brunet J., Bucalo A., Buys S.S., Caldes T., Caligo M.A., Campbell I., Cassingham H., Lotte Christensen L., Cini G., Claes K.B.M., Cook J., Coppa A., Cortesi L., Damante G., Darder E., Davidson R., de la Hoya M., De Leeneer K., de Putter R., Del Valle J., Diez O., Chun Ding Y., Domchek S.M., Donaldson A., Eason J., Eeles R., Engel C., Gareth Evans D., Feliubadalo L., Fostira F., Frone M., Frost D., Gallagher D., Gehrig A., Giraud S., Glendon G., Godwin A.K., Goldgar D.E., Greene M.H., Gregory H., Gross E., Hahnen E., Hamann U., Hansen T.V.O., Hanson H., Hentschel J., Horvath J., Izatt L., Izquierdo A., James P.A., Janavicius R., Birk Jensen U., Johannsson O.T., John E.M., Kramer G., Kroeldrup L., Kruse T.A., Lautrup C., Lazaro C., Lesueur F., Lopez-Fernandez A., Mai P.L., Manoukian S., Matrai Z., Matricardi L., Maxwell K.N., Mebirouk N., Meindl A., Montagna M., Monteiro A.N., Morrison P.J., Muranen T.A., Murray A., Nathanson K.L., Neuhausen S.L., Nevanlinna H., Nguyen-Dumont T., Niederacher D., Olah E., Olopade O.I., Palli D., Parsons M.T., Sokilde Pedersen I., Peissel B., Perez-Segura P., Peterlongo P., Petersen A.H., Pinto P., Porteous M.E., Pottinger C., Angel Pujana M., Radice P., Ramser J., Rantala J., Robson M., Rogers M.T., Ronlund K., Rump A., Maria Sanchez de Abajo A., Shah P.D., Sharif S., Side L.E., Singer C.F., Stadler Z., Steele L., Stoppa-Lyonnet D., Sutter C., Yen Tan Y., Teixeira M.R., Teule A., Thull D.L., Tischkowitz M., Toland A.E., Tommasi S., Toss A., Trainer A.H., Tripathi V., Valentini V., van Asperen C.J., Venturelli M., Viel A., Vijai J., Walker L., Wang-Gohrke S., Wappenschmidt B., Whaite A., Zanna I., Offit K., Thomassen M., Couch F.J., Schmutzler R.K., Simard J., Easton D.F., Chenevix-Trench G., Antoniou A.C., Ottini L., Barnes D.R., Silvestri V., Leslie G., McGuffog L., Dennis J., Yang X., Adlard J., Agnarsson B.A., Ahmed M., Aittomaki K., Andrulis I.L., Arason A., Arnold N., Auber B., Azzollini J., Balmana J., Barkardottir R.B., Barrowdale D., Barwell J., Belotti M., Benitez J., Berthet P., Boonen S.E., Borg A., Bozsik A., Brady A., Brennan P., Brewer C., Brunet J., Bucalo A., Buys S.S., Caldes T., Caligo M.A., Campbell I., Cassingham H., Lotte Christensen L., Cini G., Claes K.B.M., Cook J., Coppa A., Cortesi L., Damante G., Darder E., Davidson R., de la Hoya M., De Leeneer K., de Putter R., Del Valle J., Diez O., Chun Ding Y., Domchek S.M., Donaldson A., Eason J., Eeles R., Engel C., Gareth Evans D., Feliubadalo L., Fostira F., Frone M., Frost D., Gallagher D., Gehrig A., Giraud S., Glendon G., Godwin A.K., Goldgar D.E., Greene M.H., Gregory H., Gross E., Hahnen E., Hamann U., Hansen T.V.O., Hanson H., Hentschel J., Horvath J., Izatt L., Izquierdo A., James P.A., Janavicius R., Birk Jensen U., Johannsson O.T., John E.M., Kramer G., Kroeldrup L., Kruse T.A., Lautrup C., Lazaro C., Lesueur F., Lopez-Fernandez A., Mai P.L., Manoukian S., Matrai Z., Matricardi L., Maxwell K.N., Mebirouk N., Meindl A., Montagna M., Monteiro A.N., Morrison P.J., Muranen T.A., Murray A., Nathanson K.L., Neuhausen S.L., Nevanlinna H., Nguyen-Dumont T., Niederacher D., Olah E., Olopade O.I., Palli D., Parsons M.T., Sokilde Pedersen I., Peissel B., Perez-Segura P., Peterlongo P., Petersen A.H., Pinto P., Porteous M.E., Pottinger C., Angel Pujana M., Radice P., Ramser J., Rantala J., Robson M., Rogers M.T., Ronlund K., Rump A., Maria Sanchez de Abajo A., Shah P.D., Sharif S., Side L.E., Singer C.F., Stadler Z., Steele L., Stoppa-Lyonnet D., Sutter C., Yen Tan Y., Teixeira M.R., Teule A., Thull D.L., Tischkowitz M., Toland A.E., Tommasi S., Toss A., Trainer A.H., Tripathi V., Valentini V., van Asperen C.J., Venturelli M., Viel A., Vijai J., Walker L., Wang-Gohrke S., Wappenschmidt B., Whaite A., Zanna I., Offit K., Thomassen M., Couch F.J., Schmutzler R.K., Simard J., Easton D.F., Chenevix-Trench G., Antoniou A.C., and Ottini L.

Abstract

BACKGROUND: Recent population-based female breast cancer and prostate cancer polygenic risk scores (PRS) have been developed. We assessed the associations of these PRS with breast and prostate cancer risks for male BRCA1 and BRCA2 pathogenic variant carriers. METHOD(S): 483 BRCA1 and 1,318 BRCA2 European ancestry male carriers were available from the Consortium of Investigators of Modifiers of BRCA1/2 (CIMBA). A 147-single nucleotide polymorphism (SNP) prostate cancer PRS (PRSPC) and a 313-SNP breast cancer PRS were evaluated. There were three versions of the breast cancer PRS, optimized to predict overall (PRSBC), estrogen-receptor (ER) negative (PRSER-) or ER-positive (PRSER+) breast cancer risk. RESULT(S): PRSER+ yielded the strongest association with breast cancer risk. The odds ratios (ORs) per PRSER+ standard deviation estimates were 1.40 (95% confidence interval [CI] =1.07-1.83) for BRCA1 and 1.33 (95% CI=1.16-1.52) for BRCA2 carriers. PRSPC was associated with prostate cancer risk for both BRCA1 (OR=1.73, 95% CI=1.28-2.33) and BRCA2 (OR=1.60, 95% CI=1.34-1.91) carriers. The estimated breast cancer ORs were larger after adjusting for female relative breast cancer family history. By age 85years, for BRCA2 carriers, the breast cancer risk varied from 7.7% to 18.4% and prostate cancer risk from 34.1% to 87.6% between the 5th and 95th percentiles of the PRS distributions. CONCLUSION(S): Population-based prostate and female breast cancer PRS are associated with a wide range of absolute breast and prostate cancer risks for male BRCA1 and BRCA2 carriers. These findings warrant further investigation aimed at providing personalized cancer risks for male carriers and to inform clinical management.Copyright © The Author(s) 2021. Published by Oxford University Press.

Published
2021

39. Association of genomic domains in BRCA1 and BRCA2 with prostate cancer risk and aggressiveness.

Author

Engel C., Schmutzler R.K., Schuster H., Senter L., Seynaeve C.M., Shah P.D., Sharma P., Shin V.Y., Silvestri V., Simard J., Singer C.F., Skytte A.-B., Snape K., Solano A.R., Soucy P., Southey M.C., Spurdle A.B., Steele L., Steinemann D., Stoppa-Lyonnet D., Stradella A., Sunde L., Sutter C., Tan Y.Y., Teixeira M.R., Teo S.H., Thomassen M., Tibiletti M.G., Tischkowitz M., Tognazzo S., Toland A.E., Tommasi S., Torres D., Toss A., Trainer A.H., Tung N., Van Asperen C.J., Van Der Baan F.H., Van Der Kolk L.E., Van Der Luijt R.B., Van Hest L.P., Varesco L., Varon-Mateeva R., Viel A., Vierstrate J., Villa R., Von Wachenfeldt A., Wagner P., Wang-Gohrke S., Wappenschmidt B., Weitzel J.N., Wieme G., Yadav S., Yannoukakos D., Yoon S.-Y., Zanzottera C., Zorn K.K., D'Amico A.V., Freedman M.L., Pomerantz M.M., Chenevix-Trench G., Antoniou A.C., Neuhausen S.L., Ottini L., Nielsen H.R., Rebbeck T.R., Patel V.L., Busch E.L., Friebel T.M., Cronin A., Leslie G., McGuffog L., Adlard J., Agata S., Agnarsson B.A., Ahmed M., Aittom K., Alducci E., Andrulis I.L., Arason A., Arnold N., Artioli G., Arver B., Auber B., Azzollini J., Balmana J., Barkardottir R.B., Barnes D.R., Barroso A., Barrowdale D., Belotti M., Benitez J., Bertelsen B., Blok M.J., Bodrogi I., Bonadona V., Bonanni B., Bondavalli D., Boonen S.E., Borde J., Borg A., Bradbury A.R., Brady A., Brewer C., Brunet J., Buecher B., Buys S.S., Cabezas-Camarero S., Caldes T., Caliebe A., Caligo M.A., Calvello M., Campbell I.G., Carnevali I., Carrasco E., Chan T.L., Chu A.T.W., Chung W.K., Claes K.B.M., Cook J., Cortesi L., Couch F.J., Daly M.B., Damante G., Darder E., Davidson R., De La Hoya M., Della Puppa L., Dennis J., Diez O., Ding Y.C., Ditsch N., Domchek S.M., Donaldson A., Dworniczak B., Easton D.F., Eccles D.M., Eeles R.A., Ehrencrona H., Ejlertsen B., Evans D.G., Faivre L., Faust U., Feliubadalo L., Foretova L., Fostira F., Fountzilas G., Frost D., Garcia-Barberan V., Garre P., Gauthier-Villars M., Geczi L., Gehrig A., Gerdes A.-M., Gesta P., Giannini G., Glendon G., Godwin A.K., Goldgar D.E., Greene M.H., Gutierrez-Barrera A.M., Hahnen E., Hamann U., Hauke J., Herold N., Hogervorst F.B.L., Honisch E., Hopper J.L., Hulick P.J., Izatt L., Jager A., James P., Janavicius R., Jensen U.B., Jensen T.D., Johannsson O.Th., John E.M., Joseph V., Kang E., Kast K., Kiiski J.I., Kim S.-W., Kim Z., Ko K.-P., Konstantopoulou I., Kramer G., Krogh L., Kruse T.A., Kwong A., Larsen M., Lasset C., Lautrup C., Lazaro C., Lee J., Lee J.W., Lee M.H., Lemke J., Lesueur F., Liljegren A., Lindblom A., Llovet P., Lopez-Fernandez A., Lopez-Perolio I., Lorca V., Loud J.T., Ma E.S.K., Mai P.L., Manoukian S., Mari V., Martin L., Matricardi L., Mebirouk N., Medici V., Meijers-Heijboer H.E.J., Meindl A., Mensenkamp A.R., Miller C., Gomes D.M., Montagna M., Mooij T.M., Moserle L., Mouret-Fourme E., Mulligan A.M., Nathanson K.L., Navratilova M., Nevanlinna H., Niederacher D., Cilius Nielsen F.C., Nikitina-Zake L., Offit K., Olah E., Olopade O.I., Ong K.-R., Osorio A., Ott C.-E., Palli D., Park S.K., Parsons M.T., Pedersen I.S., Peissel B., Peixoto A., Perez-Segura P., Peterlongo P., Petersen A.H., Porteous M.E., Pujana M.A., Radice P., Ramser J., Rantala J., Rashid M.U., Rhiem K., Rizzolo P., Robson M.E., Rookus M.A., Rossing C.M., Ruddy K.J., Santos C., Saule C., Scarpitta R., Engel C., Schmutzler R.K., Schuster H., Senter L., Seynaeve C.M., Shah P.D., Sharma P., Shin V.Y., Silvestri V., Simard J., Singer C.F., Skytte A.-B., Snape K., Solano A.R., Soucy P., Southey M.C., Spurdle A.B., Steele L., Steinemann D., Stoppa-Lyonnet D., Stradella A., Sunde L., Sutter C., Tan Y.Y., Teixeira M.R., Teo S.H., Thomassen M., Tibiletti M.G., Tischkowitz M., Tognazzo S., Toland A.E., Tommasi S., Torres D., Toss A., Trainer A.H., Tung N., Van Asperen C.J., Van Der Baan F.H., Van Der Kolk L.E., Van Der Luijt R.B., Van Hest L.P., Varesco L., Varon-Mateeva R., Viel A., Vierstrate J., Villa R., Von Wachenfeldt A., Wagner P., Wang-Gohrke S., Wappenschmidt B., Weitzel J.N., Wieme G., Yadav S., Yannoukakos D., Yoon S.-Y., Zanzottera C., Zorn K.K., D'Amico A.V., Freedman M.L., Pomerantz M.M., Chenevix-Trench G., Antoniou A.C., Neuhausen S.L., Ottini L., Nielsen H.R., Rebbeck T.R., Patel V.L., Busch E.L., Friebel T.M., Cronin A., Leslie G., McGuffog L., Adlard J., Agata S., Agnarsson B.A., Ahmed M., Aittom K., Alducci E., Andrulis I.L., Arason A., Arnold N., Artioli G., Arver B., Auber B., Azzollini J., Balmana J., Barkardottir R.B., Barnes D.R., Barroso A., Barrowdale D., Belotti M., Benitez J., Bertelsen B., Blok M.J., Bodrogi I., Bonadona V., Bonanni B., Bondavalli D., Boonen S.E., Borde J., Borg A., Bradbury A.R., Brady A., Brewer C., Brunet J., Buecher B., Buys S.S., Cabezas-Camarero S., Caldes T., Caliebe A., Caligo M.A., Calvello M., Campbell I.G., Carnevali I., Carrasco E., Chan T.L., Chu A.T.W., Chung W.K., Claes K.B.M., Cook J., Cortesi L., Couch F.J., Daly M.B., Damante G., Darder E., Davidson R., De La Hoya M., Della Puppa L., Dennis J., Diez O., Ding Y.C., Ditsch N., Domchek S.M., Donaldson A., Dworniczak B., Easton D.F., Eccles D.M., Eeles R.A., Ehrencrona H., Ejlertsen B., Evans D.G., Faivre L., Faust U., Feliubadalo L., Foretova L., Fostira F., Fountzilas G., Frost D., Garcia-Barberan V., Garre P., Gauthier-Villars M., Geczi L., Gehrig A., Gerdes A.-M., Gesta P., Giannini G., Glendon G., Godwin A.K., Goldgar D.E., Greene M.H., Gutierrez-Barrera A.M., Hahnen E., Hamann U., Hauke J., Herold N., Hogervorst F.B.L., Honisch E., Hopper J.L., Hulick P.J., Izatt L., Jager A., James P., Janavicius R., Jensen U.B., Jensen T.D., Johannsson O.Th., John E.M., Joseph V., Kang E., Kast K., Kiiski J.I., Kim S.-W., Kim Z., Ko K.-P., Konstantopoulou I., Kramer G., Krogh L., Kruse T.A., Kwong A., Larsen M., Lasset C., Lautrup C., Lazaro C., Lee J., Lee J.W., Lee M.H., Lemke J., Lesueur F., Liljegren A., Lindblom A., Llovet P., Lopez-Fernandez A., Lopez-Perolio I., Lorca V., Loud J.T., Ma E.S.K., Mai P.L., Manoukian S., Mari V., Martin L., Matricardi L., Mebirouk N., Medici V., Meijers-Heijboer H.E.J., Meindl A., Mensenkamp A.R., Miller C., Gomes D.M., Montagna M., Mooij T.M., Moserle L., Mouret-Fourme E., Mulligan A.M., Nathanson K.L., Navratilova M., Nevanlinna H., Niederacher D., Cilius Nielsen F.C., Nikitina-Zake L., Offit K., Olah E., Olopade O.I., Ong K.-R., Osorio A., Ott C.-E., Palli D., Park S.K., Parsons M.T., Pedersen I.S., Peissel B., Peixoto A., Perez-Segura P., Peterlongo P., Petersen A.H., Porteous M.E., Pujana M.A., Radice P., Ramser J., Rantala J., Rashid M.U., Rhiem K., Rizzolo P., Robson M.E., Rookus M.A., Rossing C.M., Ruddy K.J., Santos C., Saule C., and Scarpitta R.

Abstract

Pathogenic sequence variants (PSV) in BRCA1 or BRCA2 (BRCA1/2) are associated with increased risk and severity of prostate cancer. We evaluated whether PSVs in BRCA1/2 were associated with risk of overall prostate cancer or high grade (Gleason 8) prostate cancer using an international sample of 65 BRCA1 and 171 BRCA2 male PSV carriers with prostate cancer, and 3,388 BRCA1 and 2,880 BRCA2 male PSV carriers without prostate cancer. PSVs in the 30 region of BRCA2 (c.7914) were significantly associated with elevated risk of prostate cancer compared with reference bin c.1001c.7913 [HR 1/4 1.78; 95% confidence interval (CI), 1.25-2.52; P 1/4 0.001], as well as elevated risk of Gleason 8 prostate cancer (HR 1/4 3.11; 95% CI, 1.63-5.95; P 1/4 0.001). c.756-c.1000 was also associated with elevated prostate cancer risk (HR 1/4 2.83; 95% CI, 1.71-4.68; P 1/4 0.00004) and elevated risk of Gleason 8 prostate cancer (HR 1/4 4.95; 95% CI, 2.12-11.54; P 1/4 0.0002). No genotype-phenotype associations were detected for PSVs in BRCA1. These results demonstrate that specific BRCA2 PSVs may be associated with elevated risk of developing aggressive prostate cancer.Copyright © 2020 American Association for Cancer Research.

Published
2020

40. Ovarian and Breast Cancer Risks Associated With Pathogenic Variants in RAD51C and RAD51D

Author

Yang, X, Song, H, Leslie, G, Engel, C, Hahnen, E, Auber, B, Horvath, J, Kast, K, Niederacher, D, Turnbull, C, Houlston, R, Hanson, H, Loveday, C, Dolinsky, JS, LaDuca, H, Ramus, SJ, Menon, U, Rosenthal, AN, Jacobs, I, Gayther, SA, Dicks, E, Nevanlinna, H, Aittomaeki, K, Pelttari, LM, Ehrencrona, H, Borg, A, Kvist, A, Rivera, B, Hansen, TVO, Djursby, M, Lee, A, Dennis, J, Bowtell, DD, Traficante, N, Diez, O, Balmana, J, Gruber, SB, Chenevix-Trench, G, Jensen, A, Kjaer, SK, Hogdall, E, Castera, L, Garber, J, Janavicius, R, Osorio, A, Golmard, L, Vega, A, Couch, FJ, Robson, M, Gronwald, J, Domchek, SM, Culver, JO, de la Hoya, M, Easton, DF, Foulkes, WD, Tischkowitz, M, Meindl, A, Schmutzler, RK, Pharoah, PDP, Antoniou, AC, Yang, X, Song, H, Leslie, G, Engel, C, Hahnen, E, Auber, B, Horvath, J, Kast, K, Niederacher, D, Turnbull, C, Houlston, R, Hanson, H, Loveday, C, Dolinsky, JS, LaDuca, H, Ramus, SJ, Menon, U, Rosenthal, AN, Jacobs, I, Gayther, SA, Dicks, E, Nevanlinna, H, Aittomaeki, K, Pelttari, LM, Ehrencrona, H, Borg, A, Kvist, A, Rivera, B, Hansen, TVO, Djursby, M, Lee, A, Dennis, J, Bowtell, DD, Traficante, N, Diez, O, Balmana, J, Gruber, SB, Chenevix-Trench, G, Jensen, A, Kjaer, SK, Hogdall, E, Castera, L, Garber, J, Janavicius, R, Osorio, A, Golmard, L, Vega, A, Couch, FJ, Robson, M, Gronwald, J, Domchek, SM, Culver, JO, de la Hoya, M, Easton, DF, Foulkes, WD, Tischkowitz, M, Meindl, A, Schmutzler, RK, Pharoah, PDP, and Antoniou, AC

Abstract

BACKGROUND: The purpose of this study was to estimate precise age-specific tubo-ovarian carcinoma (TOC) and breast cancer (BC) risks for carriers of pathogenic variants in RAD51C and RAD51D. METHODS: We analyzed data from 6178 families, 125 with pathogenic variants in RAD51C, and 6690 families, 60 with pathogenic variants in RAD51D. TOC and BC relative and cumulative risks were estimated using complex segregation analysis to model the cancer inheritance patterns in families while adjusting for the mode of ascertainment of each family. All statistical tests were two-sided. RESULTS: Pathogenic variants in both RAD51C and RAD51D were associated with TOC (RAD51C: relative risk [RR] = 7.55, 95% confidence interval [CI] = 5.60 to 10.19; P = 5 × 10-40; RAD51D: RR = 7.60, 95% CI = 5.61 to 10.30; P = 5 × 10-39) and BC (RAD51C: RR = 1.99, 95% CI = 1.39 to 2.85; P = 1.55 × 10-4; RAD51D: RR = 1.83, 95% CI = 1.24 to 2.72; P = .002). For both RAD51C and RAD51D, there was a suggestion that the TOC relative risks increased with age until around age 60 years and decreased thereafter. The estimated cumulative risks of developing TOC to age 80 years were 11% (95% CI = 6% to 21%) for RAD51C and 13% (95% CI = 7% to 23%) for RAD51D pathogenic variant carriers. The estimated cumulative risks of developing BC to 80 years were 21% (95% CI = 15% to 29%) for RAD51C and 20% (95% CI = 14% to 28%) for RAD51D pathogenic variant carriers. Both TOC and BC risks for RAD51C and RAD51D pathogenic variant carriers varied by cancer family history and could be as high as 32-36% for TOC, for carriers with two first-degree relatives diagnosed with TOC, or 44-46% for BC, for carriers with two first-degree relatives diagnosed with BC. CONCLUSIONS: These estimates will facilitate the genetic counseling of RAD51C and RAD51D pathogenic variant carriers and justify the incorporation of RAD51C and RAD51D into cancer risk prediction models.

Published
2020

41. Association of Genomic Domains in BRCA1 and BRCA2 with Prostate Cancer Risk and Aggressiveness

Author

Patel, VL, Busch, EL, Friebel, TM, Cronin, A, Leslie, G, McGuffog, L, Adlard, J, Agata, S, Agnarsson, BA, Ahmed, M, Aittomaki, K, Alducci, E, Andrulis, IL, Arason, A, Arnold, N, Artioli, G, Arver, B, Auber, B, Azzollini, J, Balmana, J, Barkardottir, RB, Barnes, DR, Barroso, A, Barrowdale, D, Belotti, M, Benitez, J, Bertelsen, B, Blok, MJ, Bodrogi, I, Bonadona, V, Bonanni, B, Bondavalli, D, Boonen, SE, Borde, J, Borg, A, Bradbury, AR, Brady, A, Brewer, C, Brunet, J, Buecher, B, Buys, SS, Cabezas-Camarero, S, Caldes, T, Caliebe, A, Caligo, MA, Calvello, M, Campbell, IG, Carnevali, I, Carrasco, E, Chan, TL, Chu, ATW, Chung, WK, Claes, KBM, Cook, J, Cortesi, L, Couch, FJ, Daly, MB, Damante, G, Darder, E, Davidson, R, de la Hoya, M, Della Puppa, L, Dennis, J, Diez, O, Ding, YC, Ditsch, N, Domchek, SM, Donaldson, A, Dworniczak, B, Easton, DF, Eccles, DM, Eeles, RA, Ehrencrona, H, Ejlertsen, B, Engel, C, Evans, DG, Faivre, L, Faust, U, Feliubadalo, L, Foretova, L, Fostira, F, Fountzilas, G, Frost, D, Garcia-Barberan, V, Garre, P, Gauthier-Villars, M, Geczi, L, Gehrig, A, Gerdes, A-M, Gesta, P, Giannini, G, Glendon, G, Godwin, AK, Goldgar, DE, Greene, MH, Gutierrez-Barrera, AM, Hahnen, E, Hamann, U, Hauke, J, Herold, N, Hogervorst, FBL, Honisch, E, Hopper, JL, Hulick, PJ, Izatt, L, Jager, A, James, P, Janavicius, R, Jensen, UB, Jensen, TD, Johannsson, OT, John, EM, Joseph, V, Kang, E, Kast, K, Kiiski, J, Kim, S-W, Kim, Z, Ko, K-P, Konstantopoulou, I, Kramer, G, Krogh, L, Kruse, TA, Kwong, A, Larsen, M, Lasset, C, Lautrup, C, Lazaro, C, Lee, J, Lee, JW, Lee, MH, Lemke, J, Lesueur, F, Liljegren, A, Lindblom, A, Llovet, P, Lopez-Fernandez, A, Lopez-Perolio, I, Lorca, V, Loud, JT, Ma, ESK, Mai, PL, Manoukian, S, Mari, V, Martin, L, Matricardi, L, Mebirouk, N, Medici, V, Meijers-Heijboer, HEJ, Meindl, A, Mensenkamp, AR, Miller, C, Gomes, DM, Montagna, M, Mooij, TM, Moserle, L, Mouret-Fourme, E, Mulligan, AM, Nathanson, KL, Navratilova, M, Nevanlinna, H, Niederacher, D, Nielsen, FCC, Nikitina-Zake, L, Offit, K, Olah, E, Olopade, O, Ong, K-R, Osorio, A, Ott, C-E, Palli, D, Park, SK, Parsons, MT, Pedersen, IS, Peissel, B, Peixoto, A, Perez-Segura, P, Peterlongo, P, Petersen, AH, Porteous, ME, Angel Pujana, M, Radice, P, Ramser, J, Rantala, J, Rashid, MU, Rhiem, K, Rizzolo, P, Robson, ME, Rookus, MA, Rossing, CM, Ruddy, KJ, Santos, C, Saule, C, Scarpitta, R, Schmutzler, RK, Schuster, H, Senter, L, Seynaeve, CM, Shah, PD, Sharma, P, Shin, VY, Silvestri, V, Simard, J, Singer, CF, Skytte, A-B, Snape, K, Solano, AR, Soucy, P, Southey, MC, Spurdle, AB, Steele, L, Steinemann, D, Stoppa-Lyonnet, D, Stradella, A, Sunde, L, Sutter, C, Tan, YY, Teixeira, MR, Teo, SH, Thomassen, M, Tibiletti, MG, Tischkowitz, M, Tognazzo, S, Toland, AE, Tommasi, S, Torres, D, Toss, A, Trainer, AH, Tung, N, van Asperen, CJ, van der Baan, FH, van der Kolk, LE, van der Luijt, RB, van Hest, LP, Varesco, L, Varon-Mateeva, R, Viel, A, Vierstraete, J, Villa, R, von Wachenfeldt, A, Wagner, P, Wang-Gohrke, S, Wappenschmidt, B, Weitzel, JN, Wieme, G, Yadav, S, Yannoukakos, D, Yoon, S-Y, Zanzottera, C, Zorn, KK, D'Amico, A, Freedman, ML, Pomerantz, MM, Chenevix-Trench, G, Antoniou, AC, Neuhausen, SL, Ottini, L, Nielsen, HR, Rebbeck, TR, Patel, VL, Busch, EL, Friebel, TM, Cronin, A, Leslie, G, McGuffog, L, Adlard, J, Agata, S, Agnarsson, BA, Ahmed, M, Aittomaki, K, Alducci, E, Andrulis, IL, Arason, A, Arnold, N, Artioli, G, Arver, B, Auber, B, Azzollini, J, Balmana, J, Barkardottir, RB, Barnes, DR, Barroso, A, Barrowdale, D, Belotti, M, Benitez, J, Bertelsen, B, Blok, MJ, Bodrogi, I, Bonadona, V, Bonanni, B, Bondavalli, D, Boonen, SE, Borde, J, Borg, A, Bradbury, AR, Brady, A, Brewer, C, Brunet, J, Buecher, B, Buys, SS, Cabezas-Camarero, S, Caldes, T, Caliebe, A, Caligo, MA, Calvello, M, Campbell, IG, Carnevali, I, Carrasco, E, Chan, TL, Chu, ATW, Chung, WK, Claes, KBM, Cook, J, Cortesi, L, Couch, FJ, Daly, MB, Damante, G, Darder, E, Davidson, R, de la Hoya, M, Della Puppa, L, Dennis, J, Diez, O, Ding, YC, Ditsch, N, Domchek, SM, Donaldson, A, Dworniczak, B, Easton, DF, Eccles, DM, Eeles, RA, Ehrencrona, H, Ejlertsen, B, Engel, C, Evans, DG, Faivre, L, Faust, U, Feliubadalo, L, Foretova, L, Fostira, F, Fountzilas, G, Frost, D, Garcia-Barberan, V, Garre, P, Gauthier-Villars, M, Geczi, L, Gehrig, A, Gerdes, A-M, Gesta, P, Giannini, G, Glendon, G, Godwin, AK, Goldgar, DE, Greene, MH, Gutierrez-Barrera, AM, Hahnen, E, Hamann, U, Hauke, J, Herold, N, Hogervorst, FBL, Honisch, E, Hopper, JL, Hulick, PJ, Izatt, L, Jager, A, James, P, Janavicius, R, Jensen, UB, Jensen, TD, Johannsson, OT, John, EM, Joseph, V, Kang, E, Kast, K, Kiiski, J, Kim, S-W, Kim, Z, Ko, K-P, Konstantopoulou, I, Kramer, G, Krogh, L, Kruse, TA, Kwong, A, Larsen, M, Lasset, C, Lautrup, C, Lazaro, C, Lee, J, Lee, JW, Lee, MH, Lemke, J, Lesueur, F, Liljegren, A, Lindblom, A, Llovet, P, Lopez-Fernandez, A, Lopez-Perolio, I, Lorca, V, Loud, JT, Ma, ESK, Mai, PL, Manoukian, S, Mari, V, Martin, L, Matricardi, L, Mebirouk, N, Medici, V, Meijers-Heijboer, HEJ, Meindl, A, Mensenkamp, AR, Miller, C, Gomes, DM, Montagna, M, Mooij, TM, Moserle, L, Mouret-Fourme, E, Mulligan, AM, Nathanson, KL, Navratilova, M, Nevanlinna, H, Niederacher, D, Nielsen, FCC, Nikitina-Zake, L, Offit, K, Olah, E, Olopade, O, Ong, K-R, Osorio, A, Ott, C-E, Palli, D, Park, SK, Parsons, MT, Pedersen, IS, Peissel, B, Peixoto, A, Perez-Segura, P, Peterlongo, P, Petersen, AH, Porteous, ME, Angel Pujana, M, Radice, P, Ramser, J, Rantala, J, Rashid, MU, Rhiem, K, Rizzolo, P, Robson, ME, Rookus, MA, Rossing, CM, Ruddy, KJ, Santos, C, Saule, C, Scarpitta, R, Schmutzler, RK, Schuster, H, Senter, L, Seynaeve, CM, Shah, PD, Sharma, P, Shin, VY, Silvestri, V, Simard, J, Singer, CF, Skytte, A-B, Snape, K, Solano, AR, Soucy, P, Southey, MC, Spurdle, AB, Steele, L, Steinemann, D, Stoppa-Lyonnet, D, Stradella, A, Sunde, L, Sutter, C, Tan, YY, Teixeira, MR, Teo, SH, Thomassen, M, Tibiletti, MG, Tischkowitz, M, Tognazzo, S, Toland, AE, Tommasi, S, Torres, D, Toss, A, Trainer, AH, Tung, N, van Asperen, CJ, van der Baan, FH, van der Kolk, LE, van der Luijt, RB, van Hest, LP, Varesco, L, Varon-Mateeva, R, Viel, A, Vierstraete, J, Villa, R, von Wachenfeldt, A, Wagner, P, Wang-Gohrke, S, Wappenschmidt, B, Weitzel, JN, Wieme, G, Yadav, S, Yannoukakos, D, Yoon, S-Y, Zanzottera, C, Zorn, KK, D'Amico, A, Freedman, ML, Pomerantz, MM, Chenevix-Trench, G, Antoniou, AC, Neuhausen, SL, Ottini, L, Nielsen, HR, and Rebbeck, TR

Abstract

Pathogenic sequence variants (PSV) in BRCA1 or BRCA2 (BRCA1/2) are associated with increased risk and severity of prostate cancer. We evaluated whether PSVs in BRCA1/2 were associated with risk of overall prostate cancer or high grade (Gleason 8+) prostate cancer using an international sample of 65 BRCA1 and 171 BRCA2 male PSV carriers with prostate cancer, and 3,388 BRCA1 and 2,880 BRCA2 male PSV carriers without prostate cancer. PSVs in the 3' region of BRCA2 (c.7914+) were significantly associated with elevated risk of prostate cancer compared with reference bin c.1001-c.7913 [HR = 1.78; 95% confidence interval (CI), 1.25-2.52; P = 0.001], as well as elevated risk of Gleason 8+ prostate cancer (HR = 3.11; 95% CI, 1.63-5.95; P = 0.001). c.756-c.1000 was also associated with elevated prostate cancer risk (HR = 2.83; 95% CI, 1.71-4.68; P = 0.00004) and elevated risk of Gleason 8+ prostate cancer (HR = 4.95; 95% CI, 2.12-11.54; P = 0.0002). No genotype-phenotype associations were detected for PSVs in BRCA1. These results demonstrate that specific BRCA2 PSVs may be associated with elevated risk of developing aggressive prostate cancer. SIGNIFICANCE: Aggressive prostate cancer risk in BRCA2 mutation carriers may vary according to the specific BRCA2 mutation inherited by the at-risk individual.

Published
2020

42. Polygenic risk scores and breast and epithelial ovarian cancer risks for carriers of BRCA1 and BRCA2 pathogenic variants

Author

Barnes, DR, Rookus, MA, McGuffog, L, Leslie, G, Mooij, TM, Dennis, J, Mavaddat, N, Adlard, J, Ahmed, M, Aittomaki, K, Andrieu, N, Andrulis, IL, Arnold, N, Arun, BK, Azzollini, J, Balmana, J, Barkardottir, RB, Barrowdale, D, Benitez, J, Berthet, P, Bialkowska, K, Blanco, AM, Blok, MJ, Bonanni, B, Boonen, SE, Borg, A, Bozsik, A, Bradbury, AR, Brennan, P, Brewer, C, Brunet, J, Buys, SS, Caldes, T, Caligo, MA, Campbell, I, Christensen, LL, Chung, WK, Claes, KBM, Colas, C, Collonge-Rame, M-A, Cook, J, Daly, MB, Davidson, R, de la Hoya, M, de Putter, R, Delnatte, C, Devilee, P, Diez, O, Ding, YC, Domchek, SM, Dorfling, CM, Dumont, M, Eeles, R, Ejlertsen, B, Engel, C, Evans, DG, Faivre, L, Foretova, L, Fostira, F, Friedlander, M, Friedman, E, Frost, D, Ganz, PA, Garber, J, Gehrig, A, Gerdes, A-M, Gesta, P, Giraud, S, Glendon, G, Godwin, AK, Goldgar, DE, Gonzalez-Neira, A, Greene, MH, Gschwantler-Kaulich, D, Hahnen, E, Hamann, U, Hanson, H, Hentschel, J, Hogervorst, FBL, Hooning, MJ, Horvath, J, Hu, C, Hulick, PJ, Imyanitov, EN, Isaacs, C, Izatt, L, Izquierdo, A, Jakubowska, A, James, PA, Janavicius, R, John, EM, Joseph, V, Karlan, BY, Kast, K, Koudijs, M, Kruse, TA, Kwong, A, Laitman, Y, Lasset, C, Lazaro, C, Lester, J, Lesueur, F, Liljegren, A, Loud, JT, Lubinski, J, Mai, PL, Manoukian, S, Mari, V, Mebirouk, N, Meijers-Heijboer, HEJ, Meindl, A, Mensenkamp, AR, Miller, A, Montagna, M, Mouret-Fourme, E, Mukherjee, S, Mulligan, AM, Nathanson, KL, Neuhausen, SL, Nevanlinna, H, Niederacher, D, Nielsen, FC, Nikitina-Zake, L, Nogues, C, Olah, E, Olopade, O, Ong, K-R, O'Shaughnessy-Kirwan, A, Osorio, A, Ott, C-E, Papi, L, Park, SK, Parsons, MT, Pedersen, IS, Peissel, B, Peixoto, A, Peterlongo, P, Pfeiler, G, Phillips, K-A, Prajzendanc, K, Pujana, MA, Radice, P, Ramser, J, Ramus, SJ, Rantala, J, Rennert, G, Risch, HA, Robson, M, Ronlund, K, Salani, R, Schuster, H, Senter, L, Shah, PD, Sharma, P, Side, LE, Singer, CF, Slavin, TP, Soucy, P, Southey, MC, Spurdle, AB, Steinemann, D, Steinsnyder, Z, Stoppa-Lyonnet, D, Sutter, C, Tan, YY, Teixeira, MR, Teo, SH, Thull, DL, Tischkowitz, M, Tognazzo, S, Toland, AE, Trainer, AH, Tung, N, van Engelen, K, van Rensburg, EJ, Vega, A, Vierstraete, J, Wagner, G, Walker, L, Wang-Gohrke, S, Wappenschmidt, B, Weitzel, JN, Yadav, S, Yang, X, Yannoukakos, D, Zimbalatti, D, Offit, K, Thomassen, M, Couch, FJ, Schmutzler, RK, Simard, J, Easton, DF, Chenevix-Trench, G, Antoniou, AC, Barnes, DR, Rookus, MA, McGuffog, L, Leslie, G, Mooij, TM, Dennis, J, Mavaddat, N, Adlard, J, Ahmed, M, Aittomaki, K, Andrieu, N, Andrulis, IL, Arnold, N, Arun, BK, Azzollini, J, Balmana, J, Barkardottir, RB, Barrowdale, D, Benitez, J, Berthet, P, Bialkowska, K, Blanco, AM, Blok, MJ, Bonanni, B, Boonen, SE, Borg, A, Bozsik, A, Bradbury, AR, Brennan, P, Brewer, C, Brunet, J, Buys, SS, Caldes, T, Caligo, MA, Campbell, I, Christensen, LL, Chung, WK, Claes, KBM, Colas, C, Collonge-Rame, M-A, Cook, J, Daly, MB, Davidson, R, de la Hoya, M, de Putter, R, Delnatte, C, Devilee, P, Diez, O, Ding, YC, Domchek, SM, Dorfling, CM, Dumont, M, Eeles, R, Ejlertsen, B, Engel, C, Evans, DG, Faivre, L, Foretova, L, Fostira, F, Friedlander, M, Friedman, E, Frost, D, Ganz, PA, Garber, J, Gehrig, A, Gerdes, A-M, Gesta, P, Giraud, S, Glendon, G, Godwin, AK, Goldgar, DE, Gonzalez-Neira, A, Greene, MH, Gschwantler-Kaulich, D, Hahnen, E, Hamann, U, Hanson, H, Hentschel, J, Hogervorst, FBL, Hooning, MJ, Horvath, J, Hu, C, Hulick, PJ, Imyanitov, EN, Isaacs, C, Izatt, L, Izquierdo, A, Jakubowska, A, James, PA, Janavicius, R, John, EM, Joseph, V, Karlan, BY, Kast, K, Koudijs, M, Kruse, TA, Kwong, A, Laitman, Y, Lasset, C, Lazaro, C, Lester, J, Lesueur, F, Liljegren, A, Loud, JT, Lubinski, J, Mai, PL, Manoukian, S, Mari, V, Mebirouk, N, Meijers-Heijboer, HEJ, Meindl, A, Mensenkamp, AR, Miller, A, Montagna, M, Mouret-Fourme, E, Mukherjee, S, Mulligan, AM, Nathanson, KL, Neuhausen, SL, Nevanlinna, H, Niederacher, D, Nielsen, FC, Nikitina-Zake, L, Nogues, C, Olah, E, Olopade, O, Ong, K-R, O'Shaughnessy-Kirwan, A, Osorio, A, Ott, C-E, Papi, L, Park, SK, Parsons, MT, Pedersen, IS, Peissel, B, Peixoto, A, Peterlongo, P, Pfeiler, G, Phillips, K-A, Prajzendanc, K, Pujana, MA, Radice, P, Ramser, J, Ramus, SJ, Rantala, J, Rennert, G, Risch, HA, Robson, M, Ronlund, K, Salani, R, Schuster, H, Senter, L, Shah, PD, Sharma, P, Side, LE, Singer, CF, Slavin, TP, Soucy, P, Southey, MC, Spurdle, AB, Steinemann, D, Steinsnyder, Z, Stoppa-Lyonnet, D, Sutter, C, Tan, YY, Teixeira, MR, Teo, SH, Thull, DL, Tischkowitz, M, Tognazzo, S, Toland, AE, Trainer, AH, Tung, N, van Engelen, K, van Rensburg, EJ, Vega, A, Vierstraete, J, Wagner, G, Walker, L, Wang-Gohrke, S, Wappenschmidt, B, Weitzel, JN, Yadav, S, Yang, X, Yannoukakos, D, Zimbalatti, D, Offit, K, Thomassen, M, Couch, FJ, Schmutzler, RK, Simard, J, Easton, DF, Chenevix-Trench, G, and Antoniou, AC

Abstract

PURPOSE: We assessed the associations between population-based polygenic risk scores (PRS) for breast (BC) or epithelial ovarian cancer (EOC) with cancer risks for BRCA1 and BRCA2 pathogenic variant carriers. METHODS: Retrospective cohort data on 18,935 BRCA1 and 12,339 BRCA2 female pathogenic variant carriers of European ancestry were available. Three versions of a 313 single-nucleotide polymorphism (SNP) BC PRS were evaluated based on whether they predict overall, estrogen receptor (ER)-negative, or ER-positive BC, and two PRS for overall or high-grade serous EOC. Associations were validated in a prospective cohort. RESULTS: The ER-negative PRS showed the strongest association with BC risk for BRCA1 carriers (hazard ratio [HR] per standard deviation = 1.29 [95% CI 1.25-1.33], P = 3×10-72). For BRCA2, the strongest association was with overall BC PRS (HR = 1.31 [95% CI 1.27-1.36], P = 7×10-50). HR estimates decreased significantly with age and there was evidence for differences in associations by predicted variant effects on protein expression. The HR estimates were smaller than general population estimates. The high-grade serous PRS yielded the strongest associations with EOC risk for BRCA1 (HR = 1.32 [95% CI 1.25-1.40], P = 3×10-22) and BRCA2 (HR = 1.44 [95% CI 1.30-1.60], P = 4×10-12) carriers. The associations in the prospective cohort were similar. CONCLUSION: Population-based PRS are strongly associated with BC and EOC risks for BRCA1/2 carriers and predict substantial absolute risk differences for women at PRS distribution extremes.

Published
2020

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