Your search keyword '"Broeks, Annegien"' showing total 1,037 results

1. Spatial relationships in the urothelial and head and neck tumor microenvironment predict response to combination immune checkpoint inhibitors

Author

Gil-Jimenez, Alberto, van Dijk, Nick, Vos, Joris L., Lubeck, Yoni, van Montfoort, Maurits L., Peters, Dennis, Hooijberg, Erik, Broeks, Annegien, Zuur, Charlotte L., van Rhijn, Bas W. G., Vis, Daniel J., van der Heijden, Michiel S., and Wessels, Lodewyk F. A.

Published

2024

2. Long-term outcomes of young, node-negative, chemotherapy-naïve, triple-negative breast cancer patients according to BRCA1 status

Author

Wang, Yuwei, Dackus, Gwen M. H. E., Rosenberg, Efraim H., Cornelissen, Sten, de Boo, Leonora W., Broeks, Annegien, Brugman, Wim, Chan, Terry W. S., van Diest, Paul J., Hauptmann, Michael, ter Hoeve, Natalie D., Isaeva, Olga I., de Jong, Vincent M. T., Jóźwiak, Katarzyna, Kluin, Roelof J. C., Kok, Marleen, Koop, Esther, Nederlof, Petra M., Opdam, Mark, Schouten, Philip C., Siesling, Sabine, van Steenis, Charlaine, Voogd, Adri C., Vreuls, Willem, Salgado, Roberto F., Linn, Sabine C., and Schmidt, Marjanka K.

Published

2024

3. Association of the CHEK2 c.1100delC variant, radiotherapy, and systemic treatment with contralateral breast cancer risk and breast cancer‐specific survival

Author

Morra, Anna, Schreurs, Maartje AC, Andrulis, Irene L, Anton‐Culver, Hoda, Augustinsson, Annelie, Beckmann, Matthias W, Behrens, Sabine, Bojesen, Stig E, Bolla, Manjeet K, Brauch, Hiltrud, Broeks, Annegien, Buys, Saundra S, Camp, Nicola J, Castelao, Jose E, Cessna, Melissa H, Chang‐Claude, Jenny, Chung, Wendy K, Sahlberg, Kristine K, Børresen‐Dale, Anne‐Lise, Gram, Inger Torhild, Olsen, Karina Standahl, Engebråten, Olav, Naume, Bjørn, Geisler, Jürgen, OSBREAC, Alnæs, Grethe I Grenaker, Colonna, Sarah V, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Daly, Mary B, Dennis, Joe, Devilee, Peter, Dörk, Thilo, Dunning, Alison M, Dwek, Miriam, Easton, Douglas F, Eccles, Diana M, Eriksson, Mikael, Evans, D Gareth, Fasching, Peter A, Fehm, Tanja N, Figueroa, Jonine D, Flyger, Henrik, Gabrielson, Marike, Gago‐Dominguez, Manuela, García‐Closas, Montserrat, García‐Sáenz, José A, Genkinger, Jeanine, Grassmann, Felix, Gündert, Melanie, Hahnen, Eric, Haiman, Christopher A, Hamann, Ute, Harrington, Patricia A, Hartikainen, Jaana M, Hoppe, Reiner, Hopper, John L, Houlston, Richard S, Howell, Anthony, Clarke, Christine, Marsh, Deborah, Scott, Rodney, Baxter, Robert, Yip, Desmond, Carpenter, Jane, Davis, Alison, Pathmanathan, Nirmala, Simpson, Peter, Graham, J Dinny, Sachchithananthan, Mythily, Amor, David, Andrews, Lesley, Antill, Yoland, Balleine, Rosemary, Beesley, Jonathan, Bennett, Ian, Bogwitz, Michael, Botes, Leon, Brennan, Meagan, Brown, Melissa, Buckley, Michael, Burke, Jo, Butow, Phyllis, Caldon, Liz, Campbell, Ian, Cao, Michelle, Chakrabarti, Anannya, Chauhan, Deepa, Chauhan, Manisha, Chenevix‐Trench, Georgia, Christian, Alice, Cohen, Paul, Colley, Alison, Crook, Ashley, Cui, James, Courtney, Eliza, Cummings, Margaret, and Dawson, Sarah‐Jane

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Women's Health, Breast Cancer, Clinical Research, Prevention, Cancer, Female, Humans, Breast Neoplasms, Checkpoint Kinase 2, Genetic Predisposition to Disease, Germ-Line Mutation, Heterozygote, Proportional Hazards Models, CHEK2 c.1100delC germline genetic variant, contralateral breast cancer risk, radiotherapy, survival, systemic treatment, NBCS Collaborators, ABCTB Investigators, kConFab Investigators, Biochemistry and Cell Biology, Oncology and carcinogenesis

Abstract

BackgroundBreast cancer (BC) patients with a germline CHEK2 c.1100delC variant have an increased risk of contralateral BC (CBC) and worse BC-specific survival (BCSS) compared to non-carriers.AimTo assessed the associations of CHEK2 c.1100delC, radiotherapy, and systemic treatment with CBC risk and BCSS.MethodsAnalyses were based on 82,701 women diagnosed with a first primary invasive BC including 963 CHEK2 c.1100delC carriers; median follow-up was 9.1 years. Differential associations with treatment by CHEK2 c.1100delC status were tested by including interaction terms in a multivariable Cox regression model. A multi-state model was used for further insight into the relation between CHEK2 c.1100delC status, treatment, CBC risk and death.ResultsThere was no evidence for differential associations of therapy with CBC risk by CHEK2 c.1100delC status. The strongest association with reduced CBC risk was observed for the combination of chemotherapy and endocrine therapy [HR (95% CI): 0.66 (0.55-0.78)]. No association was observed with radiotherapy. Results from the multi-state model showed shorter BCSS for CHEK2 c.1100delC carriers versus non-carriers also after accounting for CBC occurrence [HR (95% CI): 1.30 (1.09-1.56)].ConclusionSystemic therapy was associated with reduced CBC risk irrespective of CHEK2 c.1100delC status. Moreover, CHEK2 c.1100delC carriers had shorter BCSS, which appears not to be fully explained by their CBC risk.

Published

2023

4. Association between pretreatment emotional distress and neoadjuvant immune checkpoint blockade response in melanoma

Author

Fraterman, Itske, Reijers, Irene L. M., Dimitriadis, Petros, Broeks, Annegien, Gonzalez, M., Menzies, A. M. M., Lopez-Yurda, Marta, Kapiteijn, Ellen, van der Veldt, Astrid A. M., Suijkerbuijk, Karijn P. M., Hospers, Geke A. P., Long, Georgina V., Blank, Christian U., and van de Poll-Franse, Lonneke V.

Published

2023

5. Obesity-associated changes in molecular biology of primary breast cancer

Author

Nguyen, Ha-Linh, Geukens, Tatjana, Maetens, Marion, Aparicio, Samuel, Bassez, Ayse, Borg, Ake, Brock, Jane, Broeks, Annegien, Caldas, Carlos, Cardoso, Fatima, De Schepper, Maxim, Delorenzi, Mauro, Drukker, Caroline A., Glas, Annuska M., Green, Andrew R., Isnaldi, Edoardo, Eyfjörð, Jórunn, Khout, Hazem, Knappskog, Stian, Krishnamurthy, Savitri, Lakhani, Sunil R., Langerod, Anita, Martens, John W. M., McCart Reed, Amy E., Murphy, Leigh, Naulaerts, Stefan, Nik-Zainal, Serena, Nevelsteen, Ines, Neven, Patrick, Piccart, Martine, Poncet, Coralie, Punie, Kevin, Purdie, Colin, Rakha, Emad A., Richardson, Andrea, Rutgers, Emiel, Vincent-Salomon, Anne, Simpson, Peter T., Schmidt, Marjanka K., Sotiriou, Christos, Span, Paul N., Tan, Kiat Tee Benita, Thompson, Alastair, Tommasi, Stefania, Van Baelen, Karen, Van de Vijver, Marc, Van Laere, Steven, van’t Veer, Laura, Viale, Giuseppe, Viari, Alain, Vos, Hanne, Witteveen, Anke T., Wildiers, Hans, Floris, Giuseppe, Garg, Abhishek D., Smeets, Ann, Lambrechts, Diether, Biganzoli, Elia, Richard, François, and Desmedt, Christine

Published

2023

6. Breast cancer genomes from CHEK2 c.1100delC mutation carriers lack somatic TP53 mutations and display a unique structural variant size distribution profile

Author

Smid, Marcel, Schmidt, Marjanka K., Prager-van der Smissen, Wendy J. C., Ruigrok-Ritstier, Kirsten, Schreurs, Maartje A. C., Cornelissen, Sten, Garcia, Aida Marsal, Broeks, Annegien, Timmermans, A. Mieke, Trapman-Jansen, Anita M. A. C., Collée, J. Margriet, Adank, Muriel A., Hooning, Maartje J., Martens, John W. M., and Hollestelle, Antoinette

Published

2023

7. A pan-cancer analysis of the microbiome in metastatic cancer

Author

Battaglia, Thomas W., Mimpen, Iris L., Traets, Joleen J.H., van Hoeck, Arne, Zeverijn, Laurien J., Geurts, Birgit S., de Wit, Gijs F., Noë, Michaël, Hofland, Ingrid, Vos, Joris L., Cornelissen, Sten, Alkemade, Maartje, Broeks, Annegien, Zuur, Charlotte L., Cuppen, Edwin, Wessels, Lodewyk, van de Haar, Joris, and Voest, Emile

Published

2024

8. External validation and clinical utility assessment of PREDICT breast cancer prognostic model in young, systemic treatment-naïve women with node-negative breast cancer

Author

Wang, Yuwei, Broeks, Annegien, Giardiello, Daniele, Hauptmann, Michael, Jóźwiak, Katarzyna, Koop, Esther A., Opdam, Mark, Siesling, Sabine, Sonke, Gabe S., Stathonikos, Nikolas, ter Hoeve, Natalie D., van der Wall, Elsken, van Deurzen, Carolien H.M., van Diest, Paul J., Voogd, Adri C., Vreuls, Willem, Linn, Sabine C., Dackus, Gwen M.H.E., and Schmidt, Marjanka K.

Published

2023

9. Transcriptome‐wide association study of breast cancer risk by estrogen‐receptor status

Author

Feng, Helian, Gusev, Alexander, Pasaniuc, Bogdan, Wu, Lang, Long, Jirong, Abu‐full, Zomoroda, Aittomäki, Kristiina, Andrulis, Irene L, Anton‐Culver, Hoda, Antoniou, Antonis C, Arason, Adalgeir, Arndt, Volker, Aronson, Kristan J, Arun, Banu K, Asseryanis, Ella, Auer, Paul L, Azzollini, Jacopo, Balmaña, Judith, Barkardottir, Rosa B, Barnes, Daniel R, Barrowdale, Daniel, Beckmann, Matthias W, Behrens, Sabine, Benitez, Javier, Bermisheva, Marina, Białkowska, Katarzyna, Blanco, Ana, Blomqvist, Carl, Boeckx, Bram, Bogdanova, Natalia V, Bojesen, Stig E, Bolla, Manjeet K, Bonanni, Bernardo, Borg, Ake, Brauch, Hiltrud, Brenner, Hermann, Briceno, Ignacio, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Cai, Qiuyin, Caldés, Trinidad, Caligo, Maria A, Campbell, Ian, Canisius, Sander, Campa, Daniele, Carter, Brian D, Carter, Jonathan, Castelao, Jose E, Chang‐Claude, Jenny, Chanock, Stephen J, Christiansen, Hans, Chung, Wendy K, Claes, Kathleen BM, Clarke, Christine L, Collaborators, GEMO Study, Collaborators, EMBRACE, Collaborators, GC‐HBOC study, Couch, Fergus J, Cox, Angela, Cross, Simon S, Cybulski, Cezary, Czene, Kamila, Daly, Mary B, de la Hoya, Miguel, De Leeneer, Kim, Dennis, Joe, Devilee, Peter, Diez, Orland, Domchek, Susan M, Dörk, Thilo, dos‐Santos‐Silva, Isabel, Dunning, Alison M, Dwek, Miriam, Eccles, Diana M, Ejlertsen, Bent, Ellberg, Carolina, Engel, Christoph, Eriksson, Mikael, Fasching, Peter A, Fletcher, Olivia, Flyger, Henrik, Fostira, Florentia, Friedman, Eitan, Fritschi, Lin, Frost, Debra, Gabrielson, Marike, Ganz, Patricia A, Gapstur, Susan M, Garber, Judy, García‐Closas, Montserrat, García‐Sáenz, José A, Gaudet, Mia M, Giles, Graham G, Glendon, Gord, Godwin, Andrew K, Goldberg, Mark S, Goldgar, David E, González‐Neira, Anna, and Greene, Mark H

Subjects

Biological Sciences, Health Sciences, Genetics, Cancer, Biotechnology, Prevention, Clinical Research, Human Genome, Estrogen, Breast Cancer, Aetiology, 2.1 Biological and endogenous factors, Breast Neoplasms, Estrogens, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, Genomics, Humans, Receptors, Estrogen, Risk Assessment, Transcriptome, Vesicular Transport Proteins, breast cancer subtype, causal gene, GWAS, TWAS, GEMO Study Collaborators, EMBRACE Collaborators, GC-HBOC study Collaborators, ABCTB Investigators, HEBON Investigators, BCFR Investigators, OCGN Investigators, Public Health and Health Services, Epidemiology

Abstract

Previous transcriptome-wide association studies (TWAS) have identified breast cancer risk genes by integrating data from expression quantitative loci and genome-wide association studies (GWAS), but analyses of breast cancer subtype-specific associations have been limited. In this study, we conducted a TWAS using gene expression data from GTEx and summary statistics from the hitherto largest GWAS meta-analysis conducted for breast cancer overall, and by estrogen receptor subtypes (ER+ and ER-). We further compared associations with ER+ and ER- subtypes, using a case-only TWAS approach. We also conducted multigene conditional analyses in regions with multiple TWAS associations. Two genes, STXBP4 and HIST2H2BA, were specifically associated with ER+ but not with ER- breast cancer. We further identified 30 TWAS-significant genes associated with overall breast cancer risk, including four that were not identified in previous studies. Conditional analyses identified single independent breast-cancer gene in three of six regions harboring multiple TWAS-significant genes. Our study provides new information on breast cancer genetics and biology, particularly about genomic differences between ER+ and ER- breast cancer.

Published

2020

10. Genome-wide association study identifies 32 novel breast cancer susceptibility loci from overall and subtype-specific analyses.

Author

Zhang, Haoyu, Ahearn, Thomas U, Lecarpentier, Julie, Barnes, Daniel, Beesley, Jonathan, Qi, Guanghao, Jiang, Xia, O'Mara, Tracy A, Zhao, Ni, Bolla, Manjeet K, Dunning, Alison M, Dennis, Joe, Wang, Qin, Ful, Zumuruda Abu, Aittomäki, Kristiina, Andrulis, Irene L, Anton-Culver, Hoda, Arndt, Volker, Aronson, Kristan J, Arun, Banu K, Auer, Paul L, Azzollini, Jacopo, Barrowdale, Daniel, Becher, Heiko, Beckmann, Matthias W, Behrens, Sabine, Benitez, Javier, Bermisheva, Marina, Bialkowska, Katarzyna, Blanco, Ana, Blomqvist, Carl, Bogdanova, Natalia V, Bojesen, Stig E, Bonanni, Bernardo, Bondavalli, Davide, Borg, Ake, Brauch, Hiltrud, Brenner, Hermann, Briceno, Ignacio, Broeks, Annegien, Brucker, Sara Y, Brüning, Thomas, Burwinkel, Barbara, Buys, Saundra S, Byers, Helen, Caldés, Trinidad, Caligo, Maria A, Calvello, Mariarosaria, Campa, Daniele, Castelao, Jose E, Chang-Claude, Jenny, Chanock, Stephen J, Christiaens, Melissa, Christiansen, Hans, Chung, Wendy K, Claes, Kathleen BM, Clarke, Christine L, Cornelissen, Sten, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Daly, Mary B, Devilee, Peter, Diez, Orland, Domchek, Susan M, Dörk, Thilo, Dwek, Miriam, Eccles, Diana M, Ekici, Arif B, Evans, D Gareth, Fasching, Peter A, Figueroa, Jonine, Foretova, Lenka, Fostira, Florentia, Friedman, Eitan, Frost, Debra, Gago-Dominguez, Manuela, Gapstur, Susan M, Garber, Judy, García-Sáenz, José A, Gaudet, Mia M, Gayther, Simon A, Giles, Graham G, Godwin, Andrew K, Goldberg, Mark S, Goldgar, David E, González-Neira, Anna, Greene, Mark H, Gronwald, Jacek, Guénel, Pascal, Häberle, Lothar, Hahnen, Eric, Haiman, Christopher A, Hake, Christopher R, Hall, Per, Hamann, Ute, Harkness, Elaine F, Heemskerk-Gerritsen, Bernadette AM, and Hillemanns, Peter

Subjects

kConFab Investigators, ABCTB Investigators, EMBRACE Study, GEMO Study Collaborators, Humans, Breast Neoplasms, Genetic Predisposition to Disease, BRCA1 Protein, Case-Control Studies, Linkage Disequilibrium, Mutation, Female, Genome-Wide Association Study, Triple Negative Breast Neoplasms, Human Genome, Cancer, Prevention, Genetics, Breast Cancer, 2.1 Biological and endogenous factors, Developmental Biology, Biological Sciences, Medical and Health Sciences

Abstract

Breast cancer susceptibility variants frequently show heterogeneity in associations by tumor subtype1-3. To identify novel loci, we performed a genome-wide association study including 133,384 breast cancer cases and 113,789 controls, plus 18,908 BRCA1 mutation carriers (9,414 with breast cancer) of European ancestry, using both standard and novel methodologies that account for underlying tumor heterogeneity by estrogen receptor, progesterone receptor and human epidermal growth factor receptor 2 status and tumor grade. We identified 32 novel susceptibility loci (P

Published

2020

11. Assessment of interactions between 205 breast cancer susceptibility loci and 13 established risk factors in relation to breast cancer risk, in the Breast Cancer Association Consortium

Author

Kapoor, Pooja Middha, Lindström, Sara, Behrens, Sabine, Wang, Xiaoliang, Michailidou, Kyriaki, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Dunning, Alison M, Pharoah, Paul DP, Schmidt, Marjanka K, Kraft, Peter, García-Closas, Montserrat, Easton, Douglas F, Milne, Roger L, Chang-Claude, Jenny, Ahearn, Thomas, Andrulis, Irene L, Anton-Culver, Hoda, Arndt, Volker, Aronson, Kristan J, Auer, Paul L, Augustinsson, Annelie, Freeman, Laura E Beane, Beckmann, Matthias W, Benitez, Javier, Bernstein, Leslie, Berrandou, Takiy, Bojesen, Stig E, Brauch, Hiltrud, Brenner, Hermann, Brock, Ian W, Broeks, Annegien, Brooks-Wilson, Angela, Butterbach, Katja, Cai, Qiuyin, Campa, Daniele, Canzian, Federico, Carter, Brian D, Castelao, Jose E, Chanock, Stephen J, Chenevix-Trench, Georgia, Cheng, Ting-Yuan David, Clarke, Christine L, Cordina-Duverger, Emilie, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Dai, James Y, Dite, Gillian S, Earp, H Shelton, Eliassen, A Heather, Eriksson, Mikael, Evans, D Gareth, Fasching, Peter A, Figueroa, Jonine, Flyger, Henrik, Fritschi, Lin, Gabrielson, Marike, Gago-Dominguez, Manuela, Gapstur, Susan M, Gaudet, Mia M, Giles, Graham G, González-Neira, Anna, Grundy, Anne, Guénel, Pascal, Haeberle, Lothar, Haiman, Christopher A, Håkansson, Niclas, Hall, Per, Hamann, Ute, Hankinson, Susan E, Harkness, Elaine F, Harstad, Tricia, He, Wei, Heyworth, Jane, Hoover, Robert N, Hopper, John L, Humphreys, Keith, Hunter, David J, Marrón, Pablo Isidro, John, Esther M, Jones, Michael E, Jung, Audrey, Kaaks, Rudolf, Keeman, Renske, Kitahara, Cari M, Ko, Yon-Dschun, Koutros, Stella, Krüger, Ute, Lambrechts, Diether, Le Marchand, Loic, Lee, Eunjung, Lejbkowicz, Flavio, Linet, Martha, Lissowska, Jolanta, Llaneza, Ana, Lo, Wing-Yee, and Makalic, Enes

Subjects

Genetics, Estrogen, Clinical Research, Cancer, Breast Cancer, Prevention, 2.1 Biological and endogenous factors, Aetiology, Alleles, Breast Neoplasms, Case-Control Studies, Europe, Factor XIII, Female, Gene-Environment Interaction, Genetic Predisposition to Disease, Genome-Wide Association Study, Genotype, Humans, Polymorphism, Single Nucleotide, Receptors, Estrogen, Risk Factors, White People, Breast Cancer Association Consortium, Europeans, Gene-environment interaction, breast cancer, epidemiology, risk factors, single nucleotide polymorphism, Statistics, Public Health and Health Services, Epidemiology

Abstract

BackgroundPrevious gene-environment interaction studies of breast cancer risk have provided sparse evidence of interactions. Using the largest available dataset to date, we performed a comprehensive assessment of potential effect modification of 205 common susceptibility variants by 13 established breast cancer risk factors, including replication of previously reported interactions.MethodsAnalyses were performed using 28 176 cases and 32 209 controls genotyped with iCOGS array and 44 109 cases and 48 145 controls genotyped using OncoArray from the Breast Cancer Association Consortium (BCAC). Gene-environment interactions were assessed using unconditional logistic regression and likelihood ratio tests for breast cancer risk overall and by estrogen-receptor (ER) status. Bayesian false discovery probability was used to assess the noteworthiness of the meta-analysed array-specific interactions.ResultsNoteworthy evidence of interaction at ≤1% prior probability was observed for three single nucleotide polymorphism (SNP)-risk factor pairs. SNP rs4442975 was associated with a greater reduction of risk of ER-positive breast cancer [odds ratio (OR)int = 0.85 (0.78-0.93), Pint = 2.8 x 10-4] and overall breast cancer [ORint = 0.85 (0.78-0.92), Pint = 7.4 x 10-5) in current users of estrogen-progesterone therapy compared with non-users. This finding was supported by replication using OncoArray data of the previously reported interaction between rs13387042 (r2 = 0.93 with rs4442975) and current estrogen-progesterone therapy for overall disease (Pint = 0.004). The two other interactions suggested stronger associations between SNP rs6596100 and ER-negative breast cancer with increasing parity and younger age at first birth.ConclusionsOverall, our study does not suggest strong effect modification of common breast cancer susceptibility variants by established risk factors.

Published

2020

12. Comprehensive multiplexed immune profiling of the ductal carcinoma in situ immune microenvironment regarding subsequent ipsilateral invasive breast cancer risk

Author

Almekinders, Mathilde M., Bismeijer, Tycho, Kumar, Tapsi, Yang, Fei, Thijssen, Bram, van der Linden, Rianne, van Rooijen, Charlotte, Vonk, Shiva, Sun, Baohua, Parra Cuentas, Edwin R., Wistuba, Ignacio I., Krishnamurthy, Savitri, Visser, Lindy L., Seignette, Iris M., Hofland, Ingrid, Sanders, Joyce, Broeks, Annegien, Love, Jason K., Menegaz, Brian, Wessels, Lodewyk, Thompson, Alastair M., de Visser, Karin E., Hooijberg, Erik, Lips, Esther, Futreal, Andrew, and Wesseling, Jelle

Published

2022

13. Genome-wide association and transcriptome studies identify target genes and risk loci for breast cancer.

Author

Ferreira, Manuel A, Gamazon, Eric R, Al-Ejeh, Fares, Aittomäki, Kristiina, Andrulis, Irene L, Anton-Culver, Hoda, Arason, Adalgeir, Arndt, Volker, Aronson, Kristan J, Arun, Banu K, Asseryanis, Ella, Azzollini, Jacopo, Balmaña, Judith, Barnes, Daniel R, Barrowdale, Daniel, Beckmann, Matthias W, Behrens, Sabine, Benitez, Javier, Bermisheva, Marina, Białkowska, Katarzyna, Blomqvist, Carl, Bogdanova, Natalia V, Bojesen, Stig E, Bolla, Manjeet K, Borg, Ake, Brauch, Hiltrud, Brenner, Hermann, Broeks, Annegien, Burwinkel, Barbara, Caldés, Trinidad, Caligo, Maria A, Campa, Daniele, Campbell, Ian, Canzian, Federico, Carter, Jonathan, Carter, Brian D, Castelao, Jose E, Chang-Claude, Jenny, Chanock, Stephen J, Christiansen, Hans, Chung, Wendy K, Claes, Kathleen BM, Clarke, Christine L, EMBRACE Collaborators, GC-HBOC Study Collaborators, GEMO Study Collaborators, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Daly, Mary B, de la Hoya, Miguel, Dennis, Joe, Devilee, Peter, Diez, Orland, Dörk, Thilo, Dunning, Alison M, Dwek, Miriam, Eccles, Diana M, Ejlertsen, Bent, Ellberg, Carolina, Engel, Christoph, Eriksson, Mikael, Fasching, Peter A, Fletcher, Olivia, Flyger, Henrik, Friedman, Eitan, Frost, Debra, Gabrielson, Marike, Gago-Dominguez, Manuela, Ganz, Patricia A, Gapstur, Susan M, Garber, Judy, García-Closas, Montserrat, García-Sáenz, José A, Gaudet, Mia M, Giles, Graham G, Glendon, Gord, Godwin, Andrew K, Goldberg, Mark S, Goldgar, David E, González-Neira, Anna, Greene, Mark H, Gronwald, Jacek, Guénel, Pascal, Haiman, Christopher A, Hall, Per, Hamann, Ute, He, Wei, Heyworth, Jane, Hogervorst, Frans BL, Hollestelle, Antoinette, Hoover, Robert N, Hopper, John L, Hulick, Peter J, Humphreys, Keith, Imyanitov, Evgeny N, ABCTB Investigators, HEBON Investigators, and BCFR Investigators

Subjects

EMBRACE Collaborators, GC-HBOC Study Collaborators, GEMO Study Collaborators, ABCTB Investigators, HEBON Investigators, BCFR Investigators, Humans, Breast Neoplasms, Genetic Predisposition to Disease, Gene Expression Profiling, Quantitative Trait Loci, Female, Genome-Wide Association Study, Prevention, Cancer, Human Genome, Aging, Breast Cancer, Genetics, Biotechnology, 2.1 Biological and endogenous factors

Abstract

Genome-wide association studies (GWAS) have identified more than 170 breast cancer susceptibility loci. Here we hypothesize that some risk-associated variants might act in non-breast tissues, specifically adipose tissue and immune cells from blood and spleen. Using expression quantitative trait loci (eQTL) reported in these tissues, we identify 26 previously unreported, likely target genes of overall breast cancer risk variants, and 17 for estrogen receptor (ER)-negative breast cancer, several with a known immune function. We determine the directional effect of gene expression on disease risk measured based on single and multiple eQTL. In addition, using a gene-based test of association that considers eQTL from multiple tissues, we identify seven (and four) regions with variants associated with overall (and ER-negative) breast cancer risk, which were not reported in previous GWAS. Further investigation of the function of the implicated genes in breast and immune cells may provide insights into the etiology of breast cancer.

Published

2019

14. Publisher Correction: Evidence that breast cancer risk at the 2q35 locus is mediated through IGFBP5 regulation.

Author

Ghoussaini, Maya, Edwards, Stacey L, Michailidou, Kyriaki, Nord, Silje, Cowper-Sal Lari, Richard, Desai, Kinjal, Kar, Siddhartha, Hillman, Kristine M, Kaufmann, Susanne, Glubb, Dylan M, Beesley, Jonathan, Dennis, Joe, Bolla, Manjeet K, Wang, Qin, Dicks, Ed, Guo, Qi, Schmidt, Marjanka K, Shah, Mitul, Luben, Robert, Brown, Judith, Czene, Kamila, Darabi, Hatef, Eriksson, Mikael, Klevebring, Daniel, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, Lambrechts, Diether, Thienpont, Bernard, Neven, Patrick, Wildiers, Hans, Broeks, Annegien, Van't Veer, Laura J, Rutgers, Emiel J Th, Couch, Fergus J, Olson, Janet E, Hallberg, Emily, Vachon, Celine, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Peto, Julian, Dos-Santos-Silva, Isabel, Gibson, Lorna, Nevanlinna, Heli, Muranen, Taru A, Aittomäki, Kristiina, Blomqvist, Carl, Hall, Per, Li, Jingmei, Liu, Jianjun, Humphreys, Keith, Kang, Daehee, Choi, Ji-Yeob, Park, Sue K, Noh, Dong-Young, Matsuo, Keitaro, Ito, Hidemi, Iwata, Hiroji, Yatabe, Yasushi, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Sanchez, Marie, Burwinkel, Barbara, Marme, Frederik, Schneeweiss, Andreas, Sohn, Christof, Wu, Anna H, Tseng, Chiu-Chen, Van Den Berg, David, Stram, Daniel O, Benitez, Javier, Pilar Zamora, M, Perez, Jose Ignacio Arias, Menéndez, Primitiva, Shu, Xiao-Ou, Lu, Wei, Gao, Yu-Tang, Cai, Qiuyin, Cox, Angela, Cross, Simon S, Reed, Malcolm WR, Andrulis, Irene L, Knight, Julia A, Glendon, Gord, Tchatchou, Sandrine, Sawyer, Elinor J, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Haiman, Christopher A, Henderson, Brian E, Schumacher, Fredrick, Le Marchand, Loic, Lindblom, Annika, Margolin, Sara, and Teo, Soo Hwang

Abstract

This corrects the article DOI: 10.1038/ncomms5999.

Published

2018

15. Correction: Publisher Correction: Evidence that breast cancer risk at the 2q35 locus is mediated through IGFBP5 regulation

Author

Ghoussaini, Maya, Edwards, Stacey L, Michailidou, Kyriaki, Nord, Silje, Cowper-Sal·lari, Richard, Desai, Kinjal, Kar, Siddhartha, Hillman, Kristine M, Kaufmann, Susanne, Glubb, Dylan M, Beesley, Jonathan, Dennis, Joe, Bolla, Manjeet K, Wang, Qin, Dicks, Ed, Guo, Qi, Schmidt, Marjanka K, Shah, Mitul, Luben, Robert, Brown, Judith, Czene, Kamila, Darabi, Hatef, Eriksson, Mikael, Klevebring, Daniel, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, Lambrechts, Diether, Thienpont, Bernard, Neven, Patrick, Wildiers, Hans, Broeks, Annegien, Van’t Veer, Laura J, Rutgers, Emiel J Th, Couch, Fergus J, Olson, Janet E, Hallberg, Emily, Vachon, Celine, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Peto, Julian, dos-Santos-Silva, Isabel, Gibson, Lorna, Nevanlinna, Heli, Muranen, Taru A, Aittomäki, Kristiina, Blomqvist, Carl, Hall, Per, Li, Jingmei, Liu, Jianjun, Humphreys, Keith, Kang, Daehee, Choi, Ji-Yeob, Park, Sue K, Noh, Dong-Young, Matsuo, Keitaro, Ito, Hidemi, Iwata, Hiroji, Yatabe, Yasushi, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Sanchez, Marie, Burwinkel, Barbara, Marme, Frederik, Schneeweiss, Andreas, Sohn, Christof, Wu, Anna H, Tseng, Chiu-chen, Van Den Berg, David, Stram, Daniel O, Benitez, Javier, Pilar Zamora, M, Perez, Jose Ignacio Arias, Menéndez, Primitiva, Shu, Xiao-Ou, Lu, Wei, Gao, Yu-Tang, Cai, Qiuyin, Cox, Angela, Cross, Simon S, Reed, Malcolm WR, Andrulis, Irene L, Knight, Julia A, Glendon, Gord, Tchatchou, Sandrine, Sawyer, Elinor J, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Haiman, Christopher A, Henderson, Brian E, Schumacher, Fredrick, Le Marchand, Loic, Lindblom, Annika, Margolin, Sara, and Teo, Soo Hwang

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Breast Cancer, Cancer

Abstract

This corrects the article DOI: 10.1038/ncomms5999.

Published

2018

16. Characterization of discordance between mismatch repair deficiency and microsatellite instability testing may prevent inappropriate treatment with immunotherapy

Author

Geurts, Birgit S, primary, Zeverijn, Laurien J, additional, van Berge Henegouwen, Jade M, additional, van der Wijngaart, Hanneke, additional, Hoes, Louisa R, additional, de Wit, Gijs F, additional, Spiekman, Ilse AC, additional, Battaglia, Thomas W, additional, van Beek, Daphne M, additional, Roepman, Paul, additional, Jansen, Anne ML, additional, de Leng, Wendy WJ, additional, Broeks, Annegien, additional, Labots, Mariette, additional, van Herpen, Carla ML, additional, Gelderblom, Hans, additional, Verheul, Henk MW, additional, Snaebjornsson, Petur, additional, and Voest, Emile E, additional

Published

2024

17. Characterization of the Tumor Microenvironment of De Novo Oligometastatic Breast Cancer in a Nationwide Cohort

Author

Steenbruggen, Tessa G., Wolf, Denise M., Thijssen, Bram, Sanders, Joyce, Cornelissen, Sten, Salgado, Roberto, Mittempergher, Lorenza, Bhaskaran, Rajith, Broeks, Annegien, Lips, Esther H., Siesling, Sabine, Sonke, Gabe S., Horlings, Hugo M., and van ’t Veer, Laura J.

Published

2023

18. An ex vivo tumor fragment platform to dissect response to PD-1 blockade in cancer

Author

Voabil, Paula, de Bruijn, Marjolein, Roelofsen, Lisanne M., Hendriks, Sanne H., Brokamp, Simone, van den Braber, Marlous, Broeks, Annegien, Sanders, Joyce, Herzig, Petra, Zippelius, Alfred, Blank, Christian, Hartemink, Koen J., Monkhorst, Kim, Haanen, John B.A.G., Schumacher, Ton N., and Thommen, Daniela S.

Subjects

Oncology, Experimental, Tumors -- Models -- Care and treatment -- Patient outcomes, Organs, Culture of -- Usage, Immune response -- Health aspects -- Research, Immunotherapy -- Patient outcomes, Cancer -- Research, Biological sciences, Health

Abstract

Inhibitors of the PD-1-PD-L1 axis have been approved as therapy for many human cancers. In spite of the evidence for their widespread clinical activity, little is known about the immunological alterations that occur in human cancer tissue after PD-1 blockade. We developed and employed a patient-derived tumor fragment platform to dissect the early immunological response of human tumor tissue to ex vivo PD-1 blockade. We observed that the capacity of immune cells to be reactivated ex vivo was predictive of clinical response, and perturbation analyses identified tumor-resident T cells as a key component of this immunological response. In addition, through combined analysis of baseline properties and immune response capacity, we identified a new subgroup of infiltrated tumors that lacks the capacity to respond to PD-1 blockade. Finally, the baseline presence of tertiary lymphoid structures and their components correlated with the capacity of cancers to undergo intratumoral immune cell reactivation. An ex vivo platform of patient-derived tumor fragments enables the assessment of intratumoral immune reactivation after PD-1 blockade that is predictive of clinical outcomes in patients with cancer., Author(s): Paula Voabil [sup.1] , Marjolein de Bruijn [sup.2] , Lisanne M. Roelofsen [sup.2] , Sanne H. Hendriks [sup.2] [sup.7] , Simone Brokamp [sup.2] , Marlous van den Braber [sup.2] [...]

Published

2021

19. PHIP - a novel candidate breast cancer susceptibility locus on 6q14.1

Author

Jiao, Xiang, Aravidis, Christos, Marikkannu, Rajeshwari, Rantala, Johanna, Picelli, Simone, Adamovic, Tatjana, Liu, Tao, Maguire, Paula, Kremeyer, Barbara, Luo, Liping, von Holst, Susanna, Kontham, Vinaykumar, Thutkawkorapin, Jessada, Margolin, Sara, Du, Quan, Lundin, Johanna, Michailidou, Kyriaki, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Lush, Michael, Ambrosone, Christine B, Andrulis, Irene L, Anton-Culver, Hoda, Antonenkova, Natalia N, Arndt, Volker, Beckmann, Matthias W, Blomqvist, Carl, Blot, William, Boeckx, Bram, Bojesen, Stig E, Bonanni, Bernardo, Brand, Judith S, Brauch, Hiltrud, Brenner, Hermann, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Cai, Qiuyin, Chang-Claude, Jenny, Couch, Fergus J, Cox, Angela, Cross, Simon S, Deming-Halverson, Sandra L, Devilee, Peter, dos-Santos-Silva, Isabel, Dörk, Thilo, Eriksson, Mikael, Fasching, Peter A, Figueroa, Jonine, Flesch-Janys, Dieter, Flyger, Henrik, Gabrielson, Marike, García-Closas, Montserrat, Giles, Graham G, González-Neira, Anna, Guénel, Pascal, Guo, Qi, Gündert, Melanie, Haiman, Christopher A, Hallberg, Emily, Hamann, Ute, Harrington, Patricia, Hooning, Maartje J, Hopper, John L, Huang, Guanmengqian, Jakubowska, Anna, Jones, Michael E, Kerin, Michael J, Kosma, Veli-Matti, Kristensen, Vessela N, Lambrechts, Diether, Le Marchand, Loic, Lubinski, Jan, Mannermaa, Arto, Martens, John WM, Meindl, Alfons, Milne, Roger L, Mulligan, Anna Marie, Neuhausen, Susan L, Nevanlinna, Heli, Peto, Julian, Pylkäs, Katri, Radice, Paolo, Rhenius, Valerie, Sawyer, Elinor J, Schmidt, Marjanka K, Schmutzler, Rita K, Seynaeve, Caroline, Shah, Mitul, Simard, Jacques, Southey, Melissa C, Swerdlow, Anthony J, Truong, Thérèse, Wendt, Camilla, Winqvist, Robert, Zheng, Wei, Benitez, Javier, Dunning, Alison M, and Pharoah, Paul DP

Subjects

Cancer, Prevention, Breast Cancer, Genetics, Human Genome, Genetic Testing, 2.1 Biological and endogenous factors, Aetiology, familial breast cancer, linkage analysis, risk haplotype, sequencing, NBCS Collaborators, kConFab/AOCS Investigators, Oncology and Carcinogenesis

Abstract

Most non-BRCA1/2 breast cancer families have no identified genetic cause. We used linkage and haplotype analyses in familial and sporadic breast cancer cases to identify a susceptibility locus on chromosome 6q. Two independent genome-wide linkage analysis studies suggested a 3 Mb locus on chromosome 6q and two unrelated Swedish families with a LOD >2 together seemed to share a haplotype in 6q14.1. We hypothesized that this region harbored a rare high-risk founder allele contributing to breast cancer in these two families. Sequencing of DNA and RNA from the two families did not detect any pathogenic mutations. Finally, 29 SNPs in the region were analyzed in 44,214 cases and 43,532 controls from BCAC, and the original haplotypes in the two families were suggested as low-risk alleles for European and Swedish women specifically. There was also some support for one additional independent moderate-risk allele in Swedish familial samples. The results were consistent with our previous findings in familial breast cancer and supported a breast cancer susceptibility locus at 6q14.1 around the PHIP gene.

Published

2017

20. Association analysis identifies 65 new breast cancer risk loci

Author

Michailidou, Kyriaki, Lindström, Sara, Dennis, Joe, Beesley, Jonathan, Hui, Shirley, Kar, Siddhartha, Lemaçon, Audrey, Soucy, Penny, Glubb, Dylan, Rostamianfar, Asha, Bolla, Manjeet K, Wang, Qin, Tyrer, Jonathan, Dicks, Ed, Lee, Andrew, Wang, Zhaoming, Allen, Jamie, Keeman, Renske, Eilber, Ursula, French, Juliet D, Qing Chen, Xiao, Fachal, Laura, McCue, Karen, McCart Reed, Amy E, Ghoussaini, Maya, Carroll, Jason S, Jiang, Xia, Finucane, Hilary, Adams, Marcia, Adank, Muriel A, Ahsan, Habibul, Aittomäki, Kristiina, Anton-Culver, Hoda, Antonenkova, Natalia N, Arndt, Volker, Aronson, Kristan J, Arun, Banu, Auer, Paul L, Bacot, François, Barrdahl, Myrto, Baynes, Caroline, Beckmann, Matthias W, Behrens, Sabine, Benitez, Javier, Bermisheva, Marina, Bernstein, Leslie, Blomqvist, Carl, Bogdanova, Natalia V, Bojesen, Stig E, Bonanni, Bernardo, Børresen-Dale, Anne-Lise, Brand, Judith S, Brauch, Hiltrud, Brennan, Paul, Brenner, Hermann, Brinton, Louise, Broberg, Per, Brock, Ian W, Broeks, Annegien, Brooks-Wilson, Angela, Brucker, Sara Y, Brüning, Thomas, Burwinkel, Barbara, Butterbach, Katja, Cai, Qiuyin, Cai, Hui, Caldés, Trinidad, Canzian, Federico, Carracedo, Angel, Carter, Brian D, Castelao, Jose E, Chan, Tsun L, David Cheng, Ting-Yuan, Seng Chia, Kee, Choi, Ji-Yeob, Christiansen, Hans, Clarke, Christine L, Collée, Margriet, Conroy, Don M, Cordina-Duverger, Emilie, Cornelissen, Sten, Cox, David G, Cox, Angela, Cross, Simon S, Cunningham, Julie M, Czene, Kamila, Daly, Mary B, Devilee, Peter, Doheny, Kimberly F, Dörk, Thilo, dos-Santos-Silva, Isabel, Dumont, Martine, Durcan, Lorraine, Dwek, Miriam, Eccles, Diana M, Ekici, Arif B, Eliassen, A Heather, Ellberg, Carolina, Elvira, Mingajeva, and Engel, Christoph

Subjects

Cancer, Asia, Asian People, Binding Sites, Breast Neoplasms, Computer Simulation, Europe, Female, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Multifactorial Inheritance, Polymorphism, Single Nucleotide, Regulatory Sequences, Nucleic Acid, Risk Assessment, Transcription Factors, White People, NBCS Collaborators, ABCTB Investigators, ConFab/AOCS Investigators, General Science & Technology

Abstract

Breast cancer risk is influenced by rare coding variants in susceptibility genes, such as BRCA1, and many common, mostly non-coding variants. However, much of the genetic contribution to breast cancer risk remains unknown. Here we report the results of a genome-wide association study of breast cancer in 122,977 cases and 105,974 controls of European ancestry and 14,068 cases and 13,104 controls of East Asian ancestry. We identified 65 new loci that are associated with overall breast cancer risk at P

Published

2017

21. BRCA2 Hypomorphic Missense Variants Confer Moderate Risks of Breast Cancer

Author

Shimelis, Hermela, Mesman, Romy LS, Von Nicolai, Catharina, Ehlen, Asa, Guidugli, Lucia, Martin, Charlotte, Calléja, Fabienne MGR, Meeks, Huong, Hallberg, Emily, Hinton, Jamie, Lilyquist, Jenna, Hu, Chunling, Aalfs, Cora M, Aittomäki, Kristiina, Andrulis, Irene, Anton-Culver, Hoda, Arndt, Volker, Beckmann, Matthias W, Benitez, Javier, Bogdanova, Natalia V, Bojesen, Stig E, Bolla, Manjeet K, Borresen-Dale, Anne-Lise, Brauch, Hiltrud, Brennan, Paul, Brenner, Hermann, Broeks, Annegien, Brouwers, Barbara, Brüning, Thomas, Burwinkel, Barbara, Chang-Claude, Jenny, Chenevix-Trench, Georgia, Cheng, Ching-Yu, Choi, Ji-Yeob, Collée, J Margriet, Cox, Angela, Cross, Simon S, Czene, Kamila, Darabi, Hatef, Dennis, Joe, Dörk, Thilo, dos-Santos-Silva, Isabel, Dunning, Alison M, Fasching, Peter A, Figueroa, Jonine, Flyger, Henrik, García-Closas, Montserrat, Giles, Graham G, Glendon, Gord, Guénel, Pascal, Haiman, Christopher A, Hall, Per, Hamann, Ute, Hartman, Mikael, Hogervorst, Frans B, Hollestelle, Antoinette, Hopper, John L, Ito, Hidemi, Jakubowska, Anna, Kang, Daehee, Kosma, Veli-Matti, Kristensen, Vessela, Lai, Kah-Nyin, Lambrechts, Diether, Le Marchand, Loic, Li, Jingmei, Lindblom, Annika, Lophatananon, Artitaya, Lubinski, Jan, Machackova, Eva, Mannermaa, Arto, Margolin, Sara, Marme, Frederik, Matsuo, Keitaro, Miao, Hui, Michailidou, Kyriaki, Milne, Roger L, Muir, Kenneth, Neuhausen, Susan L, Nevanlinna, Heli, Olson, Janet E, Olswold, Curtis, Oosterwijk, Jan JC, Osorio, Ana, Peterlongo, Paolo, Peto, Julian, Pharoah, Paul DP, Pylkäs, Katri, Radice, Paolo, Rashid, Muhammad Usman, Rhenius, Valerie, Rudolph, Anja, Sangrajrang, Suleeporn, Sawyer, Elinor J, Schmidt, Marjanka K, Schoemaker, Minouk J, Seynaeve, Caroline, Shah, Mitul, Shen, Chen-Yang, and Shrubsole, Martha

Subjects

Breast Cancer, Cancer, Genetics, 2.1 Biological and endogenous factors, Aetiology, Aged, Amino Acid Substitution, Animals, BRCA2 Protein, Breast Neoplasms, Case-Control Studies, Female, Genotype, Germ-Line Mutation, Humans, Mice, Mutation, Missense, Risk, for kConFab/AOCS Investigators, for NBCS Collaborators, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

Breast cancer risks conferred by many germline missense variants in the BRCA1 and BRCA2 genes, often referred to as variants of uncertain significance (VUS), have not been established. In this study, associations between 19 BRCA1 and 33 BRCA2 missense substitution variants and breast cancer risk were investigated through a breast cancer case-control study using genotyping data from 38 studies of predominantly European ancestry (41,890 cases and 41,607 controls) and nine studies of Asian ancestry (6,269 cases and 6,624 controls). The BRCA2 c.9104A>C, p.Tyr3035Ser (OR = 2.52; P = 0.04), and BRCA1 c.5096G>A, p.Arg1699Gln (OR = 4.29; P = 0.009) variant were associated with moderately increased risks of breast cancer among Europeans, whereas BRCA2 c.7522G>A, p.Gly2508Ser (OR = 2.68; P = 0.004), and c.8187G>T, p.Lys2729Asn (OR = 1.4; P = 0.004) were associated with moderate and low risks of breast cancer among Asians. Functional characterization of the BRCA2 variants using four quantitative assays showed reduced BRCA2 activity for p.Tyr3035Ser compared with wild-type. Overall, our results show how BRCA2 missense variants that influence protein function can confer clinically relevant, moderately increased risks of breast cancer, with potential implications for risk management guidelines in women with these specific variants. Cancer Res; 77(11); 2789-99. ©2017 AACR.

Published

2017

22. Association of breast cancer risk with genetic variants showing differential allelic expression: Identification of a novel breast cancer susceptibility locus at 4q21

Author

Hamdi, Yosr, Soucy, Penny, Adoue, Véronique, Michailidou, Kyriaki, Canisius, Sander, Lemaçon, Audrey, Droit, Arnaud, Andrulis, Irene L, Anton-Culver, Hoda, Arndt, Volker, Baynes, Caroline, Blomqvist, Carl, Bogdanova, Natalia V, Bojesen, Stig E, Bolla, Manjeet K, Bonanni, Bernardo, Borresen-Dale, Anne-Lise, Brand, Judith S, Brauch, Hiltrud, Brenner, Hermann, Broeks, Annegien, Burwinkel, Barbara, Chang-Claude, Jenny, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Darabi, Hatef, Dennis, Joe, Devilee, Peter, Dörk, Thilo, Dos-Santos-Silva, Isabel, Eriksson, Mikael, Fasching, Peter A, Figueroa, Jonine, Flyger, Henrik, García-Closas, Montserrat, Giles, Graham G, Goldberg, Mark S, González-Neira, Anna, Grenaker-Alnæs, Grethe, Guénel, Pascal, Haeberle, Lothar, Haiman, Christopher A, Hamann, Ute, Hallberg, Emily, Hooning, Maartje J, Hopper, John L, Jakubowska, Anna, Jones, Michael, Kabisch, Maria, Kataja, Vesa, Lambrechts, Diether, Marchand, Loic Le, Lindblom, Annika, Lubinski, Jan, Mannermaa, Arto, Maranian, Mel, Margolin, Sara, Marme, Frederik, Milne, Roger L, Neuhausen, Susan L, Nevanlinna, Heli, Neven, Patrick, Olswold, Curtis, Peto, Julian, Plaseska-Karanfilska, Dijana, Pylkäs, Katri, Radice, Paolo, Rudolph, Anja, Sawyer, Elinor J, Schmidt, Marjanka K, Shu, Xiao-Ou, Southey, Melissa C, Swerdlow, Anthony, Tollenaar, Rob AEM, Tomlinson, Ian, Torres, Diana, Truong, Thérèse, Vachon, Celine, Van Den Ouweland, Ans MW, Wang, Qin, Winqvist, Robert, Investigators, kConFab AOCS, Zheng, Wei, Benitez, Javier, Chenevix-Trench, Georgia, Dunning, Alison M, Pharoah, Paul DP, Kristensen, Vessela, Hall, Per, Easton, Douglas F, Pastinen, Tomi, Nord, Silje, and Simard, Jacques

Subjects

Human Genome, Cancer, Breast Cancer, Prevention, Genetics, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, Biomarkers, Tumor, Breast Neoplasms, Canada, Carrier Proteins, Case-Control Studies, Chromosomes, Human, Pair 4, DNA Helicases, Europe, Female, Gene Frequency, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Linkage Disequilibrium, Mitochondrial Proteins, Odds Ratio, Phenotype, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Risk Assessment, Risk Factors, breast cancer, genetic susceptibility, association studies, differential allelic expression, cis-regulatory variants, NBCS Collaborators, kConFab/AOCS Investigators, Oncology and Carcinogenesis

Abstract

There are significant inter-individual differences in the levels of gene expression. Through modulation of gene expression, cis-acting variants represent an important source of phenotypic variation. Consequently, cis-regulatory SNPs associated with differential allelic expression are functional candidates for further investigation as disease-causing variants. To investigate whether common variants associated with differential allelic expression were involved in breast cancer susceptibility, a list of genes was established on the basis of their involvement in cancer related pathways and/or mechanisms. Thereafter, using data from a genome-wide map of allelic expression associated SNPs, 313 genetic variants were selected and their association with breast cancer risk was then evaluated in 46,451 breast cancer cases and 42,599 controls of European ancestry ascertained from 41 studies participating in the Breast Cancer Association Consortium. The associations were evaluated with overall breast cancer risk and with estrogen receptor negative and positive disease. One novel breast cancer susceptibility locus on 4q21 (rs11099601) was identified (OR = 1.05, P = 5.6x10-6). rs11099601 lies in a 135 kb linkage disequilibrium block containing several genes, including, HELQ, encoding the protein HEL308 a DNA dependant ATPase and DNA Helicase involved in DNA repair, MRPS18C encoding the Mitochondrial Ribosomal Protein S18C and FAM175A (ABRAXAS), encoding a BRCA1 BRCT domain-interacting protein involved in DNA damage response and double-strand break (DSB) repair. Expression QTL analysis in breast cancer tissue showed rs11099601 to be associated with HELQ (P = 8.28x10-14), MRPS18C (P = 1.94x10-27) and FAM175A (P = 3.83x10-3), explaining about 20%, 14% and 1%, respectively of the variance inexpression of these genes in breast carcinomas.

Published

2016

23. PALB2, CHEK2 and ATM rare variants and cancer risk: data from COGS

Author

Southey, Melissa C, Goldgar, David E, Winqvist, Robert, Pylkäs, Katri, Couch, Fergus, Tischkowitz, Marc, Foulkes, William D, Dennis, Joe, Michailidou, Kyriaki, van Rensburg, Elizabeth J, Heikkinen, Tuomas, Nevanlinna, Heli, Hopper, John L, Dörk, Thilo, Claes, Kathleen BM, Reis-Filho, Jorge, Teo, Zhi Ling, Radice, Paolo, Catucci, Irene, Peterlongo, Paolo, Tsimiklis, Helen, Odefrey, Fabrice A, Dowty, James G, Schmidt, Marjanka K, Broeks, Annegien, Hogervorst, Frans B, Verhoef, Senno, Carpenter, Jane, Clarke, Christine, Scott, Rodney J, Fasching, Peter A, Haeberle, Lothar, Ekici, Arif B, Beckmann, Matthias W, Peto, Julian, dos-Santos-Silva, Isabel, Fletcher, Olivia, Johnson, Nichola, Bolla, Manjeet K, Sawyer, Elinor J, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Marme, Federik, Burwinkel, Barbara, Yang, Rongxi, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Sanchez, Marie, Bojesen, Stig, Nielsen, Sune F, Flyger, Henrik, Benitez, Javier, Zamora, M Pilar, Perez, Jose Ignacio Arias, Menéndez, Primitiva, Anton-Culver, Hoda, Neuhausen, Susan, Ziogas, Argyrios, Clarke, Christina A, Brenner, Hermann, Arndt, Volker, Stegmaier, Christa, Brauch, Hiltrud, Brüning, Thomas, Ko, Yon-Dschun, Muranen, Taru A, Aittomäki, Kristiina, Blomqvist, Carl, Bogdanova, Natalia V, Antonenkova, Natalia N, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kataja, Vesa, Kosma, Veli-Matti, Hartikainen, Jaana M, Spurdle, Amanda B, Investigators, kConFab, Group, Australian Ovarian Cancer Study, Wauters, Els, Smeets, Dominiek, Beuselinck, Benoit, Floris, Giuseppe, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Olson, Janet E, Vachon, Celine, Pankratz, Vernon S, McLean, Catriona, Haiman, Christopher A, Henderson, Brian E, Schumacher, Fredrick, Le Marchand, Loic, Kristensen, Vessela, Alnæs, Grethe Grenaker, and Zheng, Wei

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Oncology and Carcinogenesis, Ovarian Cancer, Aging, Breast Cancer, Cancer, Women's Health, Rare Diseases, Prevention, Urologic Diseases, Aetiology, 2.1 Biological and endogenous factors, Ataxia Telangiectasia Mutated Proteins, Breast Neoplasms, Case-Control Studies, Checkpoint Kinase 2, Fanconi Anemia Complementation Group N Protein, Female, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Male, Mutation, Nuclear Proteins, Ovarian Neoplasms, Prostatic Neoplasms, Risk, Tumor Suppressor Proteins, Australian Ovarian Cancer Study Group, Cancer: breast, Cancer: ovary, Cancer: prostate, cancer predisposition, Medical and Health Sciences, Genetics & Heredity, Clinical sciences

Abstract

BackgroundThe rarity of mutations in PALB2, CHEK2 and ATM make it difficult to estimate precisely associated cancer risks. Population-based family studies have provided evidence that at least some of these mutations are associated with breast cancer risk as high as those associated with rare BRCA2 mutations. We aimed to estimate the relative risks associated with specific rare variants in PALB2, CHEK2 and ATM via a multicentre case-control study.MethodsWe genotyped 10 rare mutations using the custom iCOGS array: PALB2 c.1592delT, c.2816T>G and c.3113G>A, CHEK2 c.349A>G, c.538C>T, c.715G>A, c.1036C>T, c.1312G>T, and c.1343T>G and ATM c.7271T>G. We assessed associations with breast cancer risk (42 671 cases and 42 164 controls), as well as prostate (22 301 cases and 22 320 controls) and ovarian (14 542 cases and 23 491 controls) cancer risk, for each variant.ResultsFor European women, strong evidence of association with breast cancer risk was observed for PALB2 c.1592delT OR 3.44 (95% CI 1.39 to 8.52, p=7.1×10-5), PALB2 c.3113G>A OR 4.21 (95% CI 1.84 to 9.60, p=6.9×10-8) and ATM c.7271T>G OR 11.0 (95% CI 1.42 to 85.7, p=0.0012). We also found evidence of association with breast cancer risk for three variants in CHEK2, c.349A>G OR 2.26 (95% CI 1.29 to 3.95), c.1036C>T OR 5.06 (95% CI 1.09 to 23.5) and c.538C>T OR 1.33 (95% CI 1.05 to 1.67) (p≤0.017). Evidence for prostate cancer risk was observed for CHEK2 c.1343T>G OR 3.03 (95% CI 1.53 to 6.03, p=0.0006) for African men and CHEK2 c.1312G>T OR 2.21 (95% CI 1.06 to 4.63, p=0.030) for European men. No evidence of association with ovarian cancer was found for any of these variants.ConclusionsThis report adds to accumulating evidence that at least some variants in these genes are associated with an increased risk of breast cancer that is clinically important.

Published

2016

24. Characterization of discordance between mismatch repair deficiency and microsatellite instability testing may prevent inappropriate treatment with immunotherapy

Author

Pathologie Moleculair, Pathologie Pathologen staf, Cancer, Externen Med. Onco, Geurts, Birgit S, Zeverijn, Laurien J, van Berge Henegouwen, Jade M, van der Wijngaart, Hanneke, Hoes, Louisa R, de Wit, Gijs F, Spiekman, Ilse Ac, Battaglia, Thomas W, van Beek, Daphne M, Roepman, Paul, Jansen, Anne Ml, de Leng, Wendy Wj, Broeks, Annegien, Labots, Mariette, van Herpen, Carla Ml, Gelderblom, Hans, Verheul, Henk Mw, Snaebjornsson, Petur, Voest, Emile E, Pathologie Moleculair, Pathologie Pathologen staf, Cancer, Externen Med. Onco, Geurts, Birgit S, Zeverijn, Laurien J, van Berge Henegouwen, Jade M, van der Wijngaart, Hanneke, Hoes, Louisa R, de Wit, Gijs F, Spiekman, Ilse Ac, Battaglia, Thomas W, van Beek, Daphne M, Roepman, Paul, Jansen, Anne Ml, de Leng, Wendy Wj, Broeks, Annegien, Labots, Mariette, van Herpen, Carla Ml, Gelderblom, Hans, Verheul, Henk Mw, Snaebjornsson, Petur, and Voest, Emile E

Published

2024

25. A pan-cancer analysis of the microbiome in metastatic cancer

Author

CMM, CMM Groep Van Mil, Battaglia, Thomas W., Mimpen, Iris L., Traets, Joleen J.H., van Hoeck, Arne, Zeverijn, Laurien J., Geurts, Birgit S., de Wit, Gijs F., Noë, Michaël, Hofland, Ingrid, Vos, Joris L., Cornelissen, Sten, Alkemade, Maartje, Broeks, Annegien, Zuur, Charlotte L., Cuppen, Edwin, Wessels, Lodewyk, van de Haar, Joris, Voest, Emile, CMM, CMM Groep Van Mil, Battaglia, Thomas W., Mimpen, Iris L., Traets, Joleen J.H., van Hoeck, Arne, Zeverijn, Laurien J., Geurts, Birgit S., de Wit, Gijs F., Noë, Michaël, Hofland, Ingrid, Vos, Joris L., Cornelissen, Sten, Alkemade, Maartje, Broeks, Annegien, Zuur, Charlotte L., Cuppen, Edwin, Wessels, Lodewyk, van de Haar, Joris, and Voest, Emile

Published

2024

26. Long-term outcomes of young, node-negative, chemotherapy-naïve, triple-negative breast cancer patients according to BRCA1 status

Author

Pathologie, Cancer, Pathologie Pathologen staf, Wang, Yuwei, Dackus, Gwen M H E, Rosenberg, Efraim H, Cornelissen, Sten, de Boo, Leonora W, Broeks, Annegien, Brugman, Wim, Chan, Terry W S, van Diest, Paul J, Hauptmann, Michael, Ter Hoeve, Natalie D, Isaeva, Olga I, de Jong, Vincent M T, Jóźwiak, Katarzyna, Kluin, Roelof J C, Kok, Marleen, Koop, Esther, Nederlof, Petra M, Opdam, Mark, Schouten, Philip C, Siesling, Sabine, van Steenis, Charlaine, Voogd, Adri C, Vreuls, Willem, Salgado, Roberto F, Linn, Sabine C, Schmidt, Marjanka K, Pathologie, Cancer, Pathologie Pathologen staf, Wang, Yuwei, Dackus, Gwen M H E, Rosenberg, Efraim H, Cornelissen, Sten, de Boo, Leonora W, Broeks, Annegien, Brugman, Wim, Chan, Terry W S, van Diest, Paul J, Hauptmann, Michael, Ter Hoeve, Natalie D, Isaeva, Olga I, de Jong, Vincent M T, Jóźwiak, Katarzyna, Kluin, Roelof J C, Kok, Marleen, Koop, Esther, Nederlof, Petra M, Opdam, Mark, Schouten, Philip C, Siesling, Sabine, van Steenis, Charlaine, Voogd, Adri C, Vreuls, Willem, Salgado, Roberto F, Linn, Sabine C, and Schmidt, Marjanka K

Published

2024

27. Interferon-gamma signature as prognostic and predictive marker in macroscopic stage III melanoma

Author

Pathologie Pathologen staf, Cancer, MS Medische Oncologie, Infection & Immunity, Versluis, Judith M, Blankenstein, Stephanie A, Dimitriadis, Petros, Wilmott, James S, Elens, Robert, Blokx, Willeke A M, van Houdt, Winan, Menzies, Alexander Maxwell, Schrage, Yvonne M, Wouters, Michel W J M, Sanders, Joyce, Broeks, Annegien, Scolyer, Richard A, Suijkerbuijk, Karijn P M, Long, Georgina V, Akkooi, Alexander C J van, Blank, Christian U, Pathologie Pathologen staf, Cancer, MS Medische Oncologie, Infection & Immunity, Versluis, Judith M, Blankenstein, Stephanie A, Dimitriadis, Petros, Wilmott, James S, Elens, Robert, Blokx, Willeke A M, van Houdt, Winan, Menzies, Alexander Maxwell, Schrage, Yvonne M, Wouters, Michel W J M, Sanders, Joyce, Broeks, Annegien, Scolyer, Richard A, Suijkerbuijk, Karijn P M, Long, Georgina V, Akkooi, Alexander C J van, and Blank, Christian U

Published

2024

28. Spatial relationships in the urothelial and head and neck tumor microenvironment predict response to combination immune checkpoint inhibitors

Author

Gil Jimenez, A. (author), van Dijk, Nick (author), Vos, Joris L. (author), Lubeck, Yoni (author), van Montfoort, Maurits L. (author), Peters, Dennis (author), Hooijberg, Erik (author), Broeks, Annegien (author), Wessels, L.F.A. (author), Gil Jimenez, A. (author), van Dijk, Nick (author), Vos, Joris L. (author), Lubeck, Yoni (author), van Montfoort, Maurits L. (author), Peters, Dennis (author), Hooijberg, Erik (author), Broeks, Annegien (author), and Wessels, L.F.A. (author)

Abstract

Immune checkpoint inhibitors (ICI) can achieve remarkable responses in urothelial cancer (UC), which may depend on tumor microenvironment (TME) characteristics. However, the relationship between the TME, usually characterized by immune cell density, and response to ICI is unclear. Here, we quantify the TME immune cell densities and spatial relationships (SRs) of 24 baseline UC samples, obtained before pre-operative combination ICI treatment, using multiplex immunofluorescence. We describe SRs by approximating the first nearest-neighbor distance distribution with a Weibull distribution and evaluate the association between TME metrics and ipilimumab+nivolumab response. Immune cell density does not discriminate between response groups. However, the Weibull SR metrics of CD8+ T cells or macrophages to their closest cancer cell positively associate with response. CD8+ T cells close to B cells are characteristic of non-response. We validate our SR response associations in a combination ICI cohort of head and neck tumors. Our data confirm that SRs, in contrast to density metrics, are strong biomarkers of response to pre-operative combination ICIs., Pattern Recognition and Bioinformatics

Published

2024

29. Evidence that the 5p12 Variant rs10941679 Confers Susceptibility to Estrogen-Receptor-Positive Breast Cancer through FGF10 and MRPS30 Regulation

Author

Ghoussaini, Maya, French, Juliet D, Michailidou, Kyriaki, Nord, Silje, Beesley, Jonathan, Canisus, Sander, Hillman, Kristine M, Kaufmann, Susanne, Sivakumaran, Haran, Marjaneh, Moradi, Lee, Jason S, Dennis, Joe, Bolla, Manjeet K, Wang, Qin, Dicks, Ed, Milne, Roger L, Hopper, John L, Southey, Melissa C, Schmidt, Marjanka K, Broeks, Annegien, Muir, Kenneth, Lophatananon, Artitaya, Fasching, Peter A, Beckmann, Matthias W, Fletcher, Olivia, Johnson, Nichola, Sawyer, Elinor J, Tomlinson, Ian, Burwinkel, Barbara, Marme, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Flyger, Henrik, Benitez, Javier, González-Neira, Anna, Alonso, M Rosario, Pita, Guillermo, Neuhausen, Susan L, Anton-Culver, Hoda, Brenner, Hermann, Arndt, Volker, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Hamann, Ute, Tessier, Daniel C, Vincent, Daniel, Nevanlinna, Heli, Khan, Sofia, Matsuo, Keitaro, Ito, Hidemi, Dörk, Thilo, Bogdanova, Natalia V, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kosma, Veli-Matti, Investigators, kConFab AOCS, Wu, Anna H, Van Den Berg, David, Lambrechts, Diether, Floris, Giuseppe, Chang-Claude, Jenny, Rudolph, Anja, Radice, Paolo, Barile, Monica, Couch, Fergus J, Hallberg, Emily, Giles, Graham G, Haiman, Christopher A, Le Marchand, Loic, Goldberg, Mark S, Teo, Soo H, Yip, Cheng Har, Borresen-Dale, Anne-Lise, Collaborators, NBCS, Zheng, Wei, Cai, Qiuyin, Winqvist, Robert, Pylkäs, Katri, Andrulis, Irene L, Devilee, Peter, Tollenaar, Rob AEM, García-Closas, Montserrat, Figueroa, Jonine, Hall, Per, Czene, Kamila, Brand, Judith S, Darabi, Hatef, Eriksson, Mikael, Hooning, Maartje J, Koppert, Linetta B, Li, Jingmei, Shu, Xiao-Ou, Zheng, Ying, Cox, Angela, Cross, Simon S, Shah, Mitul, and Rhenius, Valerie

Subjects

Prevention, Genetics, Cancer, Breast Cancer, Human Genome, 2.1 Biological and endogenous factors, Aetiology, Alleles, Breast Neoplasms, Case-Control Studies, Cell Line, Tumor, Chromosomes, Human, Pair 5, Enhancer Elements, Genetic, Fibroblast Growth Factor 10, Genetic Predisposition to Disease, Haplotypes, Humans, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Quantitative Trait Loci, Receptor, Fibroblast Growth Factor, Type 2, Receptors, Estrogen, kConFab/AOCS Investigators, NBCS Collaborators, Biological Sciences, Medical and Health Sciences, Genetics & Heredity

Abstract

Genome-wide association studies (GWASs) have revealed increased breast cancer risk associated with multiple genetic variants at 5p12. Here, we report the fine mapping of this locus using data from 104,660 subjects from 50 case-control studies in the Breast Cancer Association Consortium (BCAC). With data for 3,365 genotyped and imputed SNPs across a 1 Mb region (positions 44,394,495-45,364,167; NCBI build 37), we found evidence for at least three independent signals: the strongest signal, consisting of a single SNP rs10941679, was associated with risk of estrogen-receptor-positive (ER+) breast cancer (per-g allele OR ER+ = 1.15; 95% CI 1.13-1.18; p = 8.35 × 10-30). After adjustment for rs10941679, we detected signal 2, consisting of 38 SNPs more strongly associated with ER-negative (ER-) breast cancer (lead SNP rs6864776: per-a allele OR ER- = 1.10; 95% CI 1.05-1.14; p conditional = 1.44 × 10-12), and a single signal 3 SNP (rs200229088: per-t allele OR ER+ = 1.12; 95% CI 1.09-1.15; p conditional = 1.12 × 10-05). Expression quantitative trait locus analysis in normal breast tissues and breast tumors showed that the g (risk) allele of rs10941679 was associated with increased expression of FGF10 and MRPS30. Functional assays demonstrated that SNP rs10941679 maps to an enhancer element that physically interacts with the FGF10 and MRPS30 promoter regions in breast cancer cell lines. FGF10 is an oncogene that binds to FGFR2 and is overexpressed in ∼10% of human breast cancers, whereas MRPS30 plays a key role in apoptosis. These data suggest that the strongest signal of association at 5p12 is mediated through coordinated activation of FGF10 and MRPS30, two candidate genes for breast cancer pathogenesis.

Published

2016

30. Fine‐scale mapping of 8q24 locus identifies multiple independent risk variants for breast cancer

Author

Shi, Jiajun, Zhang, Yanfeng, Zheng, Wei, Michailidou, Kyriaki, Ghoussaini, Maya, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Lush, Michael, Milne, Roger L, Shu, Xiao‐Ou, Beesley, Jonathan, Kar, Siddhartha, Andrulis, Irene L, Anton‐Culver, Hoda, Arndt, Volker, Beckmann, Matthias W, Zhao, Zhiguo, Guo, Xingyi, Benitez, Javier, Beeghly‐Fadiel, Alicia, Blot, William, Bogdanova, Natalia V, Bojesen, Stig E, Brauch, Hiltrud, Brenner, Hermann, Brinton, Louise, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Cai, Hui, Canisius, Sander, Chang‐Claude, Jenny, Choi, Ji‐Yeob, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Darabi, Hatef, Devilee, Peter, Droit, Arnaud, Dork, Thilo, Fasching, Peter A, Fletcher, Olivia, Flyger, Henrik, Fostira, Florentia, Gaborieau, Valerie, García‐Closas, Montserrat, Giles, Graham G, Grip, Mervi, Guenel, Pascal, Haiman, Christopher A, Hamann, Ute, Hartman, Mikael, Miao, Hui, Hollestelle, Antoinette, Hopper, John L, Hsiung, Chia‐Ni, Investigators, kConFab, Ito, Hidemi, Jakubowska, Anna, Johnson, Nichola, Torres, Diana, Kabisch, Maria, Kang, Daehee, Khan, Sofia, Knight, Julia A, Kosma, Veli‐Matti, Lambrechts, Diether, Li, Jingmei, Lindblom, Annika, Lophatananon, Artitaya, Lubinski, Jan, Mannermaa, Arto, Manoukian, Siranoush, Le Marchand, Loic, Margolin, Sara, Marme, Frederik, Matsuo, Keitaro, McLean, Catriona, Meindl, Alfons, Muir, Kenneth, Neuhausen, Susan L, Nevanlinna, Heli, Nord, Silje, Børresen‐Dale, Anne‐Lise, Olson, Janet E, Orr, Nick, van den Ouweland, Ans MW, Peterlongo, Paolo, Putti, Thomas Choudary, Rudolph, Anja, Sangrajrang, Suleeporn, Sawyer, Elinor J, Schmidt, Marjanka K, Schmutzler, Rita K, Shen, Chen‐Yang, Hou, Ming‐Feng, Shrubsole, Matha J, and Southey, Melissa C

Subjects

Genetics, Cancer, Breast Cancer, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Alleles, Breast Neoplasms, Case-Control Studies, Chromosome Mapping, Chromosomes, Human, Pair 8, Female, Genetic Variation, Genome-Wide Association Study, Genotype, Haplotypes, Humans, Linkage Disequilibrium, Odds Ratio, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Risk, White People, breast cancer, genetic susceptibility, 8q24, fine-mapping, single nucleotide polymorphism, Mervi Grip, kConFab Investigators, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

Previous genome-wide association studies among women of European ancestry identified two independent breast cancer susceptibility loci represented by single nucleotide polymorphisms (SNPs) rs13281615 and rs11780156 at 8q24. A fine-mapping study across 2.06 Mb (chr8:127,561,724-129,624,067, hg19) in 55,540 breast cancer cases and 51,168 controls within the Breast Cancer Association Consortium was conducted. Three additional independent association signals in women of European ancestry, represented by rs35961416 (OR = 0.95, 95% CI = 0.93-0.97, conditional p = 5.8 × 10(-6) ), rs7815245 (OR = 0.94, 95% CI = 0.91-0.96, conditional p = 1.1 × 10(-6) ) and rs2033101 (OR = 1.05, 95% CI = 1.02-1.07, conditional p = 1.1 × 10(-4) ) were found. Integrative analysis using functional genomic data from the Roadmap Epigenomics, the Encyclopedia of DNA Elements project, the Cancer Genome Atlas and other public resources implied that SNPs rs7815245 in Signal 3, and rs1121948 in Signal 5 (in linkage disequilibrium with rs11780156, r(2)  = 0.77), were putatively functional variants for two of the five independent association signals. The results highlighted multiple 8q24 variants associated with breast cancer susceptibility in women of European ancestry.

Published

2016

31. Fine scale mapping of the 17q22 breast cancer locus using dense SNPs, genotyped within the Collaborative Oncological Gene-Environment Study (COGs).

Author

Darabi, Hatef, Beesley, Jonathan, Droit, Arnaud, Kar, Siddhartha, Nord, Silje, Moradi Marjaneh, Mahdi, Soucy, Penny, Michailidou, Kyriaki, Ghoussaini, Maya, Fues Wahl, Hanna, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Alonso, M Rosario, Andrulis, Irene L, Anton-Culver, Hoda, Arndt, Volker, Beckmann, Matthias W, Benitez, Javier, Bogdanova, Natalia V, Bojesen, Stig E, Brauch, Hiltrud, Brenner, Hermann, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Chang-Claude, Jenny, Choi, Ji-Yeob, Conroy, Don M, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Devilee, Peter, Dörk, Thilo, Easton, Douglas F, Fasching, Peter A, Figueroa, Jonine, Fletcher, Olivia, Flyger, Henrik, Galle, Eva, García-Closas, Montserrat, Giles, Graham G, Goldberg, Mark S, González-Neira, Anna, Guénel, Pascal, Haiman, Christopher A, Hallberg, Emily, Hamann, Ute, Hartman, Mikael, Hollestelle, Antoinette, Hopper, John L, Ito, Hidemi, Jakubowska, Anna, Johnson, Nichola, Kang, Daehee, Khan, Sofia, Kosma, Veli-Matti, Kriege, Mieke, Kristensen, Vessela, Lambrechts, Diether, Le Marchand, Loic, Lee, Soo Chin, Lindblom, Annika, Lophatananon, Artitaya, Lubinski, Jan, Mannermaa, Arto, Manoukian, Siranoush, Margolin, Sara, Matsuo, Keitaro, Mayes, Rebecca, McKay, James, Meindl, Alfons, Milne, Roger L, Muir, Kenneth, Neuhausen, Susan L, Nevanlinna, Heli, Olswold, Curtis, Orr, Nick, Peterlongo, Paolo, Pita, Guillermo, Pylkäs, Katri, Rudolph, Anja, Sangrajrang, Suleeporn, Sawyer, Elinor J, Schmidt, Marjanka K, Schmutzler, Rita K, Seynaeve, Caroline, Shah, Mitul, Shen, Chen-Yang, Shu, Xiao-Ou, Southey, Melissa C, Stram, Daniel O, Surowy, Harald, Swerdlow, Anthony, Teo, Soo H, Tessier, Daniel C, Tomlinson, Ian, Torres, Diana, and Truong, Thérèse

Abstract

Genome-wide association studies have found SNPs at 17q22 to be associated with breast cancer risk. To identify potential causal variants related to breast cancer risk, we performed a high resolution fine-mapping analysis that involved genotyping 517 SNPs using a custom Illumina iSelect array (iCOGS) followed by imputation of genotypes for 3,134 SNPs in more than 89,000 participants of European ancestry from the Breast Cancer Association Consortium (BCAC). We identified 28 highly correlated common variants, in a 53 Kb region spanning two introns of the STXBP4 gene, that are strong candidates for driving breast cancer risk (lead SNP rs2787486 (OR = 0.92; CI 0.90-0.94; P = 8.96 × 10(-15))) and are correlated with two previously reported risk-associated variants at this locus, SNPs rs6504950 (OR = 0.94, P = 2.04 × 10(-09), r(2) = 0.73 with lead SNP) and rs1156287 (OR = 0.93, P = 3.41 × 10(-11), r(2) = 0.83 with lead SNP). Analyses indicate only one causal SNP in the region and several enhancer elements targeting STXBP4 are located within the 53 kb association signal. Expression studies in breast tumor tissues found SNP rs2787486 to be associated with increased STXBP4 expression, suggesting this may be a target gene of this locus.

Published

2016

32. Age- and Tumor Subtype–Specific Breast Cancer Risk Estimates for CHEK2*1100delC Carriers

Author

Schmidt, Marjanka K, Hogervorst, Frans, van Hien, Richard, Cornelissen, Sten, Broeks, Annegien, Adank, Muriel A, Meijers, Hanne, Waisfisz, Quinten, Hollestelle, Antoinette, Schutte, Mieke, van den Ouweland, Ans, Hooning, Maartje, Andrulis, Irene L, Anton-Culver, Hoda, Antonenkova, Natalia N, Antoniou, Antonis C, Arndt, Volker, Bermisheva, Marina, Bogdanova, Natalia V, Bolla, Manjeet K, Brauch, Hiltrud, Brenner, Hermann, Brüning, Thomas, Burwinkel, Barbara, Chang-Claude, Jenny, Chenevix-Trench, Georgia, Couch, Fergus J, Cox, Angela, Cross, Simon S, Czene, Kamila, Dunning, Alison M, Fasching, Peter A, Figueroa, Jonine, Fletcher, Olivia, Flyger, Henrik, Galle, Eva, García-Closas, Montserrat, Giles, Graham G, Haeberle, Lothar, Hall, Per, Hillemanns, Peter, Hopper, John L, Jakubowska, Anna, John, Esther M, Jones, Michael, Khusnutdinova, Elza, Knight, Julia A, Kosma, Veli-Matti, Kristensen, Vessela, Lee, Andrew, Lindblom, Annika, Lubinski, Jan, Mannermaa, Arto, Margolin, Sara, Meindl, Alfons, Milne, Roger L, Muranen, Taru A, Newcomb, Polly A, Offit, Kenneth, Park-Simon, Tjoung-Won, Peto, Julian, Pharoah, Paul DP, Robson, Mark, Rudolph, Anja, Sawyer, Elinor J, Schmutzler, Rita K, Seynaeve, Caroline, Soens, Julie, Southey, Melissa C, Spurdle, Amanda B, Surowy, Harald, Swerdlow, Anthony, Tollenaar, Rob AEM, Tomlinson, Ian, Trentham-Dietz, Amy, Vachon, Celine, Wang, Qin, Whittemore, Alice S, Ziogas, Argyrios, van der Kolk, Lizet, Nevanlinna, Heli, Dörk, Thilo, Bojesen, Stig, and Easton, Douglas F

Subjects

Clinical Research, Genetics, Cancer, Breast Cancer, Aetiology, 2.1 Biological and endogenous factors, Adult, Age Factors, Aged, Aged, 80 and over, Breast Neoplasms, Case-Control Studies, Checkpoint Kinase 2, Female, Genetic Predisposition to Disease, Heterozygote, Homozygote, Humans, Middle Aged, Odds Ratio, Receptors, Estrogen, Receptors, Progesterone, Risk Assessment, Sequence Deletion, Clinical Sciences, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

PurposeCHEK2*1100delC is a well-established breast cancer risk variant that is most prevalent in European populations; however, there are limited data on risk of breast cancer by age and tumor subtype, which limits its usefulness in breast cancer risk prediction. We aimed to generate tumor subtype- and age-specific risk estimates by using data from the Breast Cancer Association Consortium, including 44,777 patients with breast cancer and 42,997 controls from 33 studies genotyped for CHEK2*1100delC.Patients and methodsCHEK2*1100delC genotyping was mostly done by a custom Taqman assay. Breast cancer odds ratios (ORs) for CHEK2*1100delC carriers versus noncarriers were estimated by using logistic regression and adjusted for study (categorical) and age. Main analyses included patients with invasive breast cancer from population- and hospital-based studies.ResultsProportions of heterozygous CHEK2*1100delC carriers in controls, in patients with breast cancer from population- and hospital-based studies, and in patients with breast cancer from familial- and clinical genetics center-based studies were 0.5%, 1.3%, and 3.0%, respectively. The estimated OR for invasive breast cancer was 2.26 (95%CI, 1.90 to 2.69; P = 2.3 × 10(-20)). The OR was higher for estrogen receptor (ER)-positive disease (2.55 [95%CI, 2.10 to 3.10; P = 4.9 × 10(-21)]) than it was for ER-negative disease (1.32 [95%CI, 0.93 to 1.88; P = .12]; P interaction = 9.9 × 10(-4)). The OR significantly declined with attained age for breast cancer overall (P = .001) and for ER-positive tumors (P = .001). Estimated cumulative risks for development of ER-positive and ER-negative tumors by age 80 in CHEK2*1100delC carriers were 20% and 3%, respectively, compared with 9% and 2%, respectively, in the general population of the United Kingdom.ConclusionThese CHEK2*1100delC breast cancer risk estimates provide a basis for incorporating CHEK2*1100delC into breast cancer risk prediction models and into guidelines for intensified screening and follow-up.

Published

2016

33. An intergenic risk locus containing an enhancer deletion in 2q35 modulates breast cancer risk by deregulating IGFBP5 expression

Author

Wyszynski, Asaf, Hong, Chi-Chen, Lam, Kristin, Michailidou, Kyriaki, Lytle, Christian, Yao, Song, Zhang, Yali, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Hopper, John L, Southey, Melissa C, Schmidt, Marjanka K, Broeks, Annegien, Muir, Kenneth, Lophatananon, Artitaya, Fasching, Peter A, Beckmann, Matthias W, Peto, Julian, dos-Santos-Silva, Isabel, Sawyer, Elinor J, Tomlinson, Ian, Burwinkel, Barbara, Marme, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Nordestgaard, Børge G, Gonzalez-Neira, Anna, Benitez, Javier, Neuhausen, Susan L, Brenner, Hermann, Dieffenbach, Aida Karina, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Nevanlinna, Heli, Khan, Sofia, Matsuo, Keitaro, Ito, Hidemi, Dörk, Thilo, Bogdanova, Natalia V, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kosma, Veli-Matti, Wu, Anna H, Van Den Berg, David, Lambrechts, Diether, Wildiers, Hans, Chang-Claude, Jenny, Rudolph, Anja, Radice, Paolo, Peterlongo, Paolo, Couch, Fergus J, Olson, Janet E, Giles, Graham G, Milne, Roger L, Haiman, Christopher A, Henderson, Brian E, Dumont, Martine, Teo, Soo Hwang, Wong, Tien Y, Kristensen, Vessela, Zheng, Wei, Long, Jirong, Winqvist, Robert, Pylkäs, Katri, Andrulis, Irene L, Knight, Julia A, Devilee, Peter, Seynaeve, Caroline, García-Closas, Montserrat, Figueroa, Jonine, Klevebring, Daniel, Czene, Kamila, Hooning, Maartje J, van den Ouweland, Ans M. W., Darabi, Hatef, Shu, Xiao-Ou, Gao, Yu-Tang, Cox, Angela, Blot, William, Signorello, Lisa B, Shah, Mitul, Kang, Daehee, Choi, Ji-Yeob, Hartman, Mikael, Miao, Hui, Hamann, Ute, Jakubowska, Anna, Lubinski, Jan, Sangrajrang, Suleeporn, McKay, James, Toland, Amanda E, Yannoukakos, Drakoulis, Shen, Chen-Yang, Wu, Pei-Ei, Swerdlow, Anthony, and Orr, Nick

Published

2016

34. Identification of independent association signals and putative functional variants for breast cancer risk through fine-scale mapping of the 12p11 locus

Author

Zeng, Chenjie, Guo, Xingyi, Long, Jirong, Kuchenbaecker, Karoline B, Droit, Arnaud, Michailidou, Kyriaki, Ghoussaini, Maya, Kar, Siddhartha, Freeman, Adam, Hopper, John L, Milne, Roger L, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Agata, Simona, Ahmed, Shahana, Aittomäki, Kristiina, Andrulis, Irene L, Anton-Culver, Hoda, Antonenkova, Natalia N, Arason, Adalgeir, Arndt, Volker, Arun, Banu K, Arver, Brita, Bacot, Francois, Barrowdale, Daniel, Baynes, Caroline, Beeghly-Fadiel, Alicia, Benitez, Javier, Bermisheva, Marina, Blomqvist, Carl, Blot, William J, Bogdanova, Natalia V, Bojesen, Stig E, Bonanni, Bernardo, Borresen-Dale, Anne-Lise, Brand, Judith S, Brauch, Hiltrud, Brennan, Paul, Brenner, Hermann, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Buys, Saundra S, Cai, Qiuyin, Caldes, Trinidad, Campbell, Ian, Carpenter, Jane, Chang-Claude, Jenny, Choi, Ji-Yeob, Claes, Kathleen B. M, Clarke, Christine, Cox, Angela, Cross, Simon S, Czene, Kamila, Daly, Mary B, de la Hoya, Miguel, De Leeneer, Kim, Devilee, Peter, Diez, Orland, Domchek, Susan M, Doody, Michele, Dorfling, Cecilia M, Dörk, Thilo, dos-Santos-Silva, Isabel, Dumont, Martine, Dwek, Miriam, Dworniczak, Bernd, Egan, Kathleen, Eilber, Ursula, Einbeigi, Zakaria, Ejlertsen, Bent, Ellis, Steve, Frost, Debra, Lalloo, Fiona, Fasching, Peter A, Figueroa, Jonine, Flyger, Henrik, Friedlander, Michael, Friedman, Eitan, Gambino, Gaetana, Gao, Yu-Tang, Garber, Judy, García-Closas, Montserrat, Gehrig, Andrea, Damiola, Francesca, Lesueur, Fabienne, Mazoyer, Sylvie, Stoppa-Lyonnet, Dominique, Giles, Graham G, Godwin, Andrew K, Goldgar, David E, González-Neira, Anna, Greene, Mark H, Guénel, Pascal, Haeberle, Lothar, Haiman, Christopher A, Hallberg, Emily, Hamann, Ute, and Hansen, Thomas V. O

Published

2016

35. Breast cancer risk variants at 6q25 display different phenotype associations and regulate ESR1, RMND1 and CCDC170.

Author

Dunning, Alison M, Michailidou, Kyriaki, Kuchenbaecker, Karoline B, Thompson, Deborah, French, Juliet D, Beesley, Jonathan, Healey, Catherine S, Kar, Siddhartha, Pooley, Karen A, Lopez-Knowles, Elena, Dicks, Ed, Barrowdale, Daniel, Sinnott-Armstrong, Nicholas A, Sallari, Richard C, Hillman, Kristine M, Kaufmann, Susanne, Sivakumaran, Haran, Moradi Marjaneh, Mahdi, Lee, Jason S, Hills, Margaret, Jarosz, Monika, Drury, Suzie, Canisius, Sander, Bolla, Manjeet K, Dennis, Joe, Wang, Qin, Hopper, John L, Southey, Melissa C, Broeks, Annegien, Schmidt, Marjanka K, Lophatananon, Artitaya, Muir, Kenneth, Beckmann, Matthias W, Fasching, Peter A, Dos-Santos-Silva, Isabel, Peto, Julian, Sawyer, Elinor J, Tomlinson, Ian, Burwinkel, Barbara, Marme, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Flyger, Henrik, González-Neira, Anna, Perez, Jose IA, Anton-Culver, Hoda, Eunjung, Lee, Arndt, Volker, Brenner, Hermann, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Hamann, Ute, Aittomäki, Kristiina, Blomqvist, Carl, Ito, Hidemi, Matsuo, Keitaro, Bogdanova, Natasha, Dörk, Thilo, Lindblom, Annika, Margolin, Sara, Kosma, Veli-Matti, Mannermaa, Arto, Tseng, Chiu-Chen, Wu, Anna H, Lambrechts, Diether, Wildiers, Hans, Chang-Claude, Jenny, Rudolph, Anja, Peterlongo, Paolo, Radice, Paolo, Olson, Janet E, Giles, Graham G, Milne, Roger L, Haiman, Christopher A, Henderson, Brian E, Goldberg, Mark S, Teo, Soo H, Yip, Cheng Har, Nord, Silje, Borresen-Dale, Anne-Lise, Kristensen, Vessela, Long, Jirong, Zheng, Wei, Pylkäs, Katri, Winqvist, Robert, Andrulis, Irene L, Knight, Julia A, Devilee, Peter, Seynaeve, Caroline, Figueroa, Jonine, Sherman, Mark E, Czene, Kamila, Darabi, Hatef, Hollestelle, Antoinette, van den Ouweland, Ans MW, Humphreys, Keith, Gao, Yu-Tang, and Shu, Xiao-Ou

Subjects

EMBRACE, GEMO Study Collaborators, HEBON, kConFab Investigators, Chromosomes, Human, Pair 6, Humans, Breast Neoplasms, Genetic Predisposition to Disease, Carrier Proteins, Cell Cycle Proteins, Estrogen Receptor alpha, Risk Factors, Gene Expression, Gene Expression Regulation, Neoplastic, Base Sequence, Protein Binding, Phenotype, Polymorphism, Single Nucleotide, Female, Genetic Association Studies, Cancer, Clinical Research, Breast Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

We analyzed 3,872 common genetic variants across the ESR1 locus (encoding estrogen receptor α) in 118,816 subjects from three international consortia. We found evidence for at least five independent causal variants, each associated with different phenotype sets, including estrogen receptor (ER(+) or ER(-)) and human ERBB2 (HER2(+) or HER2(-)) tumor subtypes, mammographic density and tumor grade. The best candidate causal variants for ER(-) tumors lie in four separate enhancer elements, and their risk alleles reduce expression of ESR1, RMND1 and CCDC170, whereas the risk alleles of the strongest candidates for the remaining independent causal variant disrupt a silencer element and putatively increase ESR1 and RMND1 expression.

Published

2016

36. BRCA2 Polymorphic Stop Codon K3326X and the Risk of Breast, Prostate, and Ovarian Cancers.

Author

Meeks, Huong D, Song, Honglin, Michailidou, Kyriaki, Bolla, Manjeet K, Dennis, Joe, Wang, Qin, Barrowdale, Daniel, Frost, Debra, EMBRACE, McGuffog, Lesley, Ellis, Steve, Feng, Bingjian, Buys, Saundra S, Hopper, John L, Southey, Melissa C, Tesoriero, Andrea, kConFab Investigators, James, Paul A, Bruinsma, Fiona, Campbell, Ian G, Australia Ovarian Cancer Study Group, Broeks, Annegien, Schmidt, Marjanka K, Hogervorst, Frans BL, HEBON, Beckman, Matthias W, Fasching, Peter A, Fletcher, Olivia, Johnson, Nichola, Sawyer, Elinor J, Riboli, Elio, Banerjee, Susana, Menon, Usha, Tomlinson, Ian, Burwinkel, Barbara, Hamann, Ute, Marme, Frederik, Rudolph, Anja, Janavicius, Ramunas, Tihomirova, Laima, Tung, Nadine, Garber, Judy, Cramer, Daniel, Terry, Kathryn L, Poole, Elizabeth M, Tworoger, Shelley S, Dorfling, Cecilia M, van Rensburg, Elizabeth J, Godwin, Andrew K, Guénel, Pascal, Truong, Thérèse, GEMO Study Collaborators, Stoppa-Lyonnet, Dominique, Damiola, Francesca, Mazoyer, Sylvie, Sinilnikova, Olga M, Isaacs, Claudine, Maugard, Christine, Bojesen, Stig E, Flyger, Henrik, Gerdes, Anne-Marie, Hansen, Thomas VO, Jensen, Allen, Kjaer, Susanne K, Hogdall, Claus, Hogdall, Estrid, Pedersen, Inge Sokilde, Thomassen, Mads, Benitez, Javier, González-Neira, Anna, Osorio, Ana, Hoya, Miguel de la, Segura, Pedro Perez, Diez, Orland, Lazaro, Conxi, Brunet, Joan, Anton-Culver, Hoda, Eunjung, Lee, John, Esther M, Neuhausen, Susan L, Ding, Yuan Chun, Castillo, Danielle, Weitzel, Jeffrey N, Ganz, Patricia A, Nussbaum, Robert L, Chan, Salina B, Karlan, Beth Y, Lester, Jenny, Wu, Anna, Gayther, Simon, Ramus, Susan J, Sieh, Weiva, Whittermore, Alice S, Monteiro, Alvaro NA, Phelan, Catherine M, Terry, Mary Beth, Piedmonte, Marion, Offit, Kenneth, Robson, Mark, and Levine, Douglas

Subjects

EMBRACE, kConFab Investigators, Australia Ovarian Cancer Study Group, HEBON, GEMO Study Collaborators, OCGN, PRostate cancer AssoCiation group To Investigate Cancer Associated aLterations in the genome, Humans, Breast Neoplasms, Ovarian Neoplasms, Prostatic Neoplasms, Neoplasm Invasiveness, Genetic Predisposition to Disease, Lysine, BRCA2 Protein, Codon, Terminator, Logistic Models, Odds Ratio, Risk Assessment, Risk Factors, Heterozygote, Polymorphism, Single Nucleotide, Adult, Aged, Middle Aged, Female, Male, Clinical Research, Prevention, Cancer, Prostate Cancer, Aging, Urologic Diseases, Breast Cancer, Ovarian Cancer, Rare Diseases, Aetiology, 2.1 Biological and endogenous factors, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

The K3326X variant in BRCA2 (BRCA2*c.9976A>T; p.Lys3326*; rs11571833) has been found to be associated with small increased risks of breast cancer. However, it is not clear to what extent linkage disequilibrium with fully pathogenic mutations might account for this association. There is scant information about the effect of K3326X in other hormone-related cancers. Using weighted logistic regression, we analyzed data from the large iCOGS study including 76 637 cancer case patients and 83 796 control patients to estimate odds ratios (ORw) and 95% confidence intervals (CIs) for K3326X variant carriers in relation to breast, ovarian, and prostate cancer risks, with weights defined as probability of not having a pathogenic BRCA2 variant. Using Cox proportional hazards modeling, we also examined the associations of K3326X with breast and ovarian cancer risks among 7183 BRCA1 variant carriers. All statistical tests were two-sided. The K3326X variant was associated with breast (ORw = 1.28, 95% CI = 1.17 to 1.40, P = 5.9x10(-) (6)) and invasive ovarian cancer (ORw = 1.26, 95% CI = 1.10 to 1.43, P = 3.8x10(-3)). These associations were stronger for serous ovarian cancer and for estrogen receptor-negative breast cancer (ORw = 1.46, 95% CI = 1.2 to 1.70, P = 3.4x10(-5) and ORw = 1.50, 95% CI = 1.28 to 1.76, P = 4.1x10(-5), respectively). For BRCA1 mutation carriers, there was a statistically significant inverse association of the K3326X variant with risk of ovarian cancer (HR = 0.43, 95% CI = 0.22 to 0.84, P = .013) but no association with breast cancer. No association with prostate cancer was observed. Our study provides evidence that the K3326X variant is associated with risk of developing breast and ovarian cancers independent of other pathogenic variants in BRCA2. Further studies are needed to determine the biological mechanism of action responsible for these associations.

Published

2016

37. Genetic variation in the immunosuppression pathway genes and breast cancer susceptibility: a pooled analysis of 42,510 cases and 40,577 controls from the Breast Cancer Association Consortium

Author

Lei, Jieping, Rudolph, Anja, Moysich, Kirsten B, Behrens, Sabine, Goode, Ellen L, Bolla, Manjeet K, Dennis, Joe, Dunning, Alison M, Easton, Douglas F, Wang, Qin, Benitez, Javier, Hopper, John L, Southey, Melissa C, Schmidt, Marjanka K, Broeks, Annegien, Fasching, Peter A, Haeberle, Lothar, Peto, Julian, dos-Santos-Silva, Isabel, Sawyer, Elinor J, Tomlinson, Ian, Burwinkel, Barbara, Marmé, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Flyger, Henrik, Nielsen, Sune F, Nordestgaard, Børge G, González-Neira, Anna, Menéndez, Primitiva, Anton-Culver, Hoda, Neuhausen, Susan L, Brenner, Hermann, Arndt, Volker, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Hamann, Ute, Nevanlinna, Heli, Fagerholm, Rainer, Dörk, Thilo, Bogdanova, Natalia V, Mannermaa, Arto, Hartikainen, Jaana M, Australian Ovarian Study Group, kConFab Investigators, Van Dijck, Laurien, Smeets, Ann, Flesch-Janys, Dieter, Eilber, Ursula, Radice, Paolo, Peterlongo, Paolo, Couch, Fergus J, Hallberg, Emily, Giles, Graham G, Milne, Roger L, Haiman, Christopher A, Schumacher, Fredrick, Simard, Jacques, Goldberg, Mark S, Kristensen, Vessela, Borresen-Dale, Anne-Lise, Zheng, Wei, Beeghly-Fadiel, Alicia, Winqvist, Robert, Grip, Mervi, Andrulis, Irene L, Glendon, Gord, García-Closas, Montserrat, Figueroa, Jonine, Czene, Kamila, Brand, Judith S, Darabi, Hatef, Eriksson, Mikael, Hall, Per, Li, Jingmei, Cox, Angela, Cross, Simon S, Pharoah, Paul DP, Shah, Mitul, Kabisch, Maria, Torres, Diana, Jakubowska, Anna, Lubinski, Jan, Ademuyiwa, Foluso, Ambrosone, Christine B, Swerdlow, Anthony, Jones, Michael, and Chang-Claude, Jenny

Subjects

Breast Cancer, Genetics, Human Genome, Cancer, 2.1 Biological and endogenous factors, Aetiology, Breast Neoplasms, Case-Control Studies, Female, Genetic Predisposition to Disease, Humans, Immune Tolerance, Polymorphism, Single Nucleotide, Australian Ovarian Study Group, kConFab Investigators, Complementary and Alternative Medicine, Paediatrics and Reproductive Medicine, Genetics & Heredity

Abstract

Immunosuppression plays a pivotal role in assisting tumors to evade immune destruction and promoting tumor development. We hypothesized that genetic variation in the immunosuppression pathway genes may be implicated in breast cancer tumorigenesis. We included 42,510 female breast cancer cases and 40,577 controls of European ancestry from 37 studies in the Breast Cancer Association Consortium (2015) with available genotype data for 3595 single nucleotide polymorphisms (SNPs) in 133 candidate genes. Associations between genotyped SNPs and overall breast cancer risk, and secondarily according to estrogen receptor (ER) status, were assessed using multiple logistic regression models. Gene-level associations were assessed based on principal component analysis. Gene expression analyses were conducted using RNA sequencing level 3 data from The Cancer Genome Atlas for 989 breast tumor samples and 113 matched normal tissue samples. SNP rs1905339 (A>G) in the STAT3 region was associated with an increased breast cancer risk (per allele odds ratio 1.05, 95 % confidence interval 1.03-1.08; p value = 1.4 × 10(-6)). The association did not differ significantly by ER status. On the gene level, in addition to TGFBR2 and CCND1, IL5 and GM-CSF showed the strongest associations with overall breast cancer risk (p value = 1.0 × 10(-3) and 7.0 × 10(-3), respectively). Furthermore, STAT3 and IL5 but not GM-CSF were differentially expressed between breast tumor tissue and normal tissue (p value = 2.5 × 10(-3), 4.5 × 10(-4) and 0.63, respectively). Our data provide evidence that the immunosuppression pathway genes STAT3, IL5, and GM-CSF may be novel susceptibility loci for breast cancer in women of European ancestry.

Published

2016

38. Fine-Mapping of the 1p11.2 Breast Cancer Susceptibility Locus.

Author

Horne, Hisani N, Chung, Charles C, Zhang, Han, Yu, Kai, Prokunina-Olsson, Ludmila, Michailidou, Kyriaki, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Hopper, John L, Southey, Melissa C, Schmidt, Marjanka K, Broeks, Annegien, Muir, Kenneth, Lophatananon, Artitaya, Fasching, Peter A, Beckmann, Matthias W, Fletcher, Olivia, Johnson, Nichola, Sawyer, Elinor J, Tomlinson, Ian, Burwinkel, Barbara, Marme, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Flyger, Henrik, Benitez, Javier, González-Neira, Anna, Anton-Culver, Hoda, Neuhausen, Susan L, Brenner, Hermann, Arndt, Volker, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Hamann, Ute, Nevanlinna, Heli, Khan, Sofia, Matsuo, Keitaro, Iwata, Hiroji, Dörk, Thilo, Bogdanova, Natalia V, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kosma, Veli-Matti, Chenevix-Trench, Georgia, kConFab/AOCS Investigators, Wu, Anna H, Ven den Berg, David, Smeets, Ann, Zhao, Hui, Chang-Claude, Jenny, Rudolph, Anja, Radice, Paolo, Barile, Monica, Couch, Fergus J, Vachon, Celine, Giles, Graham G, Milne, Roger L, Haiman, Christopher A, Marchand, Loic Le, Goldberg, Mark S, Teo, Soo H, Taib, Nur AM, Kristensen, Vessela, Borresen-Dale, Anne-Lise, Zheng, Wei, Shrubsole, Martha, Winqvist, Robert, Jukkola-Vuorinen, Arja, Andrulis, Irene L, Knight, Julia A, Devilee, Peter, Seynaeve, Caroline, García-Closas, Montserrat, Czene, Kamila, Darabi, Hatef, Hollestelle, Antoinette, Martens, John WM, Li, Jingmei, Lu, Wei, Shu, Xiao-Ou, Cox, Angela, Cross, Simon S, Blot, William, Cai, Qiuyin, Shah, Mitul, Luccarini, Craig, Baynes, Caroline, Harrington, Patricia, Kang, Daehee, Choi, Ji-Yeob, Hartman, Mikael, Chia, Kee Seng, Kabisch, Maria, Torres, Diana, Jakubowska, Anna, and Lubinski, Jan

Subjects

kConFab/AOCS Investigators, Chromosomes, Human, Pair 1, Humans, Breast Neoplasms, Genetic Predisposition to Disease, Population Surveillance, Risk Assessment, Case-Control Studies, Chromosome Mapping, Computational Biology, Gene Frequency, Genotype, Linkage Disequilibrium, Polymorphism, Single Nucleotide, Alleles, Quantitative Trait Loci, Female, Genetic Association Studies, Neoplasm Grading, General Science & Technology

Abstract

The Cancer Genetic Markers of Susceptibility genome-wide association study (GWAS) originally identified a single nucleotide polymorphism (SNP) rs11249433 at 1p11.2 associated with breast cancer risk. To fine-map this locus, we genotyped 92 SNPs in a 900kb region (120,505,799-121,481,132) flanking rs11249433 in 45,276 breast cancer cases and 48,998 controls of European, Asian and African ancestry from 50 studies in the Breast Cancer Association Consortium. Genotyping was done using iCOGS, a custom-built array. Due to the complicated nature of the region on chr1p11.2: 120,300,000-120,505,798, that lies near the centromere and contains seven duplicated genomic segments, we restricted analyses to 429 SNPs excluding the duplicated regions (42 genotyped and 387 imputed). Per-allelic associations with breast cancer risk were estimated using logistic regression models adjusting for study and ancestry-specific principal components. The strongest association observed was with the original identified index SNP rs11249433 (minor allele frequency (MAF) 0.402; per-allele odds ratio (OR) = 1.10, 95% confidence interval (CI) 1.08-1.13, P = 1.49 x 10-21). The association for rs11249433 was limited to ER-positive breast cancers (test for heterogeneity P≤8.41 x 10-5). Additional analyses by other tumor characteristics showed stronger associations with moderately/well differentiated tumors and tumors of lobular histology. Although no significant eQTL associations were observed, in silico analyses showed that rs11249433 was located in a region that is likely a weak enhancer/promoter. Fine-mapping analysis of the 1p11.2 breast cancer susceptibility locus confirms this region to be limited to risk to cancers that are ER-positive.

Published

2016

39. Preoperative ipilimumab plus nivolumab in locoregionally advanced urothelial cancer: the NABUCCO trial

Author

van Dijk, Nick, Gil-Jimenez, Alberto, Silina, Karina, Hendricksen, Kees, Smit, Laura A., de Feijter, Jeantine M., van Montfoort, Maurits L., van Rooijen, Charlotte, Peters, Dennis, Broeks, Annegien, van der Poel, Henk G., Bruining, Annemarie, Lubeck, Yoni, Sikorska, Karolina, Boellaard, Thierry N., Kvistborg, Pia, Vis, Daniel J., Hooijberg, Erik, Schumacher, Ton N., van den Broek, Maries, Wessels, Lodewyk F. A., Blank, Christian U., van Rhijn, Bas W., and van der Heijden, Michiel S.

Published

2020

40. Neoadjuvant immunotherapy with nivolumab and ipilimumab induces major pathological responses in patients with head and neck squamous cell carcinoma

Author

Vos, Joris L., Elbers, Joris B. W., Krijgsman, Oscar, Traets, Joleen J. H., Qiao, Xiaohang, van der Leun, Anne M., Lubeck, Yoni, Seignette, Iris M., Smit, Laura A., Willems, Stefan M., van den Brekel, Michiel W. M., Dirven, Richard, Baris Karakullukcu, M., Karssemakers, Luc, Klop, W. Martin C., Lohuis, Peter J. F. M., Schreuder, Willem H., Smeele, Ludi E., van der Velden, Lilly-Ann, Bing Tan, I., Onderwater, Suzanne, Jasperse, Bas, Vogel, Wouter V., Al-Mamgani, Abrahim, Keijser, Astrid, van der Noort, Vincent, Broeks, Annegien, Hooijberg, Erik, Peeper, Daniel S., Schumacher, Ton N., Blank, Christian U., de Boer, Jan Paul, Haanen, John B. A. G., and Zuur, Charlotte L.

Published

2021

41. Neoadjuvant immunotherapy leads to pathological responses in MMR-proficient and MMR-deficient early-stage colon cancers

Author

Chalabi, Myriam, Fanchi, Lorenzo F., Dijkstra, Krijn K., Van den Berg, José G., Aalbers, Arend G., Sikorska, Karolina, Lopez-Yurda, Marta, Grootscholten, Cecile, Beets, Geerard L., Snaebjornsson, Petur, Maas, Monique, Mertz, Marjolijn, Veninga, Vivien, Bounova, Gergana, Broeks, Annegien, Beets-Tan, Regina G., de Wijkerslooth, Thomas R., van Lent, Anja U., Marsman, Hendrik A., Nuijten, Elvira, Kok, Niels F., Kuiper, Maria, Verbeek, Wieke H., Kok, Marleen, Van Leerdam, Monique E., Schumacher, Ton N., Voest, Emile E., and Haanen, John B.

Published

2020

42. Fine-scale mapping of the 4q24 locus identifies two independent loci associated with breast cancer risk.

Author

Arndt, Volker, Beckmann, Matthias, Beeghly-Fadiel, Alicia, Benitez, Javier, Blot, William, Bogdanova, Natalia, Bojesen, Stig, Brauch, Hiltrud, Brenner, Hermann, Brinton, Louise, Broeks, Annegien, Brüning, Thomas, Burwinkel, Barbara, Cai, Hui, Canisius, Sander, Chang-Claude, Jenny, Choi, Ji-Yeob, Couch, Fergus, Cox, Angela, Cross, Simon, Czene, Kamila, Darabi, Hatef, Devilee, Peter, Droit, Arnaud, Dörk, Thilo, Fasching, Peter, Fletcher, Olivia, Flyger, Henrik, Fostira, Florentia, Gaborieau, Valerie, García-Closas, Montserrat, Giles, Graham, Grip, Mervi, Guénel, Pascal, Haiman, Christopher, Hamann, Ute, Hartman, Mikael, Hollestelle, Antoinette, Hopper, John, Hsiung, Chia-Ni, Ito, Hidemi, Jakubowska, Anna, Johnson, Nichola, Kabisch, Maria, Kang, Daehee, Khan, Sofia, Knight, Julia, Kosma, Veli-Matti, Lambrechts, Diether, Le Marchand, Loic, Li, Jingmei, Lindblom, Annika, Lophatananon, Artitaya, Lubinski, Jan, Mannermaa, Arto, Manoukian, Siranoush, Margolin, Sara, Marme, Frederik, Matsuo, Keitaro, McLean, Catriona, Meindl, Alfons, Muir, Kenneth, Neuhausen, Susan, Nevanlinna, Heli, Nord, Silje, Olson, Janet, Orr, Nick, Peterlongo, Paolo, Putti, Thomas, Rudolph, Anja, Sangrajrang, Suleeporn, Sawyer, Elinor, Schmidt, Marjanka, Schmutzler, Rita, Shen, Chen-Yang, Shi, Jiajun, Shrubsole, Martha, Southey, Melissa, Swerdlow, Anthony, Teo, Soo, Thienpont, Bernard, Toland, Amanda, Tollenaar, Robert, Tomlinson, Ian, Truong, Thérèse, Tseng, Chiu-Chen, van den Ouweland, Ans, Wen, Wanqing, Winqvist, Robert, Wu, Anna, Yip, Cheng, Zamora, M, Zheng, Ying, Hall, Per, Pharoah, Paul, Simard, Jacques, Chenevix-Trench, Georgia, Dunning, Alison, Easton, Douglas, and Zheng, Wei

Subjects

Breast Neoplasms, Case-Control Studies, Chromosome Mapping, Chromosomes, Human, Pair 4, Female, Genetic Loci, Genetic Markers, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Logistic Models, Polymorphism, Single Nucleotide, Risk Factors

Abstract

BACKGROUND: A recent association study identified a common variant (rs9790517) at 4q24 to be associated with breast cancer risk. Independent association signals and potential functional variants in this locus have not been explored. METHODS: We conducted a fine-mapping analysis in 55,540 breast cancer cases and 51,168 controls from the Breast Cancer Association Consortium. RESULTS: Conditional analyses identified two independent association signals among women of European ancestry, represented by rs9790517 [conditional P = 2.51 × 10(-4); OR, 1.04; 95% confidence interval (CI), 1.02-1.07] and rs77928427 (P = 1.86 × 10(-4); OR, 1.04; 95% CI, 1.02-1.07). Functional annotation using data from the Encyclopedia of DNA Elements (ENCODE) project revealed two putative functional variants, rs62331150 and rs73838678 in linkage disequilibrium (LD) with rs9790517 (r(2) ≥ 0.90) residing in the active promoter or enhancer, respectively, of the nearest gene, TET2. Both variants are located in DNase I hypersensitivity and transcription factor-binding sites. Using data from both The Cancer Genome Atlas (TCGA) and Molecular Taxonomy of Breast Cancer International Consortium (METABRIC), we showed that rs62331150 was associated with level of expression of TET2 in breast normal and tumor tissue. CONCLUSION: Our study identified two independent association signals at 4q24 in relation to breast cancer risk and suggested that observed association in this locus may be mediated through the regulation of TET2. IMPACT: Fine-mapping study with large sample size warranted for identification of independent loci for breast cancer risk.

Published

2015

43. Polymorphisms in a Putative Enhancer at the 10q21.2 Breast Cancer Risk Locus Regulate NRBF2 Expression

Author

Darabi, Hatef, McCue, Karen, Beesley, Jonathan, Michailidou, Kyriaki, Nord, Silje, Kar, Siddhartha, Humphreys, Keith, Thompson, Deborah, Ghoussaini, Maya, Bolla, Manjeet K, Dennis, Joe, Wang, Qin, Canisius, Sander, Scott, Christopher G, Apicella, Carmel, Hopper, John L, Southey, Melissa C, Stone, Jennifer, Broeks, Annegien, Schmidt, Marjanka K, Scott, Rodney J, Lophatananon, Artitaya, Muir, Kenneth, Beckmann, Matthias W, Ekici, Arif B, Fasching, Peter A, Heusinger, Katharina, dos-Santos-Silva, Isabel, Peto, Julian, Tomlinson, Ian, Sawyer, Elinor J, Burwinkel, Barbara, Marme, Frederik, Guénel, Pascal, Truong, Thérèse, Bojesen, Stig E, Flyger, Henrik, Benitez, Javier, González-Neira, Anna, Anton-Culver, Hoda, Neuhausen, Susan L, Arndt, Volker, Brenner, Hermann, Engel, Christoph, Meindl, Alfons, Schmutzler, Rita K, Cancer, German Consortium of Hereditary Breast and Ovarian, Arnold, Norbert, Brauch, Hiltrud, Hamann, Ute, Chang-Claude, Jenny, Khan, Sofia, Nevanlinna, Heli, Ito, Hidemi, Matsuo, Keitaro, Bogdanova, Natalia V, Dörk, Thilo, Lindblom, Annika, Margolin, Sara, Investigators, kConFab AOCS, Kosma, Veli-Matti, Mannermaa, Arto, Tseng, Chiu-chen, Wu, Anna H, Floris, Giuseppe, Lambrechts, Diether, Rudolph, Anja, Peterlongo, Paolo, Radice, Paolo, Couch, Fergus J, Vachon, Celine, Giles, Graham G, McLean, Catriona, Milne, Roger L, Dugué, Pierre-Antoine, Haiman, Christopher A, Maskarinec, Gertraud, Woolcott, Christy, Henderson, Brian E, Goldberg, Mark S, Simard, Jacques, Teo, Soo H, Mariapun, Shivaani, Helland, Åslaug, Haakensen, Vilde, Zheng, Wei, Beeghly-Fadiel, Alicia, Tamimi, Rulla, Jukkola-Vuorinen, Arja, Winqvist, Robert, Andrulis, Irene L, Knight, Julia A, Devilee, Peter, Tollenaar, Robert AEM, Figueroa, Jonine, García-Closas, Montserrat, Czene, Kamila, Hooning, Maartje J, Tilanus-Linthorst, Madeleine, and Li, Jingmei

Subjects

Human Genome, Aging, Cancer, Clinical Research, Breast Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, Age Factors, Asian People, Autophagy-Related Proteins, Body Mass Index, Breast Neoplasms, Chromosome Mapping, Chromosomes, Human, Pair 10, DNA-Binding Proteins, Enhancer Elements, Genetic, Female, Gene Expression Regulation, Genome-Wide Association Study, Genotype, Humans, Luciferases, Odds Ratio, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Regression Analysis, Trans-Activators, Transcription Factors, White People, German Consortium of Hereditary Breast and Ovarian Cancer, kConFab/AOCS Investigators, Biological Sciences, Medical and Health Sciences, Genetics & Heredity

Abstract

Genome-wide association studies have identified SNPs near ZNF365 at 10q21.2 that are associated with both breast cancer risk and mammographic density. To identify the most likely causal SNPs, we fine mapped the association signal by genotyping 428 SNPs across the region in 89,050 European and 12,893 Asian case and control subjects from the Breast Cancer Association Consortium. We identified four independent sets of correlated, highly trait-associated variants (iCHAVs), three of which were located within ZNF365. The most strongly risk-associated SNP, rs10995201 in iCHAV1, showed clear evidence of association with both estrogen receptor (ER)-positive (OR = 0.85 [0.82-0.88]) and ER-negative (OR = 0.87 [0.82-0.91]) disease, and was also the SNP most strongly associated with percent mammographic density. iCHAV2 (lead SNP, chr10: 64,258,684:D) and iCHAV3 (lead SNP, rs7922449) were also associated with ER-positive (OR = 0.93 [0.91-0.95] and OR = 1.06 [1.03-1.09]) and ER-negative (OR = 0.95 [0.91-0.98] and OR = 1.08 [1.04-1.13]) disease. There was weaker evidence for iCHAV4, located 5' of ADO, associated only with ER-positive breast cancer (OR = 0.93 [0.90-0.96]). We found 12, 17, 18, and 2 candidate causal SNPs for breast cancer in iCHAVs 1-4, respectively. Chromosome conformation capture analysis showed that iCHAV2 interacts with the ZNF365 and NRBF2 (more than 600 kb away) promoters in normal and cancerous breast epithelial cells. Luciferase assays did not identify SNPs that affect transactivation of ZNF365, but identified a protective haplotype in iCHAV2, associated with silencing of the NRBF2 promoter, implicating this gene in the etiology of breast cancer.

Published

2015

44. Fine-mapping identifies two additional breast cancer susceptibility loci at 9q31.2.

Author

Orr, Nick, Dudbridge, Frank, Dryden, Nicola, Maguire, Sarah, Novo, Daniela, Perrakis, Eleni, Johnson, Nichola, Ghoussaini, Maya, Hopper, John, Southey, Melissa, Apicella, Carmel, Stone, Jennifer, Schmidt, Marjanka, Broeks, Annegien, Vant Veer, Laura, Hogervorst, Frans, Fasching, Peter, Haeberle, Lothar, Ekici, Arif, Beckmann, Matthias, Gibson, Lorna, Aitken, Zoe, Warren, Helen, Sawyer, Elinor, Tomlinson, Ian, Kerin, Michael, Miller, Nicola, Burwinkel, Barbara, Marme, Frederik, Schneeweiss, Andreas, Sohn, Chistof, Guénel, Pascal, Truong, Thérèse, Cordina-Duverger, Emilie, Sanchez, Marie, Bojesen, Stig, Nordestgaard, Børge, Nielsen, Sune, Flyger, Henrik, Benitez, Javier, Zamora, Maria, Arias Perez, Jose, Menéndez, Primitiva, Neuhausen, Susan, Brenner, Hermann, Dieffenbach, Aida, Arndt, Volker, Stegmaier, Christa, Hamann, Ute, Brauch, Hiltrud, Justenhoven, Christina, Brüning, Thomas, Ko, Yon-Dschun, Nevanlinna, Heli, Aittomäki, Kristiina, Blomqvist, Carl, Khan, Sofia, Bogdanova, Natalia, Dörk, Thilo, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kataja, Vesa, Kosma, Veli-Matti, Hartikainen, Jaana, Chenevix-Trench, Georgia, Beesley, Jonathan, Lambrechts, Diether, Moisse, Matthieu, Floris, Guiseppe, Beuselinck, Benoit, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Radice, Paolo, Peterlongo, Paolo, Peissel, Bernard, Pensotti, Valeria, Couch, Fergus, Olson, Janet, Slettedahl, Seth, Vachon, Celine, Giles, Graham, Milne, Roger, McLean, Catriona, Haiman, Christopher, Henderson, Brian, Schumacher, Fredrick, Le Marchand, Loic, Simard, Jacques, Goldberg, Mark, Labrèche, France, Dumont, Martine, Kristensen, Vessela, Alnæs, Grethe, Nord, Silje, Borresen-Dale, Anne-Lise, Zheng, Wei, and Deming-Halverson, Sandra

Subjects

Adult, Aged, Asian People, Breast Neoplasms, Chromosome Mapping, Chromosomes, Human, Pair 9, Enhancer Elements, Genetic, Estrogen Receptor alpha, Female, GATA3 Transcription Factor, Genetic Association Studies, Genetic Loci, Genetic Predisposition to Disease, Hepatocyte Nuclear Factor 3-alpha, Humans, Kruppel-Like Factor 4, Kruppel-Like Transcription Factors, Middle Aged, Polymorphism, Single Nucleotide, Risk, White People

Abstract

We recently identified a novel susceptibility variant, rs865686, for estrogen-receptor positive breast cancer at 9q31.2. Here, we report a fine-mapping analysis of the 9q31.2 susceptibility locus using 43 160 cases and 42 600 controls of European ancestry ascertained from 52 studies and a further 5795 cases and 6624 controls of Asian ancestry from nine studies. Single nucleotide polymorphism (SNP) rs676256 was most strongly associated with risk in Europeans (odds ratios [OR] = 0.90 [0.88-0.92]; P-value = 1.58 × 10(-25)). This SNP is one of a cluster of highly correlated variants, including rs865686, that spans ∼14.5 kb. We identified two additional independent association signals demarcated by SNPs rs10816625 (OR = 1.12 [1.08-1.17]; P-value = 7.89 × 10(-09)) and rs13294895 (OR = 1.09 [1.06-1.12]; P-value = 2.97 × 10(-11)). SNP rs10816625, but not rs13294895, was also associated with risk of breast cancer in Asian individuals (OR = 1.12 [1.06-1.18]; P-value = 2.77 × 10(-05)). Functional genomic annotation using data derived from breast cancer cell-line models indicates that these SNPs localise to putative enhancer elements that bind known drivers of hormone-dependent breast cancer, including ER-α, FOXA1 and GATA-3. In vitro analyses indicate that rs10816625 and rs13294895 have allele-specific effects on enhancer activity and suggest chromatin interactions with the KLF4 gene locus. These results demonstrate the power of dense genotyping in large studies to identify independent susceptibility variants. Analysis of associations using subjects with different ancestry, combined with bioinformatic and genomic characterisation, can provide strong evidence for the likely causative alleles and their functional basis.

Published

2015

45. Prediction of breast cancer risk based on profiling with common genetic variants.

Author

Mavaddat, Nasim, Pharoah, Paul, Michailidou, Kyriaki, Tyrer, Jonathan, Brook, Mark, Bolla, Manjeet, Wang, Qin, Dennis, Joe, Dunning, Alison, Shah, Mitul, Luben, Robert, Brown, Judith, Bojesen, Stig, Nordestgaard, Børge, Nielsen, Sune, Flyger, Henrik, Czene, Kamila, Darabi, Hatef, Eriksson, Mikael, Peto, Julian, Dos-Santos-Silva, Isabel, Dudbridge, Frank, Johnson, Nichola, Schmidt, Marjanka, Broeks, Annegien, Verhoef, Senno, Rutgers, Emiel, Swerdlow, Anthony, Ashworth, Alan, Orr, Nick, Schoemaker, Minouk, Figueroa, Jonine, Chanock, Stephen, Brinton, Louise, Lissowska, Jolanta, Couch, Fergus, Olson, Janet, Vachon, Celine, Pankratz, Vernon, Lambrechts, Diether, Wildiers, Hans, Van Ongeval, Chantal, van Limbergen, Erik, Kristensen, Vessela, Grenaker Alnæs, Grethe, Nord, Silje, Borresen-Dale, Anne-Lise, Nevanlinna, Heli, Muranen, Taru, Aittomäki, Kristiina, Blomqvist, Carl, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Fasching, Peter, Haeberle, Lothar, Ekici, Arif, Beckmann, Matthias, Burwinkel, Barbara, Marme, Frederik, Schneeweiss, Andreas, Sohn, Christof, Trentham-Dietz, Amy, Newcomb, Polly, Titus, Linda, Egan, Kathleen, Hunter, David, Lindstrom, Sara, Tamimi, Rulla, Kraft, Peter, Rahman, Nazneen, Turnbull, Clare, Renwick, Anthony, Seal, Sheila, Li, Jingmei, Liu, Jianjun, Humphreys, Keith, Benitez, Javier, Pilar Zamora, M, Arias Perez, Jose, Menéndez, Primitiva, Jakubowska, Anna, Lubinski, Jan, Jaworska-Bieniek, Katarzyna, Durda, Katarzyna, Bogdanova, Natalia, Antonenkova, Natalia, Dörk, Thilo, Anton-Culver, Hoda, Neuhausen, Susan, Ziogas, Argyrios, Bernstein, Leslie, Devilee, Peter, Tollenaar, Robert, Seynaeve, Caroline, van Asperen, Christi, Cox, Angela, Cross, Simon, and Reed, Malcolm

Subjects

Adult, Aged, Biomarkers, Tumor, Breast Neoplasms, Europe, Female, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Genetic Predisposition to Disease, Genotype, Humans, Middle Aged, Odds Ratio, Polymorphism, Single Nucleotide, Predictive Value of Tests, Receptors, Estrogen, Risk Assessment, Risk Factors

Abstract

BACKGROUND: Data for multiple common susceptibility alleles for breast cancer may be combined to identify women at different levels of breast cancer risk. Such stratification could guide preventive and screening strategies. However, empirical evidence for genetic risk stratification is lacking. METHODS: We investigated the value of using 77 breast cancer-associated single nucleotide polymorphisms (SNPs) for risk stratification, in a study of 33 673 breast cancer cases and 33 381 control women of European origin. We tested all possible pair-wise multiplicative interactions and constructed a 77-SNP polygenic risk score (PRS) for breast cancer overall and by estrogen receptor (ER) status. Absolute risks of breast cancer by PRS were derived from relative risk estimates and UK incidence and mortality rates. RESULTS: There was no strong evidence for departure from a multiplicative model for any SNP pair. Women in the highest 1% of the PRS had a three-fold increased risk of developing breast cancer compared with women in the middle quintile (odds ratio [OR] = 3.36, 95% confidence interval [CI] = 2.95 to 3.83). The ORs for ER-positive and ER-negative disease were 3.73 (95% CI = 3.24 to 4.30) and 2.80 (95% CI = 2.26 to 3.46), respectively. Lifetime risk of breast cancer for women in the lowest and highest quintiles of the PRS were 5.2% and 16.6% for a woman without family history, and 8.6% and 24.4% for a woman with a first-degree family history of breast cancer. CONCLUSIONS: The PRS stratifies breast cancer risk in women both with and without a family history of breast cancer. The observed level of risk discrimination could inform targeted screening and prevention strategies. Further discrimination may be achievable through combining the PRS with lifestyle/environmental factors, although these were not considered in this report.

Published

2015

46. Investigation of gene‐environment interactions between 47 newly identified breast cancer susceptibility loci and environmental risk factors

Author

Rudolph, Anja, Milne, Roger L, Truong, Thérèse, Knight, Julia A, Seibold, Petra, Flesch‐Janys, Dieter, Behrens, Sabine, Eilber, Ursula, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Dunning, Alison M, Shah, Mitul, Munday, Hannah R, Darabi, Hatef, Eriksson, Mikael, Brand, Judith S, Olson, Janet, Vachon, Celine M, Hallberg, Emily, Castelao, J Esteban, Carracedo, Angel, Torres, Maria, Li, Jingmei, Humphreys, Keith, Cordina‐Duverger, Emilie, Menegaux, Florence, Flyger, Henrik, Nordestgaard, Børge G, Nielsen, Sune F, Yesilyurt, Betul T, Floris, Giuseppe, Leunen, Karin, Engelhardt, Ellen G, Broeks, Annegien, Rutgers, Emiel J, Glendon, Gord, Mulligan, Anna Marie, Cross, Simon, Reed, Malcolm, Gonzalez‐Neira, Anna, Perez, José Ignacio Arias, Provenzano, Elena, Apicella, Carmel, Southey, Melissa C, Spurdle, Amanda, Investigators, kConFab, Group, AOCS, Häberle, Lothar, Beckmann, Matthias W, Ekici, Arif B, Dieffenbach, Aida Karina, Arndt, Volker, Stegmaier, Christa, McLean, Catriona, Baglietto, Laura, Chanock, Stephen J, Lissowska, Jolanta, Sherman, Mark E, Brüning, Thomas, Hamann, Ute, Ko, Yon‐Dschun, Orr, Nick, Schoemaker, Minouk, Ashworth, Alan, Kosma, Veli‐Matti, Kataja, Vesa, Hartikainen, Jaana M, Mannermaa, Arto, Swerdlow, Anthony, GENICA‐Network, Giles, Graham G, Brenner, Hermann, Fasching, Peter A, Chenevix‐Trench, Georgia, Hopper, John, Benítez, Javier, Cox, Angela, Andrulis, Irene L, Lambrechts, Diether, Gago‐Dominguez, Manuela, Couch, Fergus, Czene, Kamila, Bojesen, Stig E, Easton, Doug F, Schmidt, Marjanka K, Guénel, Pascal, Hall, Per, Pharoah, Paul DP, Garcia‐Closas, Montserrat, and Chang‐Claude, Jenny

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Breast Cancer, Aging, Prevention, Genetics, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Breast Neoplasms, Female, Gene-Environment Interaction, Genetic Loci, Genetic Predisposition to Disease, Humans, Polymorphism, Single Nucleotide, Receptors, Estrogen, Risk Factors, gene-environment interaction, breast cancer, risk factor, genetic susceptibility, kConFab Investigators, AOCS Group, GENICA-Network, Oncology & Carcinogenesis, Oncology and carcinogenesis

Abstract

A large genotyping project within the Breast Cancer Association Consortium (BCAC) recently identified 41 associations between single nucleotide polymorphisms (SNPs) and overall breast cancer (BC) risk. We investigated whether the effects of these 41 SNPs, as well as six SNPs associated with estrogen receptor (ER) negative BC risk are modified by 13 environmental risk factors for BC. Data from 22 studies participating in BCAC were pooled, comprising up to 26,633 cases and 30,119 controls. Interactions between SNPs and environmental factors were evaluated using an empirical Bayes-type shrinkage estimator. Six SNPs showed interactions with associated p-values (pint )

Published

2015

47. Inherited variants in the inner centromere protein (INCENP) gene of the chromosomal passenger complex contribute to the susceptibility of ER-negative breast cancer

Author

Kabisch, Maria, Bermejo, Justo Lorenzo, Dünnebier, Thomas, Ying, Shibo, Michailidou, Kyriaki, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Shah, Mitul, Perkins, Barbara J, Czene, Kamila, Darabi, Hatef, Eriksson, Mikael, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, Lambrechts, Diether, Neven, Patrick, Peeters, Stephanie, Weltens, Caroline, Couch, Fergus J, Olson, Janet E, Wang, Xianshu, Purrington, Kristen, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, Flesch-Janys, Dieter, Peto, Julian, dos-Santos-Silva, Isabel, Johnson, Nichola, Fletcher, Olivia, Nevanlinna, Heli, Muranen, Taru A, Aittomäki, Kristiina, Blomqvist, Carl, Schmidt, Marjanka K, Broeks, Annegien, Cornelissen, Sten, Hogervorst, Frans BL, Li, Jingmei, Brand, Judith S, Humphreys, Keith, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Sanchez, Marie, Burwinkel, Barbara, Marmé, Frederik, Yang, Rongxi, Bugert, Peter, González-Neira, Anna, Benitez, Javier, Zamora, M Pilar, Perez, Jose I Arias, Cox, Angela, Cross, Simon S, Reed, Malcolm WR, Andrulis, Irene L, Knight, Julia A, Glendon, Gord, Tchatchou, Sandrine, Sawyer, Elinor J, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Haiman, Christopher A, Schumacher, Fredrick, Henderson, Brian E, Le Marchand, Loic, Lindblom, Annika, Margolin, Sara, Hooning, Maartje J, Hollestelle, Antoinette, Kriege, Mieke, Koppert, Linetta B, Hopper, John L, Southey, Melissa C, Tsimiklis, Helen, Apicella, Carmel, Slettedahl, Seth, Toland, Amanda E, Vachon, Celine, Yannoukakos, Drakoulis, Giles, Graham G, Milne, Roger L, McLean, Catriona, Fasching, Peter A, Ruebner, Matthias, Ekici, Arif B, Beckmann, Matthias W, Brenner, Hermann, Dieffenbach, Aida K, Arndt, Volker, Stegmaier, Christa, Ashworth, Alan, Orr, Nicholas, Schoemaker, Minouk J, and Swerdlow, Anthony

Subjects

Cancer, Human Genome, Prevention, Breast Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, 3' Untranslated Regions, Aurora Kinase B, Breast Neoplasms, Case-Control Studies, Cell Cycle Proteins, Chromosomal Proteins, Non-Histone, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Inhibitor of Apoptosis Proteins, Polymorphism, Single Nucleotide, Receptors, Estrogen, Risk, Survivin, White People, kConFab Investigators, Australian Ovarian Cancer Study Group, GENICA Network, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

The chromosomal passenger complex (CPC) plays a pivotal role in the regulation of cell division. Therefore, inherited CPC variability could influence tumor development. The present candidate gene approach investigates the relationship between single nucleotide polymorphisms (SNPs) in genes encoding key CPC components and breast cancer risk. Fifteen SNPs in four CPC genes (INCENP, AURKB, BIRC5 and CDCA8) were genotyped in 88 911 European women from 39 case-control studies of the Breast Cancer Association Consortium. Possible associations were investigated in fixed-effects meta-analyses. The synonymous SNP rs1675126 in exon 7 of INCENP was associated with overall breast cancer risk [per A allele odds ratio (OR) 0.95, 95% confidence interval (CI) 0.92-0.98, P = 0.007] and particularly with estrogen receptor (ER)-negative breast tumors (per A allele OR 0.89, 95% CI 0.83-0.95, P = 0.0005). SNPs not directly genotyped were imputed based on 1000 Genomes. The SNPs rs1047739 in the 3' untranslated region and rs144045115 downstream of INCENP showed the strongest association signals for overall (per T allele OR 1.03, 95% CI 1.00-1.06, P = 0.0009) and ER-negative breast cancer risk (per A allele OR 1.06, 95% CI 1.02-1.10, P = 0.0002). Two genotyped SNPs in BIRC5 were associated with familial breast cancer risk (top SNP rs2071214: per G allele OR 1.12, 95% CI 1.04-1.21, P = 0.002). The data suggest that INCENP in the CPC pathway contributes to ER-negative breast cancer susceptibility in the European population. In spite of a modest contribution of CPC-inherited variants to the total burden of sporadic and familial breast cancer, their potential as novel targets for breast cancer treatment should be further investigated.

Published

2015

48. Fine-Scale Mapping of the 5q11.2 Breast Cancer Locus Reveals at Least Three Independent Risk Variants Regulating MAP3K1

Author

Glubb, Dylan M, Maranian, Mel J, Michailidou, Kyriaki, Pooley, Karen A, Meyer, Kerstin B, Kar, Siddhartha, Carlebur, Saskia, O’Reilly, Martin, Betts, Joshua A, Hillman, Kristine M, Kaufmann, Susanne, Beesley, Jonathan, Canisius, Sander, Hopper, John L, Southey, Melissa C, Tsimiklis, Helen, Apicella, Carmel, Schmidt, Marjanka K, Broeks, Annegien, Hogervorst, Frans B, van der Schoot, C Ellen, Muir, Kenneth, Lophatananon, Artitaya, Stewart-Brown, Sarah, Siriwanarangsan, Pornthep, Fasching, Peter A, Ruebner, Matthias, Ekici, Arif B, Beckmann, Matthias W, Peto, Julian, dos-Santos-Silva, Isabel, Fletcher, Olivia, Johnson, Nichola, Pharoah, Paul DP, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Sawyer, Elinor J, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Burwinkel, Barbara, Marme, Frederik, Yang, Rongxi, Surowy, Harald, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Sanchez, Marie, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, González-Neira, Anna, Benitez, Javier, Zamora, M Pilar, Perez, Jose Ignacio Arias, Anton-Culver, Hoda, Neuhausen, Susan L, Brenner, Hermann, Dieffenbach, Aida Karina, Arndt, Volker, Stegmaier, Christa, Meindl, Alfons, Schmutzler, Rita K, Brauch, Hiltrud, Ko, Yon-Dschun, Brüning, Thomas, Network, The GENICA, Nevanlinna, Heli, Muranen, Taru A, Aittomäki, Kristiina, Blomqvist, Carl, Matsuo, Keitaro, Ito, Hidemi, Iwata, Hiroji, Tanaka, Hideo, Dörk, Thilo, Bogdanova, Natalia V, Helbig, Sonja, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kataja, Vesa, Kosma, Veli-Matti, Hartikainen, Jaana M, Investigators, kConFab, Wu, Anna H, Tseng, Chiu-chen, Van Den Berg, David, Stram, Daniel O, Lambrechts, Diether, Zhao, Hui, Weltens, Caroline, van Limbergen, Erik, Chang-Claude, Jenny, Flesch-Janys, Dieter, Rudolph, Anja, Seibold, Petra, and Radice, Paolo

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Oncology and Carcinogenesis, Human Genome, Prevention, Breast Cancer, Cancer, Estrogen, 2.1 Biological and endogenous factors, Aetiology, Alleles, Breast Neoplasms, Case-Control Studies, Cell Line, Tumor, Chromosome Mapping, Chromosomes, Human, Pair 5, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, Genotyping Techniques, Humans, MAP Kinase Kinase Kinase 1, MCF-7 Cells, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Quantitative Trait Loci, Racial Groups, Risk Factors, GENICA Network, kConFab Investigators, Norwegian Breast Cancer Study, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Genome-wide association studies (GWASs) have revealed SNP rs889312 on 5q11.2 to be associated with breast cancer risk in women of European ancestry. In an attempt to identify the biologically relevant variants, we analyzed 909 genetic variants across 5q11.2 in 103,991 breast cancer individuals and control individuals from 52 studies in the Breast Cancer Association Consortium. Multiple logistic regression analyses identified three independent risk signals: the strongest associations were with 15 correlated variants (iCHAV1), where the minor allele of the best candidate, rs62355902, associated with significantly increased risks of both estrogen-receptor-positive (ER(+): odds ratio [OR] = 1.24, 95% confidence interval [CI] = 1.21-1.27, ptrend = 5.7 × 10(-44)) and estrogen-receptor-negative (ER(-): OR = 1.10, 95% CI = 1.05-1.15, ptrend = 3.0 × 10(-4)) tumors. After adjustment for rs62355902, we found evidence of association of a further 173 variants (iCHAV2) containing three subsets with a range of effects (the strongest was rs113317823 [pcond = 1.61 × 10(-5)]) and five variants composing iCHAV3 (lead rs11949391; ER(+): OR = 0.90, 95% CI = 0.87-0.93, pcond = 1.4 × 10(-4)). Twenty-six percent of the prioritized candidate variants coincided with four putative regulatory elements that interact with the MAP3K1 promoter through chromatin looping and affect MAP3K1 promoter activity. Functional analysis indicated that the cancer risk alleles of four candidates (rs74345699 and rs62355900 [iCHAV1], rs16886397 [iCHAV2a], and rs17432750 [iCHAV3]) increased MAP3K1 transcriptional activity. Chromatin immunoprecipitation analysis revealed diminished GATA3 binding to the minor (cancer-protective) allele of rs17432750, indicating a mechanism for its action. We propose that the cancer risk alleles act to increase MAP3K1 expression in vivo and might promote breast cancer cell survival.

Published

2015

49. Identification and characterization of novel associations in the CASP8/ALS2CR12 region on chromosome 2 with breast cancer risk.

Author

Lin, Wei-Yu, Camp, Nicola J, Ghoussaini, Maya, Beesley, Jonathan, Michailidou, Kyriaki, Hopper, John L, Apicella, Carmel, Southey, Melissa C, Stone, Jennifer, Schmidt, Marjanka K, Broeks, Annegien, Van't Veer, Laura J, Th Rutgers, Emiel J, Muir, Kenneth, Lophatananon, Artitaya, Stewart-Brown, Sarah, Siriwanarangsan, Pornthep, Fasching, Peter A, Haeberle, Lothar, Ekici, Arif B, Beckmann, Matthias W, Peto, Julian, Dos-Santos-Silva, Isabel, Fletcher, Olivia, Johnson, Nichola, Bolla, Manjeet K, Wang, Qin, Dennis, Joe, Sawyer, Elinor J, Cheng, Timothy, Tomlinson, Ian, Kerin, Michael J, Miller, Nicola, Marmé, Frederik, Surowy, Harald M, Burwinkel, Barbara, Guénel, Pascal, Truong, Thérèse, Menegaux, Florence, Mulot, Claire, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, Benitez, Javier, Zamora, M Pilar, Arias Perez, Jose Ignacio, Menéndez, Primitiva, González-Neira, Anna, Pita, Guillermo, Alonso, M Rosario, Alvarez, Nuria, Herrero, Daniel, Anton-Culver, Hoda, Brenner, Hermann, Dieffenbach, Aida Karina, Arndt, Volker, Stegmaier, Christa, Meindl, Alfons, Lichtner, Peter, Schmutzler, Rita K, Müller-Myhsok, Bertram, Brauch, Hiltrud, Brüning, Thomas, Ko, Yon-Dschun, GENICA Network, Tessier, Daniel C, Vincent, Daniel, Bacot, Francois, Nevanlinna, Heli, Aittomäki, Kristiina, Blomqvist, Carl, Khan, Sofia, Matsuo, Keitaro, Ito, Hidemi, Iwata, Hiroji, Horio, Akiyo, Bogdanova, Natalia V, Antonenkova, Natalia N, Dörk, Thilo, Lindblom, Annika, Margolin, Sara, Mannermaa, Arto, Kataja, Vesa, Kosma, Veli-Matti, Hartikainen, Jaana M, kConFab Investigators, Australian Ovarian Cancer Study Group, Wu, Anna H, Tseng, Chiu-Chen, Van Den Berg, David, Stram, Daniel O, Neven, Patrick, Wauters, Els, Wildiers, Hans, Lambrechts, Diether, Chang-Claude, Jenny, Rudolph, Anja, Seibold, Petra, and Flesch-Janys, Dieter

Subjects

GENICA Network, kConFab Investigators, Australian Ovarian Cancer Study Group, Breast and Ovarian Cancer Susceptibility (BOCS) Study, Chromosomes, Human, Pair 2, Humans, Breast Neoplasms, Genetic Predisposition to Disease, Proteins, Case-Control Studies, Polymorphism, Single Nucleotide, European Continental Ancestry Group, Female, Caspase 8, CASP8 and FADD-Like Apoptosis Regulating Protein, Genome-Wide Association Study, Genotyping Techniques, Chromosomes, Human, Pair 2, Polymorphism, Single Nucleotide, Prevention, Genetics, Human Genome, Breast Cancer, Cancer, Biotechnology, 2.1 Biological and endogenous factors, Biological Sciences, Medical and Health Sciences, Genetics & Heredity

Abstract

Previous studies have suggested that polymorphisms in CASP8 on chromosome 2 are associated with breast cancer risk. To clarify the role of CASP8 in breast cancer susceptibility, we carried out dense genotyping of this region in the Breast Cancer Association Consortium (BCAC). Single-nucleotide polymorphisms (SNPs) spanning a 1 Mb region around CASP8 were genotyped in 46 450 breast cancer cases and 42 600 controls of European origin from 41 studies participating in the BCAC as part of a custom genotyping array experiment (iCOGS). Missing genotypes and SNPs were imputed and, after quality exclusions, 501 typed and 1232 imputed SNPs were included in logistic regression models adjusting for study and ancestry principal components. The SNPs retained in the final model were investigated further in data from nine genome-wide association studies (GWAS) comprising in total 10 052 case and 12 575 control subjects. The most significant association signal observed in European subjects was for the imputed intronic SNP rs1830298 in ALS2CR12 (telomeric to CASP8), with per allele odds ratio and 95% confidence interval [OR (95% confidence interval, CI)] for the minor allele of 1.05 (1.03-1.07), P = 1 × 10(-5). Three additional independent signals from intronic SNPs were identified, in CASP8 (rs36043647), ALS2CR11 (rs59278883) and CFLAR (rs7558475). The association with rs1830298 was replicated in the imputed results from the combined GWAS (P = 3 × 10(-6)), yielding a combined OR (95% CI) of 1.06 (1.04-1.08), P = 1 × 10(-9). Analyses of gene expression associations in peripheral blood and normal breast tissue indicate that CASP8 might be the target gene, suggesting a mechanism involving apoptosis.

Published

2015

50. Refined histopathological predictors of BRCA1 and BRCA2 mutation status: a large-scale analysis of breast cancer characteristics from the BCAC, CIMBA, and ENIGMA consortia.

Author

Spurdle, Amanda B, Couch, Fergus J, Parsons, Michael T, McGuffog, Lesley, Barrowdale, Daniel, Bolla, Manjeet K, Wang, Qin, Healey, Sue, Schmutzler, Rita, Wappenschmidt, Barbara, Rhiem, Kerstin, Hahnen, Eric, Engel, Christoph, Meindl, Alfons, Ditsch, Nina, Arnold, Norbert, Plendl, Hansjoerg, Niederacher, Dieter, Sutter, Christian, Wang-Gohrke, Shan, Steinemann, Doris, Preisler-Adams, Sabine, Kast, Karin, Varon-Mateeva, Raymonda, Ellis, Steve, Frost, Debra, Platte, Radka, Perkins, Jo, Evans, D Gareth, Izatt, Louise, Eeles, Ros, Adlard, Julian, Davidson, Rosemarie, Cole, Trevor, Scuvera, Giulietta, Manoukian, Siranoush, Bonanni, Bernardo, Mariette, Frederique, Fortuzzi, Stefano, Viel, Alessandra, Pasini, Barbara, Papi, Laura, Varesco, Liliana, Balleine, Rosemary, Nathanson, Katherine L, Domchek, Susan M, Offitt, Kenneth, Jakubowska, Anna, Lindor, Noralane, Thomassen, Mads, Jensen, Uffe Birk, Rantala, Johanna, Borg, Åke, Andrulis, Irene L, Miron, Alexander, Hansen, Thomas VO, Caldes, Trinidad, Neuhausen, Susan L, Toland, Amanda E, Nevanlinna, Heli, Montagna, Marco, Garber, Judy, Godwin, Andrew K, Osorio, Ana, Factor, Rachel E, Terry, Mary B, Rebbeck, Timothy R, Karlan, Beth Y, Southey, Melissa, Rashid, Muhammad Usman, Tung, Nadine, Pharoah, Paul DP, Blows, Fiona M, Dunning, Alison M, Provenzano, Elena, Hall, Per, Czene, Kamila, Schmidt, Marjanka K, Broeks, Annegien, Cornelissen, Sten, Verhoef, Senno, Fasching, Peter A, Beckmann, Matthias W, Ekici, Arif B, Slamon, Dennis J, Bojesen, Stig E, Nordestgaard, Børge G, Nielsen, Sune F, Flyger, Henrik, Chang-Claude, Jenny, Flesch-Janys, Dieter, Rudolph, Anja, Seibold, Petra, Aittomäki, Kristiina, Muranen, Taru A, Heikkilä, Päivi, Blomqvist, Carl, Figueroa, Jonine, Chanock, Stephen J, and Brinton, Louise

Subjects

ABCTB Investigators, EMBRACE Group, GENICA Network, HEBON Group, kConFab Investigators, Humans, Carcinoma, Breast Neoplasms, Receptor, erbB-2, Receptors, Estrogen, Receptors, Progesterone, Neoplasm Staging, Likelihood Functions, Age Factors, Mutation, Genes, BRCA1, Genes, BRCA2, Adult, Aged, Middle Aged, Female, Neoplasm Grading, Triple Negative Breast Neoplasms, Receptor, ErbB-2, Receptor, erbB-2, Receptors, Estrogen, Progesterone, Genes, BRCA1, BRCA2, ErbB-2, Prevention, Breast Cancer, Cancer, Genetics, 4.2 Evaluation of markers and technologies, Oncology & Carcinogenesis, Oncology and Carcinogenesis

Abstract

IntroductionThe distribution of histopathological features of invasive breast tumors in BRCA1 or BRCA2 germline mutation carriers differs from that of individuals with no known mutation. Histopathological features thus have utility for mutation prediction, including statistical modeling to assess pathogenicity of BRCA1 or BRCA2 variants of uncertain clinical significance. We analyzed large pathology datasets accrued by the Consortium of Investigators of Modifiers of BRCA1/2 (CIMBA) and the Breast Cancer Association Consortium (BCAC) to reassess histopathological predictors of BRCA1 and BRCA2 mutation status, and provide robust likelihood ratio (LR) estimates for statistical modeling.MethodsSelection criteria for study/center inclusion were estrogen receptor (ER) status or grade data available for invasive breast cancer diagnosed younger than 70 years. The dataset included 4,477 BRCA1 mutation carriers, 2,565 BRCA2 mutation carriers, and 47,565 BCAC breast cancer cases. Country-stratified estimates of the likelihood of mutation status by histopathological markers were derived using a Mantel-Haenszel approach.ResultsER-positive phenotype negatively predicted BRCA1 mutation status, irrespective of grade (LRs from 0.08 to 0.90). ER-negative grade 3 histopathology was more predictive of positive BRCA1 mutation status in women 50 years or older (LR = 4.13 (3.70 to 4.62)) versus younger than 50 years (LR = 3.16 (2.96 to 3.37)). For BRCA2, ER-positive grade 3 phenotype modestly predicted positive mutation status irrespective of age (LR = 1.7-fold), whereas ER-negative grade 3 features modestly predicted positive mutation status at 50 years or older (LR = 1.54 (1.27 to 1.88)). Triple-negative tumor status was highly predictive of BRCA1 mutation status for women younger than 50 years (LR = 3.73 (3.43 to 4.05)) and 50 years or older (LR = 4.41 (3.86 to 5.04)), and modestly predictive of positive BRCA2 mutation status in women 50 years or older (LR = 1.79 (1.42 to 2.24)).ConclusionsThese results refine likelihood-ratio estimates for predicting BRCA1 and BRCA2 mutation status by using commonly measured histopathological features. Age at diagnosis is an important variable for most analyses, and grade is more informative than ER status for BRCA2 mutation carrier prediction. The estimates will improve BRCA1 and BRCA2 variant classification and inform patient mutation testing and clinical management.

Published

2014