Your search keyword '"Weischer M"' showing total 112 results

1. Characterizing prostate cancer risk through multi-ancestry genome-wide discovery of 187 novel risk variants.

Author

Wang, A, Shen, J, Rodriguez, AA, Saunders, EJ, Chen, F, Janivara, R, Darst, BF, Sheng, X, Xu, Y, Chou, AJ, Benlloch, S, Dadaev, T, Brook, MN, Plym, A, Sahimi, A, Hoffman, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Laisk, T, Figuerêdo, J, Muir, K, Ito, S, Liu, X, Biobank Japan Project, Uchio, Y, Kubo, M, Kamatani, Y, Lophatananon, A, Wan, P, Andrews, C, Lori, A, Choudhury, PP, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Rentsch, CT, Cho, K, Mcmahon, BH, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, A, Stroomberg, HV, Batra, J, Chambers, S, Horvath, L, Clements, JA, Tilly, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, S, Cook, MB, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Koutros, S, Beane Freeman, LE, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Butler, EN, Mohler, JL, Taylor, JA, Kogevinas, M, Dierssen-Sotos, T, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Pilie, P, Yu, Y, Bohlender, RJ, Gu, J, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Brenner, H, Chen, X, Holleczek, B, Schöttker, B, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, CM, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Abraham, A, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, J, Petrovics, G, Casey, G, Wang, Y, Tettey, Y, Lachance, J, Tang, W, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Yamoah, K, Govindasami, K, Chokkalingam, AP, Keaton, JM, Hellwege, JN, Clark, PE, Jalloh, M, Gueye, SM, Niang, L, Ogunbiyi, O, Shittu, O, Amodu, O, Adebiyi, AO, Aisuodionoe-Shadrach, OI, Ajibola, HO, Jamda, MA, Oluwole, OP, Nwegbu, M, Adusei, B, Mante, S, Darkwa-Abrahams, A, Diop, H, Gundell, SM, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Kachuri, L, Varma, R, McKean-Cowdin, R, Torres, M, Preuss, MH, Loos, RJF, Zawistowski, M, Zöllner, S, Lu, Z, Van Den Eeden, SK, Easton, DF, Ambs, S, Edwards, TL, Mägi, R, Rebbeck, TR, Fritsche, L, Chanock, SJ, Berndt, SI, Wiklund, F, Nakagawa, H, Witte, JS, Gaziano, JM, Justice, AC, Mancuso, N, Terao, C, Eeles, RA, Kote-Jarai, Z, Madduri, RK, Conti, DV, Haiman, CA, Wang, A, Shen, J, Rodriguez, AA, Saunders, EJ, Chen, F, Janivara, R, Darst, BF, Sheng, X, Xu, Y, Chou, AJ, Benlloch, S, Dadaev, T, Brook, MN, Plym, A, Sahimi, A, Hoffman, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Laisk, T, Figuerêdo, J, Muir, K, Ito, S, Liu, X, Biobank Japan Project, Uchio, Y, Kubo, M, Kamatani, Y, Lophatananon, A, Wan, P, Andrews, C, Lori, A, Choudhury, PP, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Rentsch, CT, Cho, K, Mcmahon, BH, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, A, Stroomberg, HV, Batra, J, Chambers, S, Horvath, L, Clements, JA, Tilly, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, S, Cook, MB, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Koutros, S, Beane Freeman, LE, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Butler, EN, Mohler, JL, Taylor, JA, Kogevinas, M, Dierssen-Sotos, T, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Pilie, P, Yu, Y, Bohlender, RJ, Gu, J, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Brenner, H, Chen, X, Holleczek, B, Schöttker, B, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, CM, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Abraham, A, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, J, Petrovics, G, Casey, G, Wang, Y, Tettey, Y, Lachance, J, Tang, W, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Yamoah, K, Govindasami, K, Chokkalingam, AP, Keaton, JM, Hellwege, JN, Clark, PE, Jalloh, M, Gueye, SM, Niang, L, Ogunbiyi, O, Shittu, O, Amodu, O, Adebiyi, AO, Aisuodionoe-Shadrach, OI, Ajibola, HO, Jamda, MA, Oluwole, OP, Nwegbu, M, Adusei, B, Mante, S, Darkwa-Abrahams, A, Diop, H, Gundell, SM, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Kachuri, L, Varma, R, McKean-Cowdin, R, Torres, M, Preuss, MH, Loos, RJF, Zawistowski, M, Zöllner, S, Lu, Z, Van Den Eeden, SK, Easton, DF, Ambs, S, Edwards, TL, Mägi, R, Rebbeck, TR, Fritsche, L, Chanock, SJ, Berndt, SI, Wiklund, F, Nakagawa, H, Witte, JS, Gaziano, JM, Justice, AC, Mancuso, N, Terao, C, Eeles, RA, Kote-Jarai, Z, Madduri, RK, Conti, DV, and Haiman, CA

Abstract

The transferability and clinical value of genetic risk scores (GRSs) across populations remain limited due to an imbalance in genetic studies across ancestrally diverse populations. Here we conducted a multi-ancestry genome-wide association study of 156,319 prostate cancer cases and 788,443 controls of European, African, Asian and Hispanic men, reflecting a 57% increase in the number of non-European cases over previous prostate cancer genome-wide association studies. We identified 187 novel risk variants for prostate cancer, increasing the total number of risk variants to 451. An externally replicated multi-ancestry GRS was associated with risk that ranged from 1.8 (per standard deviation) in African ancestry men to 2.2 in European ancestry men. The GRS was associated with a greater risk of aggressive versus non-aggressive disease in men of African ancestry (P = 0.03). Our study presents novel prostate cancer susceptibility loci and a GRS with effective risk stratification across ancestry groups.

Published

2023

2. Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction (Nature Genetics, (2021), 53, 1, (65-75), 10.1038/s41588-020-00748-0).

Author

Lessel D., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Fujita M., Muir K., Lophatananon A., Wan P., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Thompson I.M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Lessel D., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Fujita M., Muir K., Lophatananon A., Wan P., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Thompson I.M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., and Larkin S.

Abstract

In the version of this article originally published, the names of the equally contributing authors and jointly supervising authors were switched. The correct affiliations are: "These authors contributed equally: David V. Conti, Burcu F. Darst. These authors jointly supervised this work: David V. Conti, Rosalind A. Eeles, Zsofia Kote-Jarai, Christopher A. Haiman." The error has been corrected in the HTML and PDF versions of the article.Copyright © 2021, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published

2021

3. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Thompson I.M., Muir K., Lophatananon A., Wan P., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Lessel D., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Fujita M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Thompson I.M., Muir K., Lophatananon A., Wan P., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Lessel D., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Fujita M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., and Ingles S.A.

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.Copyright © 2021, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published

2021

4. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction

Author

Conti, D, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Al Olama, AA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Roder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-E, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Hakansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sorensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gomez-Caamano, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandao, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castano-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, S, Van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Haiman, CA, Conti, D, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Al Olama, AA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Roder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-E, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Hakansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sorensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gomez-Caamano, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandao, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castano-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, S, Van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, and Haiman, CA

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.

Published

2021

5. Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction

Author

Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Haiman, CA, Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, and Haiman, CA

Abstract

In the version of this article originally published, the names of the equally contributing authors and jointly supervising authors were switched. The correct affiliations are: “These authors contributed equally: David V. Conti, Burcu F. Darst. These authors jointly supervised this work: David V. Conti, Rosalind A. Eeles, Zsofia Kote-Jarai, Christopher A. Haiman.” The error has been corrected in the HTML and PDF versions of the article.

Published

2021

6. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Sahimi, A, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Hoffmann, TJ, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Takahashi, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Matsuda, K, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Momozawa, Y, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Fujita, M, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Muir, K, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Lophatananon, A, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Wan, P, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Le Marchand, L, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Wilkens, LR, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Stevens, VL, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Gapstur, SM, Haiman, CA, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Sahimi, A, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Hoffmann, TJ, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Takahashi, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Matsuda, K, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Momozawa, Y, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Fujita, M, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Muir, K, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Lophatananon, A, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Wan, P, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Le Marchand, L, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Wilkens, LR, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Stevens, VL, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Gapstur, SM, Haiman, CA, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, and Lu, Y-J

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.

Published

2021

7. Correction to: Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci (Nature Genetics, (2018), 50, 7, (928-936), 10.1038/s41588-018-0142-8).

Author

Xu J., Tyrer J., Truong T., Koudou Y.A., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Olama A.A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Grindedal E.M., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., FitzGerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard B.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., Holleczek B., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Gago-Dominguez M., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., van Schaik R.H.N., Menegaux F., Xu J., Tyrer J., Truong T., Koudou Y.A., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Olama A.A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Grindedal E.M., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., FitzGerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard B.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., Holleczek B., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Gago-Dominguez M., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., van Schaik R.H.N., and Menegaux F.

Abstract

In the version of this article initially published, the name of author Manuela Gago-Dominguez was misspelled as Manuela Gago Dominguez. The error has been corrected in the HTML and PDF version of the article.Copyright © 2018, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published

2019

8. Author Correction: Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci (Nature Genetics, (2018), 50, 7, (928-936), 10.1038/s41588-018-0142-8).

Author

Truong T., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Olama A.A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Tyrer J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Grindedal E.M., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., FitzGerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard B.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., Holleczek B., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Gago-Dominguez M., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., van Schaik R.H.N., Menegaux F., Koudou Y.A., Xu J., Truong T., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Olama A.A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Tyrer J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Grindedal E.M., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., FitzGerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard B.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., Holleczek B., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Gago-Dominguez M., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., van Schaik R.H.N., Menegaux F., Koudou Y.A., and Xu J.

Abstract

In the version of this article initially published, the name of author Manuela Gago-Dominguez was misspelled as Manuela Gago Dominguez. The error has been corrected in the HTML and PDF version of the article.Copyright © 2018, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published

2019

9. Bromodomain protein 4 discriminates tissue-specific super-enhancers containing disease-specific susceptibility loci in prostate and breast cancer

Author

Zuber, V., Bettella, F., Witoelar, A.W., Andreassen, O.A., Mills, I.G., Urbanucci, A., Eeles, R.A., Easton, D.F., Kote-Jarai, Z., Al Olama, A.A., Benlloch, S., Muir, K., Giles, G.G., Wiklund, F., Grönberg, H., Haiman, C.A., Schleutker, J., Weischer, M., Travis, R.C., Neal, D., Pharoah, P., Khaw, K.T., Stanford, J.L., Blot, W.J., Thibodeau, S.N., Maier, C., Kibel, A.S., Cybulski, C., Cannon-Albright, L., Brenner, H., Park, J., Kaneva, R., Batra, J., Teixeira, M.R., Pandha, H., Chenevix-Trench, G., Humphreys, M.K., Hung, R.J., Han, Y., Brennan, P., Bickeböller, H., Rosenberger, A., Houlston, R.S., Caporaso, N., Landi, M.T., Heinrich, J., Risch, A., Wu, X., Ye, Y., Christiani, D.C., Amos, C.I., Michailidou, K., Bolla, M.K., Wang, Q., Berchuck, A., Antoniou, A.C., McGuffog, L., Couch, F.J., Offit, K., Dennis, J., Dunning, A.M., Lee, A., Dicks, E., Luccarini, C., Benítez, J., González-Neira, A., Simard, J., Tessier, D.C., Bacot, F., Vincent, D., Laboissiere, S., and Wrightson, R

Subjects

Male, Quantitative Trait Loci, Breast Neoplasms, Cell Cycle Proteins, Brd4, Breast Cancer Risk, Chromatin, Functional Annotation, Genome-wide Association Studies, Prostate Cancer Risk, Risk Loci, Schizophrenia, Snps, Super-enhancer, Genome-wide association studies, Polymorphism, Single Nucleotide, Epigenesis, Genetic, Histones, breast cancer risk, SDG 3 - Good Health and Well-being, super-enhancer, Genetics, Journal Article, Humans, Genetic Predisposition to Disease, Risk loci, Binding Sites, Chromosome Mapping, Computational Biology, Nuclear Proteins, Prostatic Neoplasms, Functional annotation, Prostate cancer risk, schizophrenia, Gene Expression Regulation, Neoplastic, Enhancer Elements, Genetic, Organ Specificity, Receptors, Androgen, BRD4, Female, Research Article, SNPs, Genome-Wide Association Study, Protein Binding, Transcription Factors, Biotechnology

Abstract

Background Epigenetic information can be used to identify clinically relevant genomic variants single nucleotide polymorphisms (SNPs) of functional importance in cancer development. Super-enhancers are cell-specific DNA elements, acting to determine tissue or cell identity and driving tumor progression. Although previous approaches have been tried to explain risk associated with SNPs in regulatory DNA elements, so far epigenetic readers such as bromodomain containing protein 4 (BRD4) and super-enhancers have not been used to annotate SNPs. In prostate cancer (PC), androgen receptor (AR) binding sites to chromatin have been used to inform functional annotations of SNPs. Results Here we establish criteria for enhancer mapping which are applicable to other diseases and traits to achieve the optimal tissue-specific enrichment of PC risk SNPs. We used stratified Q-Q plots and Fisher test to assess the differential enrichment of SNPs mapping to specific categories of enhancers. We find that BRD4 is the key discriminant of tissue-specific enhancers, showing that it is more powerful than AR binding information to capture PC specific risk loci, and can be used with similar effect in breast cancer (BC) and applied to other diseases such as schizophrenia. Conclusions This is the first study to evaluate the enrichment of epigenetic readers in genome-wide associations studies for SNPs within enhancers, and provides a powerful tool for enriching and prioritizing PC and BC genetic risk loci. Our study represents a proof of principle applicable to other diseases and traits that can be used to redefine molecular mechanisms of human phenotypic variation. Electronic supplementary material The online version of this article (doi:10.1186/s12864-017-3620-y) contains supplementary material, which is available to authorized users.

Published

2018

10. Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci.

Author

Grindedal E.M., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van Den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Dominguez M.G., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., Van Schaik R.H.N., Menegaux F., Truong T., Koudou Y.A., Xu J., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Al Olama A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Tyrer J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., Fitzgerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard Bo.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., Holleczek B., Grindedal E.M., Maier C., Luedeke M., Schnoeller T., Kim J., Logothetis C.J., John E.M., Teixeira M.R., Paulo P., Cardoso M., Neuhausen S.L., Steele L., Ding Y.C., De Ruyck K., De Meerleer G., Ost P., Razack A., Lim J., Teo S.-H., Lin D.W., Newcomb L.F., Lessel D., Gamulin M., Kulis T., Kaneva R., Usmani N., Singhal S., Slavov C., Mitev V., Parliament M., Claessens F., Joniau S., Van Den Broeck T., Larkin S., Townsend P.A., Aukim-Hastie C., Dominguez M.G., Castelao J.E., Martinez M.E., Roobol M.J., Jenster G., Van Schaik R.H.N., Menegaux F., Truong T., Koudou Y.A., Xu J., Khaw K.-T., Cannon-Albright L., Pandha H., Michael A., Thibodeau S.N., McDonnell S.K., Schaid D.J., Lindstrom S., Turman C., Ma J., Hunter D.J., Riboli E., Siddiq A., Canzian F., Kolonel L.N., Le Marchand L., Hoover R.N., Machiela M.J., Cui Z., Kraft P., Amos C.I., Conti D.V., Easton D.F., Wiklund F., Chanock S.J., Henderson B.E., Kote-Jarai Z., Haiman C.A., Eeles R.A., Schumacher F.R., Al Olama A.A., Berndt S.I., Benlloch S., Ahmed M., Saunders E.J., Dadaev T., Leongamornlert D., Anokian E., Cieza-Borrella C., Goh C., Brook M.N., Sheng X., Fachal L., Dennis J., Tyrer J., Muir K., Lophatananon A., Stevens V.L., Gapstur S.M., Carter B.D., Tangen C.M., Goodman P.J., Thompson I.M., Batra J., Chambers S., Moya L., Clements J., Horvath L., Tilley W., Risbridger G.P., Gronberg H., Aly M., Nordstrom T., Pharoah P., Pashayan N., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Albanes D., Weinstein S., Wolk A., Hakansson N., West C.M.L., Dunning A.M., Burnet N., Mucci L.A., Giovannucci E., Andriole G.L., Cussenot O., Cancel-Tassin G., Koutros S., Beane Freeman L.E., Sorensen K.D., Orntoft T.F., Borre M., Maehle L., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Travis R.C., Key T.J., Hamilton R.J., Fleshner N.E., Finelli A., Ingles S.A., Stern M.C., Rosenstein B.S., Kerns S.L., Ostrer H., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Guo X., Wang G., Sun Z., Giles G.G., Southey M.C., MacInnis R.J., Fitzgerald L.M., Kibel A.S., Drake B.F., Vega A., Gomez-Caamano A., Szulkin R., Eklund M., Kogevinas M., Llorca J., Castano-Vinyals G., Penney K.L., Stampfer M., Park J.Y., Sellers T.A., Lin H.-Y., Stanford J.L., Cybulski C., Wokolorczyk D., Lubinski J., Ostrander E.A., Geybels M.S., Nordestgaard Bo.G., Nielsen S.F., Weischer M., Bisbjerg R., Roder M.A., Iversen P., Brenner H., Cuk K., and Holleczek B.

Abstract

Genome-wide association studies (GWAS) and fine-mapping efforts to date have identified more than 100 prostate cancer (PrCa)-susceptibility loci. We meta-analyzed genotype data from a custom high-density array of 46,939 PrCa cases and 27,910 controls of European ancestry with previously genotyped data of 32,255 PrCa cases and 33,202 controls of European ancestry. Our analysis identified 62 novel loci associated (P < 5.0 x 10-8) with PrCa and one locus significantly associated with early-onset PrCa (<=55 years). Our findings include missense variants rs1800057 (odds ratio (OR) = 1.16; P = 8.2 x 10-9; G>C, p.Pro1054Arg) in ATM and rs2066827 (OR = 1.06; P = 2.3 x 10-9; T>G, p.Val109Gly) in CDKN1B. The combination of all loci captured 28.4% of the PrCa familial relative risk, and a polygenic risk score conferred an elevated PrCa risk for men in the ninetieth to ninety-ninth percentiles (relative risk = 2.69; 95% confidence interval (CI): 2.55-2.82) and first percentile (relative risk = 5.71; 95% CI: 5.04-6.48) risk stratum compared with the population average. These findings improve risk prediction, enhance fine-mapping, and provide insight into the underlying biology of PrCa 1 .Copyright © 2018 The Author(s).

Published

2018

11. Bromodomain protein 4 discriminates tissue-specific super-enhancers containing disease-specific susceptibility loci in prostate and breast cancer

Author

Zuber, V, Bettella, F, Witoelar, A, Andreassen, OA, Mills, IG, Urbanucci, A, Eeles, R, Easton, D, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Muir, K, Giles, GG, Wiklund, F, Gronberg, H, Haiman, CA, Schleutker, J, Weischer, M, Travis, RC, Neal, D, Pharoah, P, Khaw, KT, Stanford, JL, Blot, WJ, Thibodeau, S, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Brenner, H, Park, J, Kaneva, R, Batra, J, Teixeira, MR, Pandha, H, Chenevix-Trench, G, Humphreys, M, Hung, RJ, Han, Y, Brennan, P, Bickeböller, H, Rosenberger, A, Houlston, RS, Caporaso, N, Landi, MT, Heinrich, J, Risch, A, Wu, X, Ye, Y, Christiani, DC, Amos, CI, Easton, DF, Michailidou, K, Bolla, MK, Wang, Q, Berchuck, A, Antoniou, A, McGuffog, L, Couch, F, Offit, K, Dennis, J, Dunning, AM, Lee, A, Dicks, E, Luccarini, C, Benitez, J, Gonzalez-Neira, A, Simard, J, Tessier, DC, Bacot, F, Vincent, D, LaBoissière, S, Zuber, Verena [0000-0001-9827-1877], Pharoah, Paul [0000-0001-8494-732X], Khaw, Kay-Tee [0000-0002-8802-2903], Easton, Douglas [0000-0003-2444-3247], Wang, Jean [0000-0002-9139-0627], Antoniou, Antonis [0000-0001-9223-3116], Dennis, Joe [0000-0003-4591-1214], Dunning, Alison [0000-0001-6651-7166], Lee, Andrew [0000-0003-0677-0252], Dicks, Ed [0000-0002-0617-0401], and Apollo - University of Cambridge Repository

Subjects

risk loci, schizophrenia, breast cancer risk, super-enhancer, genome-wide association studies, BRD4, chromatin, functional annotation, prostate cancer risk, SNPs

Abstract

$\textbf{Background:}$ Epigenetic information can be used to identify clinically relevant genomic variants single nucleotide polymorphisms (SNPs) of functional importance in cancer development. Super-enhancers are cell-specific DNA elements, acting to determine tissue or cell identity and driving tumor progression. Although previous approaches have been tried to explain risk associated with SNPs in regulatory DNA elements, so far epigenetic readers such as bromodomain containing protein 4 (BRD4) and super-enhancers have not been used to annotate SNPs. In prostate cancer (PC), androgen receptor (AR) binding sites to chromatin have been used to inform functional annotations of SNPs. $\textbf{Results:}$ Here we establish criteria for enhancer mapping which are applicable to other diseases and traits to achieve the optimal tissue-specific enrichment of PC risk SNPs. We used stratified Q-Q plots and Fisher test to assess the differential enrichment of SNPs mapping to specific categories of enhancers. We find that BRD4 is the key discriminant of tissue-specific enhancers, showing that it is more powerful than AR binding information to capture PC specific risk loci, and can be used with similar effect in breast cancer (BC) and applied to other diseases such as schizophrenia. $\textbf{Conclusions:}$ This is the first study to evaluate the enrichment of epigenetic readers in genome-wide associations studies for SNPs within enhancers, and provides a powerful tool for enriching and prioritizing PC and BC genetic risk loci. Our study represents a proof of principle applicable to other diseases and traits that can be used to redefine molecular mechanisms of human phenotypic variation.

Published

2017

12. Atlas of prostate cancer heritability in European and African-American men pinpoints tissue-specific regulation

Author

Gusev, A, Shi, H, Kichaev, G, Pomerantz, M, Li, F, Long, HW, Ingles, SA, Kittles, RA, Strom, SS, Rybicki, BA, Nemesure, B, Isaacs, WB, Zheng, W, Pettaway, CA, Yeboah, ED, Tettey, Y, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Chokkalingam, AP, John, EM, Murphy, AB, Signorello, LB, Carpten, J, Leske, MC, Wu, S-Y, Hennis, AJM, Neslund-Dudas, C, Hsing, AW, Chu, L, Goodman, PJ, Klein, EA, Witte, JS, Casey, G, Kaggwa, S, Cook, MB, Stram, DO, Blot, WJ, Eeles, RA, Easton, D, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Muir, K, Giles, GG, Southey, MC, Fitzgerald, LM, Gronberg, H, Wiklund, F, Aly, M, Henderson, BE, Schleutker, J, Wahlfors, T, Tammela, TLJ, Nordestgaard, BG, Key, TJ, Travis, RC, Neal, DE, Donovan, JL, Hamdy, FC, Pharoah, P, Pashayan, N, Khaw, K-T, Stanford, JL, Thibodeau, SN, McDonnell, SK, Schaid, DJ, Maier, C, Vogel, W, Luedeke, M, Herkommer, K, Kibel, AS, Cybulski, C, Wokolorczyk, D, Kluzniak, W, Cannon-Albright, L, Teerlink, C, Brenner, H, Dieffenbach, AK, Arndt, V, Park, JY, Sellers, TA, Lin, H-Y, Slavov, C, Kaneva, R, Mitev, V, Batra, J, Spurdle, A, Clements, JA, Teixeira, MR, Pandha, H, Michael, A, Paulo, P, Maia, S, Kierzek, A, Conti, DV, Albanes, D, Berg, C, Berndt, SI, Campa, D, Crawford, ED, Diver, WR, Gapstur, SM, Gaziano, JM, Giovannucci, E, Hoover, R, Hunter, DJ, Johansson, M, Kraft, P, Le Marchand, L, Lindstrom, S, Navarro, C, Overvad, K, Riboli, E, Siddiq, A, Stevens, VL, Trichopoulos, D, Vineis, P, Yeager, M, Trynka, G, Raychaudhuri, S, Schumacher, FR, Price, AL, Freedman, ML, Haiman, CA, Pasaniuc, B, Cook, M, Guy, M, Govindasami, K, Leongamornlert, D, Sawyer, EJ, Wilkinson, R, Saunders, EJ, Tymrakiewicz, M, Dadaev, T, Morgan, A, Fisher, C, Hazel, S, Livni, N, Lophatananon, A, Pedersen, J, Hopper, JL, Adolfson, J, Stattin, P, Johansson, J-E, Cavalli-Bjoerkman, C, Karlsson, A, Broms, M, Auvinen, A, Kujala, P, Maeaettaenen, L, Murtola, T, Taari, K, Weischer, M, Nielsen, SF, Klarskov, P, Roder, A, Iversen, P, Wallinder, H, Gustafsson, S, Cox, A, Brown, P, George, A, Marsden, G, Lane, A, Davis, M, Tillmans, L, Riska, S, Wang, L, Rinckleb, A, Lubiski, J, Stegmaier, C, Pow-Sang, J, Park, H, Radlein, S, Rincon, M, Haley, J, Zachariah, B, Kachakova, D, Popov, E, Mitkova, A, Vlahova, A, Dikov, T, Christova, S, Heathcote, P, Wood, G, Malone, G, Saunders, P, Eckert, A, Yeadon, T, Kerr, K, Collins, A, Turner, M, Srinivasan, S, Kedda, M-A, Alexander, K, Omara, T, Wu, H, Henrique, R, Pinto, P, Santos, J, Barros-Silva, J, and Consortium, PRACTICAL

Subjects

urologic and male genital diseases

Abstract

Although genome-wide association studies have identified over 100 risk loci that explain ~33% of familial risk for prostate cancer (PrCa), their functional effects on risk remain largely unknown. Here we use genotype data from 59,089 men of European and African American ancestries combined with cell-type-specific epigenetic data to build a genomic atlas of single-nucleotide polymorphism (SNP) heritability in PrCa. We find significant differences in heritability between variants in prostate-relevant epigenetic marks defined in normal versus tumour tissue as well as between tissue and cell lines. The majority of SNP heritability lies in regions marked by H3k27 acetylation in prostate adenoc7arcinoma cell line (LNCaP) or by DNaseI hypersensitive sites in cancer cell lines. We find a high degree of similarity between European and African American ancestries suggesting a similar genetic architecture from common variation underlying PrCa risk. Our findings showcase the power of integrating functional annotation with genetic data to understand the genetic basis of PrCa.

Published

2016

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

Author

Southey, M. C. (Melissa C.), Goldgar, D. E. (David E.), Winqvist, R. (Robert), Pylkäs, K. (Katri), Couch, F. (Fergus), Tischkowitz, M. (Marc), Foulkes, W. D. (William D.), Dennis, J. (Joe), Michailidou, K. (Kyriaki), van Rensburg, E. J. (Elizabeth J.), Heikkinen, T. (Tuomas), Nevanlinna, H. (Heli), Hopper, J. L. (John L.), Doerk, T. (Thilo), Claes, K. B. (Kathleen B. M.), Reis-Filho, J. (Jorge), Teo, Z. L. (Zhi Ling), Radice, P. (Paolo), Catucci, I. (Irene), Peterlongo, P. (Paolo), Tsimiklis, H. (Helen), Odefrey, F. A. (Fabrice A.), Dowty, J. G. (James G.), Schmidt, M. K. (Marjanka K.), Broeks, A. (Annegien), Hogervorst, F. B. (Frans B.), Verhoef, S. (Senno), Carpenter, J. (Jane), Clarke, C. (Christine), Scott, R. J. (Rodney J.), Fasching, P. A. (Peter A.), Haeberle, L. (Lothar), Ekici, A. B. (Arif B.), Beckmann, M. W. (Matthias W.), Peto, J. (Julian), dos-Santos-Silva, I. (Isabel), Fletcher, O. (Olivia), Johnson, N. (Nichola), Bolla, M. K. (Manjeet K.), Sawyer, E. J. (Elinor J.), Tomlinson, I. (Ian), Kerin, M. J. (Michael J.), Miller, N. (Nicola), Marme, F. (Federik), Burwinkel, B. (Barbara), Yang, R. (Rongxi), Guenel, P. (Pascal), Menegaux, F. (Florence), Sanchez, M. (Marie), Bojesen, S. (Stig), Nielsen, S. F. (Sune F.), Flyger, H. (Henrik), Benitez, J. (Javier), Pilar Zamora, M. (M.), Arias Perez, J. I. (Jose Ignacio), Menendez, P. (Primitiva), Anton-Culver, H. (Hoda), Neuhausen, S. (Susan), Ziogas, A. (Argyrios), Clarke, C. A. (Christina A.), Brenner, H. (Hermann), Arndt, V. (Volker), Stegmaier, C. (Christa), Brauch, H. (Hiltrud), Bruening, T. (Thomas), Ko, Y.-D. (Yon-Dschun), Muranen, T. A. (Taru A.), Aittomaki, K. (Kristiina), Blomqvist, C. (Carl), Bogdanova, N. V. (Natalia V.), Antonenkova, N. N. (Natalia N.), Lindblom, A. (Annika), Margolin, S. (Sara), Mannermaa, A. (Arto), Kataja, V. (Vesa), Kosma, V.-M. (Veli-Matti), Hartikainen, J. M. (Jaana M.), Spurdle, A. B. (Amanda B.), Wauters, E. (Els), Smeets, D. (Dominiek), Beuselinck, B. (Benoit), Floris, G. (Giuseppe), Chang-Claude, J. (Jenny), Rudolph, A. (Anja), Seibold, P. (Petra), Flesch-Janys, D. (Dieter), Olson, J. E. (Janet E.), Vachon, C. (Celine), Pankratz, V. S. (Vernon S.), McLean, C. (Catriona), Haiman, C. A. (Christopher A.), Henderson, B. E. (Brian E.), Schumacher, F. (Fredrick), Le Marchand, L. (Loic), Kristensen, V. (Vessela), Alnaes, G. G. (Grethe Grenaker), Zheng, W. (Wei), Hunter, D. J. (David J.), Lindstrom, S. (Sara), Hankinson, S. E. (Susan E.), Kraft, P. (Peter), Andrulis, I. (Irene), Knight, J. A. (Julia A.), Glendon, G. (Gord), Mulligan, A. M. (Anna Marie), Jukkola-Vuorinen, A. (Arja), Grip, M. (Mervi), Kauppila, S. (Saila), Devilee, P. (Peter), Tollenaar, R. A. (Robert A. E. M.), Seynaeve, C. (Caroline), Hollestelle, A. (Antoinette), Garcia-Closas, M. (Montserrat), Figueroa, J. (Jonine), Chanock, S. J. (Stephen J.), Lissowska, J. (Jolanta), Czene, K. (Kamila), Darabi, H. (Hatef), Eriksson, M. (Mikael), Eccles, D. M. (Diana M.), Rafiq, S. (Sajjad), Tapper, W. J. (William J.), Gerty, S. M. (Sue M.), Hooning, M. J. (Maartje J.), Martens, J. W. (John W. M.), Collee, J. M. (J. Margriet), Tilanus-Linthorst, M. (Madeleine), Hall, P. (Per), Li, J. (Jingmei), Brand, J. S. (Judith S.), Humphreys, K. (Keith), Cox, A. (Angela), Reed, M. W. (Malcolm W. R.), Luccarini, C. (Craig), Baynes, C. (Caroline), Dunning, A. M. (Alison M.), Hamann, U. (Ute), Torres, D. (Diana), Ulmer, H. U. (Hans Ulrich), Ruediger, T. (Thomas), Jakubowska, A. (Anna), Lubinski, J. (Jan), Jaworska, K. (Katarzyna), Durda, K. (Katarzyna), Slager, S. (Susan), Toland, A. E. (Amanda E.), Ambrosone, C. B. (Christine B.), Yannoukakos, D. (Drakoulis), Swerdlow, A. (Anthony), Ashworth, A. (Alan), Orr, N. (Nick), Jones, M. (Michael), Gonzalez-Neira, A. (Anna), Pita, G. (Guillermo), Rosario Alonso, M. (M.), Alvarez, N. (Nuria), Herrero, D. (Daniel), Tessier, D. C. (Daniel C.), Vincent, D. (Daniel), Bacot, F. (Francois), Simard, J. (Jacques), Dumont, M. (Martine), Soucy, P. (Penny), Eeles, R. (Rosalind), Muir, K. (Kenneth), Wiklund, F. (Fredrik), Gronberg, H. (Henrik), Schleutker, J. (Johanna), Nordestgaard, B. G. (Borge G.), Weischer, M. (Maren), Travis, R. C. (Ruth C.), Neal, D. (David), Donovan, J. L. (Jenny L.), Hamdy, F. C. (Freddie C.), Khaw, K.-T. (Kay-Tee), Stanford, J. L. (Janet L.), Blot, W. J. (William J.), Thibodeau, S. (Stephen), Schaid, D. J. (Daniel J.), Kelley, J. L. (Joseph L.), Maier, C. (Christiane), Kibel, A. S. (Adam S.), Cybulski, C. (Cezary), Cannon-Albright, L. (Lisa), Butterbach, K. (Katja), Park, J. (Jong), Kaneva, R. (Radka), Batra, J. (Jyotsna), Teixeira, M. R. (Manuel R.), Kote-Jarai, Z. (Zsofia), Al Olama, A. A. (Ali Amin), Benlloch, S. (Sara), Renner, S. P. (Stefan P.), Hartmann, A. (Arndt), Hein, A. (Alexander), Ruebner, M. (Matthias), Lambrechts, D. (Diether), Van Nieuwenhuysen, E. (Els), Vergote, I. (Ignace), Lambretchs, S. (Sandrina), Doherty, J. A. (Jennifer A.), Rossing, M. A. (Mary Anne), Nickels, S. (Stefan), Eilber, U. (Ursula), Wang-Gohrke, S. (Shan), Odunsi, K. (Kunle), Sucheston-Campbell, L. E. (Lara E.), Friel, G. (Grace), Lurie, G. (Galina), Killeen, J. L. (Jeffrey L.), Wilkens, L. R. (Lynne R.), Goodman, M. T. (Marc T.), Runnebaum, I. (Ingo), Hillemanns, P. A. (Peter A.), Pelttari, L. M. (Liisa M.), Butzow, R. (Ralf), Modugno, F. (Francesmary), Edwards, R. P. (Robert P.), Ness, R. B. (Roberta B.), Moysich, K. B. (Kirsten B.), du Bois, A. (Andreas), Heitz, F. (Florian), Harter, P. (Philipp), Kommoss, S. (Stefan), Karlan, B. Y. (Beth Y.), Walsh, C. (Christine), Lester, J. (Jenny), Jensen, A. (Allan), Kjaer, S. K. (Susanne Kruger), Hogdall, E. (Estrid), Peissel, B. (Bernard), Bonanni, B. (Bernardo), Bernard, L. (Loris), Goode, E. L. (Ellen L.), Fridley, B. L. (Brooke L.), Vierkant, R. A. (Robert A.), Cunningham, J. M. (Julie M.), Larson, M. C. (Melissa C.), Fogarty, Z. C. (Zachary C.), Kalli, K. R. (Kimberly R.), Liang, D. (Dong), Lu, K. H. (Karen H.), Hildebrandt, M. A. (Michelle A. T.), Wu, X. (Xifeng), Levine, D. A. (Douglas A.), Dao, F. (Fanny), Bisogna, M. (Maria), Berchuck, A. (Andrew), Iversen, E. S. (Edwin S.), Marks, J. R. (Jeffrey R.), Akushevich, L. (Lucy), Cramer, D. W. (Daniel W.), Schildkraut, J. (Joellen), Terry, K. L. (Kathryn L.), Poole, E. M. (Elizabeth M.), Stampfer, M. (Meir), Tworoger, S. S. (Shelley S.), Bandera, E. V. (Elisa V.), Orlow, I. (Irene), Olson, S. H. (Sara H.), Bjorge, L. (Line), Salvesen, H. B. (Helga B.), van Altena, A. M. (Anne M.), Aben, K. K. (Katja K. H.), Kiemeney, L. A. (Lambertus A.), Massuger, L. F. (Leon F. A. G.), Pejovic, T. (Tanja), Bean, Y. (Yukie), Brooks-Wilson, A. (Angela), Kelemen, L. E. (Linda E.), Cook, L. S. (Linda S.), Le, N. D. (Nhu D.), Grski, B. (Bohdan), Gronwald, J. (Jacek), Menkiszak, J. (Janusz), Hogdall, C. K. (Claus K.), Lundvall, L. (Lene), Nedergaard, L. (Lotte), Engelholm, S. A. (Svend Aage), Dicks, E. (Ed), Tyrer, J. (Jonathan), Campbell, I. (Ian), McNeish, I. (Iain), Paul, J. (James), Siddiqui, N. (Nadeem), Glasspool, R. (Rosalind), Whittemore, A. S. (Alice S.), Rothstein, J. H. (Joseph H.), McGuire, V. (Valerie), Sieh, W. (Weiva), Cai, H. (Hui), Shu, X.-O. (Xiao-Ou), Teten, R. T. (Rachel T.), Sutphen, R. (Rebecca), McLaughlin, J. R. (John R.), Narod, S. A. (Steven A.), Phelan, C. M. (Catherine M.), Monteiro, A. N. (Alvaro N.), Fenstermacher, D. (David), Lin, H.-Y. (Hui-Yi), Permuth, J. B. (Jennifer B.), Sellers, T. A. (Thomas A.), Chen, Y. A. (Y. Ann), Tsai, Y.-Y. (Ya-Yu), Chen, Z. (Zhihua), Gentry-Maharaj, A. (Aleksandra), Gayther, S. A. (Simon A.), Ramus, S. J. (Susan J.), Menon, U. (Usha), Wu, A. H. (Anna H.), Pearce, C. L. (Celeste L.), Van den Berg, D. (David), Pike, M. C. (Malcolm C.), Dansonka-Mieszkowska, A. (Agnieszka), Plisiecka-Halasa, J. (Joanna), Moes-Sosnowska, J. (Joanna), Kupryjanczyk, J. (Jolanta), Pharoah, P. D. (Paul D. P.), Song, H. (Honglin), Winship, I. (Ingrid), Chenevix-Trench, G. (Georgia), Giles, G. G. (Graham G.), Tavtigian, S. V. (Sean V.), Easton, D. F. (Doug F.), and Milne, R. L. (Roger L.)

Subjects

skin and connective tissue diseases

Abstract

Background: The 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. Methods: We 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. Results: For 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. Conclusions: This 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

14. Risk Analysis of Prostate Cancer in PRACTICAL, a Multinational Consortium, Using 25 Known Prostate Cancer Susceptibility Loci

Author

Al Olama, A.A., Benlloch, S., Antoniou, A.C., Giles, G.G., Severi, G., Neal, D.E., Hamdy, F.C., Donovan, J.L., Muir, K., Schleutker, J., Henderson, B.E., Haiman, C.A., Schumacher, F.R., Pashayan, N., Pharoah, P.D.P., Ostrander, E.A., Stanford, J.L., Batra, J., Clements, J.A., Chambers, S.K., Weischer, M., Nordestgaard, B.G., Ingles, S.A., Sorensen, K.D., Orntoft, T.F., Park, J.Y., Cybulski, C., Maier, C., Doerk, T., Dickinson, J.L., Cannon-Albright, L., Brenner, H., Rebbeck, T.R., Zeigler-Johnson, C., Habuchi, T., Thibodeau, S.N., Cooney, K.A., Chappuis, P.O., Hutter, P., Kaneva, R.P., Foulkes, W.D., Zeegers, M.P., Lu, Y-J., Zhang, H-W., Stephenson, R., Cox, A., Southey, M.C., Spurdle, A.B., FitzGerald, L., Leongamornlert, D., Saunders, E., Tymrakiewicz, M., Guy, M., Dadaev, T., Little, S.J., Govindasami, K., Sawyer, E., Wilkinson, R., Herkommer, K., Hopper, J.L., Lophatonanon, A., Rinckleb, A.E., Kote-Jarai, Z., Eeles, R.A., Easton, D.F., Surgeons, B.A.U., Collaborators, U.K.P.S., Consortium, PRACTICAL., Amin Al Olama, Ali [0000-0002-7178-3431], Antoniou, Antonis [0000-0001-9223-3116], Pharoah, Paul [0000-0001-8494-732X], Easton, Douglas [0000-0003-2444-3247], and Apollo - University of Cambridge Repository

Subjects

Adult, Aged, 80 and over, Male, Genotype, Genetic Variation, Prostatic Neoplasms, Middle Aged, urologic and male genital diseases, Risk Assessment, Risk Factors, Odds Ratio, Humans, Genetic Predisposition to Disease, Alleles, Aged, Genome-Wide Association Study

Abstract

BACKGROUND: Genome-wide association studies have identified multiple genetic variants associated with prostate cancer risk which explain a substantial proportion of familial relative risk. These variants can be used to stratify individuals by their risk of prostate cancer. METHODS: We genotyped 25 prostate cancer susceptibility loci in 40,414 individuals and derived a polygenic risk score (PRS). We estimated empirical odds ratios (OR) for prostate cancer associated with different risk strata defined by PRS and derived age-specific absolute risks of developing prostate cancer by PRS stratum and family history. RESULTS: The prostate cancer risk for men in the top 1% of the PRS distribution was 30.6 (95% CI, 16.4-57.3) fold compared with men in the bottom 1%, and 4.2 (95% CI, 3.2-5.5) fold compared with the median risk. The absolute risk of prostate cancer by age of 85 years was 65.8% for a man with family history in the top 1% of the PRS distribution, compared with 3.7% for a man in the bottom 1%. The PRS was only weakly correlated with serum PSA level (correlation = 0.09). CONCLUSIONS: Risk profiling can identify men at substantially increased or reduced risk of prostate cancer. The effect size, measured by OR per unit PRS, was higher in men at younger ages and in men with family history of prostate cancer. Incorporating additional newly identified loci into a PRS should improve the predictive value of risk profiles. IMPACT: We demonstrate that the risk profiling based on SNPs can identify men at substantially increased or reduced risk that could have useful implications for targeted prevention and screening programs.

Published

2015

15. Pubertal development and prostate cancer risk: Mendelian randomization study in a population-based cohort

Author

Bonilla, C, Lewis, SJ, Martin, RM, Donovan, JL, Hamdy, FC, Neal, DE, Eeles, R, Easton, D, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Muir, K, Giles, GG, Wiklund, F, Gronberg, H, Haiman, CA, Schleutker, J, Nordestgaard, BG, Travis, RC, Pashayan, N, Khaw, KT, Stanford, JL, Blot, WJ, Thibodeau, S, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Brenner, H, Park, J, Kaneva, R, Batra, J, Teixeira, MR, Pandha, H, Lathrop, M, Smith, GD, Cook, M, Morga, A, Lophatananon, A, Fisher, C, Leongamornlert, D, Saunders, EJ, Sawyer, EJ, Govindasami, K, Tymrakiewicz, M, Guy, M, Livni, N, Wilkinson, R, Jugurnauth-Little, S, Hazel, S, Dadaev, T, Southey, MC, Fitzgerald, LM, Pedersen, J, Hopper, J, Karlsson, A, Cavalli-Bjoerkman, C, Johansson, JE, Adolfson, J, Aly, M, Broms, M, Stattin, P, Henderson, BE, Schumacher, F, Auvinen, A, Taari, K, Maeaettaenen, L, Kujala, P, Murtola, T, Tammela, TLJ, Sipeky, C, Roder, MA, Iversen, P, Klarskov, P, Nielsen, SF, Weischer, M, Bonilla, C, Lewis, SJ, Martin, RM, Donovan, JL, Hamdy, FC, Neal, DE, Eeles, R, Easton, D, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Muir, K, Giles, GG, Wiklund, F, Gronberg, H, Haiman, CA, Schleutker, J, Nordestgaard, BG, Travis, RC, Pashayan, N, Khaw, KT, Stanford, JL, Blot, WJ, Thibodeau, S, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Brenner, H, Park, J, Kaneva, R, Batra, J, Teixeira, MR, Pandha, H, Lathrop, M, Smith, GD, Cook, M, Morga, A, Lophatananon, A, Fisher, C, Leongamornlert, D, Saunders, EJ, Sawyer, EJ, Govindasami, K, Tymrakiewicz, M, Guy, M, Livni, N, Wilkinson, R, Jugurnauth-Little, S, Hazel, S, Dadaev, T, Southey, MC, Fitzgerald, LM, Pedersen, J, Hopper, J, Karlsson, A, Cavalli-Bjoerkman, C, Johansson, JE, Adolfson, J, Aly, M, Broms, M, Stattin, P, Henderson, BE, Schumacher, F, Auvinen, A, Taari, K, Maeaettaenen, L, Kujala, P, Murtola, T, Tammela, TLJ, Sipeky, C, Roder, MA, Iversen, P, Klarskov, P, Nielsen, SF, and Weischer, M

Abstract

© 2016 Bonilla et al. Background: Epidemiological studies have observed a positive association between an earlier age at sexual development and prostate cancer, but markers of sexual maturation in boys are imprecise and observational estimates are likely to suffer from a degree of uncontrolled confounding. To obtain causal estimates, we examined the role of pubertal development in prostate cancer using genetic polymorphisms associated with Tanner stage in adolescent boys in a Mendelian randomization (MR) approach. Methods: We derived a weighted genetic risk score for pubertal development, combining 13 SNPs associated with male Tanner stage. A higher score indicated a later puberty onset. We examined the association of this score with prostate cancer risk, stage and grade in the UK-based ProtecT case-control study (n = 2,927), and used the PRACTICAL consortium (n = 43,737) as a replication sample. Results: In ProtecT, the puberty genetic score was inversely associated with prostate cancer grade (odds ratio (OR) of high- vs. low-grade cancer, per tertile of the score: 0.76; 95 % CI, 0.64-0.89). In an instrumental variable estimation of the causal OR, later physical development in adolescence (equivalent to a difference of one Tanner stage between pubertal boys of the same age) was associated with a 77 % (95 % CI, 43-91 %) reduced odds of high Gleason prostate cancer. In PRACTICAL, the puberty genetic score was associated with prostate cancer stage (OR of advanced vs. localized cancer, per tertile: 0.95; 95 % CI, 0.91-1.00) and prostate cancer-specific mortality (hazard ratio amongst cases, per tertile: 0.94; 95 % CI, 0.90-0.98), but not with disease grade. Conclusions: Older age at sexual maturation is causally linked to a reduced risk of later prostate cancer, especially aggressive disease.

Published

2016

16. No clinical utility of KRAS variant rs61764370 for ovarian or breast cancer

Author

Hollestelle, A. (Antoinette), Baan, F.H. (Frederieke) van der, Berchuck, A. (Andrew), Johnatty, S.E. (Sharon), Aben, K.K.H. (Katja), Agnarsson, B.A. (Bjarni), Aittomäki, K. (Kristiina), Alducci, E. (Elisa), Andrulis, I.L. (Irene), Anton-Culver, H. (Hoda), Antonenkova, N.N. (Natalia), Antoniou, A.C. (Antonis), Apicella, C. (Carmel), Arndt, V. (Volker), Arnold, N. (Norbert), Arun, B.K. (Banu), Arver, B. (Brita Wasteson), Ashworth, A. (Alan), Baglietto, L. (Laura), Balleine, R. (Rosemary), Bandera, E.V. (Elisa), Barrowdale, D. (Daniel), Bean, Y.T. (Yukie), Beckmann, L. (Lars), Beckmann, M.W. (Matthias), Benítez, J. (Javier), Berger, A. (Andreas), Berger, R. (Raanan), Beuselinck, B. (B.), Bisogna, M. (Maria), Bjorge, L. (Line), Blomqvist, C. (Carl), Bogdanova, N.V. (Natalia), Bojesen, A. (Anders), Bojesen, S.E. (Stig), Bolla, M.K. (Manjeet), Bonnani, B. (Bernardo), Brand, J.S. (Judith S.), Brauch, H. (Hiltrud), Brenner, H. (Hermann), Brinton, L.A. (Louise), Brooks-Wilson, A. (Angela), Bruinsma, F. (Fiona), Brunet, J. (Joan), Brüning, T. (Thomas), Budzilowska, A. (Agnieszka), Bunker, C.H. (Clareann H.), Burwinkel, B. (Barbara), Butzow, R. (Ralf), Buys, S.S. (Saundra S.), Caligo, M.A. (Maria), Campbell, I. (Ian), Carter, J. (Jonathan), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen J.), Claes, K.B.M. (Kathleen B.M.), Collée, J.M. (Margriet), Cook, L.S. (Linda S.), Couch, F.J. (Fergus), Cox, A. (Angela), Cramer, D.W. (Daniel), Cross, S.S. (Simon), Cunningham, J.M. (Julie), Cybulski, C. (Cezary), Czene, K. (Kamila), Damiola, F. (Francesca), Dansonka-Mieszkowska, A. (Agnieszka), Darabi, H. (Hatef), Hoya, M. (Miguel) de La, DeFazio, A. (Anna), Dennis, J. (Joe), Devilee, P. (Peter), Dicks, E. (Ed), Díez, O. (Orland), Doherty, J.A. (Jennifer A.), Domchek, S.M. (Susan), Dorfling, C.M. (Cecilia), Dörk, T. (Thilo), Santos Silva, I. (Isabel) dos, Du Bois, A. (Andreas), Dumont, M. (Martine), Dunning, A.M. (Alison), Duran, M. (Mercedes), Easton, D.F. (Douglas F.), Eccles, D. (Diana), Edwards, R. (Robert), Ehrencrona, H. (Hans), Ejlertsen, B. (Bent), Ekici, A.B. (Arif), Ellis, S.D. (Steve), Engel, C. (Christoph), Eriksson, M. (Mikael), Fasching, P.A. (Peter), Feliubadaló, L. (L.), Figueroa, J.D. (Jonine), Flesch-Janys, D. (Dieter), Fletcher, O. (Olivia), Fontaine, A. (Annette), Fortuzzi, S. (S.), Fostira, F. (Florentia), Fridley, B.L. (Brooke), Friebel, M.O.W. (Mark ), Friedman, E. (Eitan), Friel, G. (Grace), Frost, D. (Debra), Garber, J. (Judy), García-Closas, M. (Montserrat), Gayther, S.A. (Simon), Gentry-Maharaj, A. (Aleksandra), Gerdes, A-M. (Anne-Marie), Giles, G.G. (Graham), Glasspool, R. (Rosalind), Glendon, G. (Gord), Godwin, A.K. (Andrew K.), Goodman, M.T. (Marc T.), Gore, M. (Martin), Greene, M.H. (Mark H.), Grip, M. (Mervi), Gronwald, J. (Jacek), Gschwantler-Kaulich, D. (Daphne), Guénel, P. (Pascal), Guzman, S.R. (Starr R.), Haeberle, L. (Lothar), Haiman, C.A. (Christopher A.), Hall, P. (Per), Halverson, S.L. (Sandra L.), Hamann, U. (Ute), Hansen, T.V.O. (Thomas), Harter, P. (Philipp), Hartikainen, J.M. (J.), Healey, S. (Sue), Hein, R. (Rebecca), Heitz, P.U., Henderson, B.E. (Brian), Herzog, J. (Josef), Hildebrandt, M.A.T. (Michelle), Høgdall, C.K. (Claus), Høgdall, E. (Estrid), Hogervorst, F.B.L. (Frans), Hopper, J.L. (John), Humphreys, K. (Keith), Huzarski, T. (Tomasz), Imyanitov, E.N. (Evgeny N.), Isaacs, C. (Claudine), Jakubowska, A. (Anna), Janavicius, R. (Ramunas), Jaworska, K. (Katarzyna), Jensen, A. (Allan), Jensen, U.B., Johnson, N. (Nichola), Jukkola-Vuorinen, A. (Arja), Kabisch, M. (Maria), Karlan, B.Y. (Beth Y.), Kataja, V. (Vesa), Kauff, N. (Noah), Kelemen, L.E. (Linda), Kerin, M. (Michael), Kiemeney, L.A.L.M. (Bart), Kjaer, M. (Michael), Knight, J.A. (Julia), Knol-Bout, J.P. (Jacoba P.), Konstantopoulou, I. (I.), Kosma, V-M. (Veli-Matti), Krakstad, C. (Camilla), Kristensen, V. (Vessela), Kuchenbaecker, K.B. (Karoline), Kupryjanczyk, J. (Jolanta), Laitman, Y. (Yael), Lambrechts, D. (Diether), Lambrechts, S. (Sandrina), Larson, M.C. (Melissa), Lasa, A. (Adriana), Laurent-Puig, P. (Pierre), Lázaro, C. (Conxi), Le, N. (Nhu), Le Marchand, L. (Loic), Leminen, A. (Arto), Lester, K.J. (Kathryn), Levine, D.A. (Douglas), Li, J. (Jingmei), Liang, D. (Dong), Lindblom, A. (Annika), Lindor, N.M. (Noralane), Lissowska, J. (Jolanta), Long, J. (Jirong), Lu, K.H. (Karen), Lubinski, J. (Jan), Lundvall, L. (Lene), Lurie, G. (Galina), Mai, P.L. (Phuong), Mannermaa, A. (Arto), Margolin, S. (Sara), Mariette, F. (F.), Marme, F. (Federick), Martens, J.W.M. (John), Massuger, L.F. (Leon), Maugard, C., Mazoyer, S. (Sylvie), McGuffog, L. (Lesley), McGuire, W.P., McLean, C.A. (Catriona Ann), McNeish, I. (Iain), Meindl, A. (Alfons), Menegaux, F. (Florence), Menéndez, P. (Primitiva), Menkiszak, J. (Janusz), Menon, U. (Usha), Mensenkamp, A.R. (Arjen), Miller, N. (Nicola), Milne, R.L. (Roger), Modugno, F. (Francesmary), Montagna, M. (Marco), Moysich, K.B. (Kirsten B.), Müller, H. (Heiko), Mulligan, A.-M. (Anna-Marie), Muranen, T.A. (Taru), Narod, S.A. (Steven A.), Nathanson, K.L. (Katherine), Ness, R.B. (Roberta B.), Neuhausen, S.L. (Susan), Nevanlinna, H. (Heli), Neven, P. (Patrick), Nielsen, F. (Finn), Nielsen, S.F. (Sune), Nordestgaard, B.G. (Børge), Nussbaum, R. (Robert), Odunsi, K. (Kunle), Offit, K. (Kenneth), Olah, E., Olopade, O.I. (Olufunmilayo I.), Olson, J.E. (Janet), Olson, S.H. (Sara), Oosterwijk, J.C. (Jan), Orlow, I. (Irene), Orr, N. (Nick), Orsulic, S. (Sandra), Osorio, A. (Ana), Ottini, L. (Laura), Paul, J. (James), Pearce, C.L. (Celeste), Pedersen, I.S. (Inge Sokilde), Peissel, B. (Bernard), Pejovic, T. (Tanja), Pelttari, L.M. (Liisa), Perkins, J. (Jo), Permuth-Wey, J. (Jenny), Peterlongo, P. (Paolo), Peto, J. (Julian), Phelan, C. (Catherine), Phillips, K.-A. (Kelly-Anne), Piedmonte, M. (Marion), Pike, M.C. (Malcolm C.), Platte, R. (Radka), Plisiecka-Halasa, J. (Joanna), Poole, E.M. (Elizabeth), Poppe, B. (Bruce), Pykäs, K. (Katri), Radice, P. (Paolo), Ramus, S.J. (Susan), Rebbeck, R. (Timothy), Reed, M.W.R. (Malcolm W.R.), Rennert, G. (Gad), Risch, H. (Harvey), Robson, M. (Mark), Rodriguez, G. (Gustavo), Romero, A. (Atocha), Rossing, M.A. (Mary Anne), Rothstein, J.H. (Joseph H.), Rudolph, A. (Anja), Runnebaum, I.B. (Ingo), Salani, R. (Ritu), Salvesen, H.B. (Helga), Sawyer, E.J. (Elinor), Schildkraut, J.M. (Joellen), Schmidt, M.K. (Marjanka), Schmutzler, R.K. (Rita), Schneeweiss, A. (Andreas), Schoemaker, M. (Minouk), Schrauder, A. (André), Schumacher, F.R. (Fredrick), Schwaab, I. (Ira), Scuvera, G. (Giulietta), Sellers, T.A. (Thomas A.), Severi, G. (Gianluca), Seynaeve, C.M. (Caroline), Shah, M. (Mitul), Shrubsole, M. (Martha), Siddiqui, N. (Nadeem), Sieh, W. (Weiva), Simard, J. (Jacques), Singer, C.F. (Christian), Sinilnikova, O. (Olga), Smeets, D. (Dominiek), Sohn, C. (Christof), Soller, M. (Maria), Song, H. (Honglin), Soucy, P. (Penny), Southey, M.C. (Melissa), Stegmaier, C. (Christa), Stoppa-Lyonnet, D. (Dominique), Sucheston, L. (Lara), Swerdlow, A.J. (Anthony ), Tangen, I.L. (Ingvild L.), Tea, M.-K., Teixeira, P.J., Terry, K.L. (Kathryn), Terry, M.B. (Mary Beth), Thomassen, M. (Mads), Thompson, P.J. (Pamela J.), Tihomirova, L. (Laima), Tischkowitz, M. (Marc), Toland, A.E. (Amanda), Tollenaar, R.A.E.M. (Rob), Tomlinson, I. (Ian), Torres, D. (Diana), Truong, T. (Thérèse), Tsimiklis, H. (Helen), Tung, N. (Nadine), Tworoger, S. (Shelley), Tyrer, J.P. (Jonathan), Vachon, C. (Celine), Veer, L.J. (Laura) van 't, Altena, A.M. (Anne) van, Asperen, C.J. (Christi) van, Van Den Berg, D. (David), Ouweland, A.M.W. (Ans) van den, Doorn, H.C. (Lena) van, Van Nieuwenhuysen, E. (Els), Rensburg, E.J. (Elizabeth) van, Vergote, I. (Ignace), Verhoef, S., Vierkant, R.A. (Robert), Vijai, J. (Joseph), Vitonis, A.F. (Allison), Wachenfeldt, A. (Anna) von, Walsh, C.S. (Christine), Wang, Q. (Qing), Wang-Gohrke, S. (Shan), Wapenschmidt, B. (Barbara), Weischer, M. (Maren), Weitzel, J.N. (Jeffrey), Weltens, C. (Caroline), Wentzensen, N. (N.), Whittemore, A.S. (Alice S.), Wilkens, L.R. (Lynne R.), Winqvist, R. (Robert), Wu, A.H. (Anna), Wu, X. (Xifeng), Yang, H.P. (Hannah P.), Zaffaroni, D. (Daniela), Zamora, M.P. (Pilar), Zheng, W. (Wei), Ziogas, A. (Argyrios), Chenevix-Trench, G. (Georgia), Pharoah, P.D.P. (Paul), Rookus, M.A. (Matti), Hooning, M.J. (Maartje), Goode, E.L. (Ellen L.), Breast Cancer Family Register, EMBRACE, GENICA Network, HEBON, SWE-BRCA, Hollestelle, A. (Antoinette), Baan, F.H. (Frederieke) van der, Berchuck, A. (Andrew), Johnatty, S.E. (Sharon), Aben, K.K.H. (Katja), Agnarsson, B.A. (Bjarni), Aittomäki, K. (Kristiina), Alducci, E. (Elisa), Andrulis, I.L. (Irene), Anton-Culver, H. (Hoda), Antonenkova, N.N. (Natalia), Antoniou, A.C. (Antonis), Apicella, C. (Carmel), Arndt, V. (Volker), Arnold, N. (Norbert), Arun, B.K. (Banu), Arver, B. (Brita Wasteson), Ashworth, A. (Alan), Baglietto, L. (Laura), Balleine, R. (Rosemary), Bandera, E.V. (Elisa), Barrowdale, D. (Daniel), Bean, Y.T. (Yukie), Beckmann, L. (Lars), Beckmann, M.W. (Matthias), Benítez, J. (Javier), Berger, A. (Andreas), Berger, R. (Raanan), Beuselinck, B. (B.), Bisogna, M. (Maria), Bjorge, L. (Line), Blomqvist, C. (Carl), Bogdanova, N.V. (Natalia), Bojesen, A. (Anders), Bojesen, S.E. (Stig), Bolla, M.K. (Manjeet), Bonnani, B. (Bernardo), Brand, J.S. (Judith S.), Brauch, H. (Hiltrud), Brenner, H. (Hermann), Brinton, L.A. (Louise), Brooks-Wilson, A. (Angela), Bruinsma, F. (Fiona), Brunet, J. (Joan), Brüning, T. (Thomas), Budzilowska, A. (Agnieszka), Bunker, C.H. (Clareann H.), Burwinkel, B. (Barbara), Butzow, R. (Ralf), Buys, S.S. (Saundra S.), Caligo, M.A. (Maria), Campbell, I. (Ian), Carter, J. (Jonathan), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen J.), Claes, K.B.M. (Kathleen B.M.), Collée, J.M. (Margriet), Cook, L.S. (Linda S.), Couch, F.J. (Fergus), Cox, A. (Angela), Cramer, D.W. (Daniel), Cross, S.S. (Simon), Cunningham, J.M. (Julie), Cybulski, C. (Cezary), Czene, K. (Kamila), Damiola, F. (Francesca), Dansonka-Mieszkowska, A. (Agnieszka), Darabi, H. (Hatef), Hoya, M. (Miguel) de La, DeFazio, A. (Anna), Dennis, J. (Joe), Devilee, P. (Peter), Dicks, E. (Ed), Díez, O. (Orland), Doherty, J.A. (Jennifer A.), Domchek, S.M. (Susan), Dorfling, C.M. (Cecilia), Dörk, T. (Thilo), Santos Silva, I. (Isabel) dos, Du Bois, A. (Andreas), Dumont, M. (Martine), Dunning, A.M. (Alison), Duran, M. (Mercedes), Easton, D.F. (Douglas F.), Eccles, D. (Diana), Edwards, R. (Robert), Ehrencrona, H. (Hans), Ejlertsen, B. (Bent), Ekici, A.B. (Arif), Ellis, S.D. (Steve), Engel, C. (Christoph), Eriksson, M. (Mikael), Fasching, P.A. (Peter), Feliubadaló, L. (L.), Figueroa, J.D. (Jonine), Flesch-Janys, D. (Dieter), Fletcher, O. (Olivia), Fontaine, A. (Annette), Fortuzzi, S. (S.), Fostira, F. (Florentia), Fridley, B.L. (Brooke), Friebel, M.O.W. (Mark ), Friedman, E. (Eitan), Friel, G. (Grace), Frost, D. (Debra), Garber, J. (Judy), García-Closas, M. (Montserrat), Gayther, S.A. (Simon), Gentry-Maharaj, A. (Aleksandra), Gerdes, A-M. (Anne-Marie), Giles, G.G. (Graham), Glasspool, R. (Rosalind), Glendon, G. (Gord), Godwin, A.K. (Andrew K.), Goodman, M.T. (Marc T.), Gore, M. (Martin), Greene, M.H. (Mark H.), Grip, M. (Mervi), Gronwald, J. (Jacek), Gschwantler-Kaulich, D. (Daphne), Guénel, P. (Pascal), Guzman, S.R. (Starr R.), Haeberle, L. (Lothar), Haiman, C.A. (Christopher A.), Hall, P. (Per), Halverson, S.L. (Sandra L.), Hamann, U. (Ute), Hansen, T.V.O. (Thomas), Harter, P. (Philipp), Hartikainen, J.M. (J.), Healey, S. (Sue), Hein, R. (Rebecca), Heitz, P.U., Henderson, B.E. (Brian), Herzog, J. (Josef), Hildebrandt, M.A.T. (Michelle), Høgdall, C.K. (Claus), Høgdall, E. (Estrid), Hogervorst, F.B.L. (Frans), Hopper, J.L. (John), Humphreys, K. (Keith), Huzarski, T. (Tomasz), Imyanitov, E.N. (Evgeny N.), Isaacs, C. (Claudine), Jakubowska, A. (Anna), Janavicius, R. (Ramunas), Jaworska, K. (Katarzyna), Jensen, A. (Allan), Jensen, U.B., Johnson, N. (Nichola), Jukkola-Vuorinen, A. (Arja), Kabisch, M. (Maria), Karlan, B.Y. (Beth Y.), Kataja, V. (Vesa), Kauff, N. (Noah), Kelemen, L.E. (Linda), Kerin, M. (Michael), Kiemeney, L.A.L.M. (Bart), Kjaer, M. (Michael), Knight, J.A. (Julia), Knol-Bout, J.P. (Jacoba P.), Konstantopoulou, I. (I.), Kosma, V-M. (Veli-Matti), Krakstad, C. (Camilla), Kristensen, V. (Vessela), Kuchenbaecker, K.B. (Karoline), Kupryjanczyk, J. (Jolanta), Laitman, Y. (Yael), Lambrechts, D. (Diether), Lambrechts, S. (Sandrina), Larson, M.C. (Melissa), Lasa, A. (Adriana), Laurent-Puig, P. (Pierre), Lázaro, C. (Conxi), Le, N. (Nhu), Le Marchand, L. (Loic), Leminen, A. (Arto), Lester, K.J. (Kathryn), Levine, D.A. (Douglas), Li, J. (Jingmei), Liang, D. (Dong), Lindblom, A. (Annika), Lindor, N.M. (Noralane), Lissowska, J. (Jolanta), Long, J. (Jirong), Lu, K.H. (Karen), Lubinski, J. (Jan), Lundvall, L. (Lene), Lurie, G. (Galina), Mai, P.L. (Phuong), Mannermaa, A. (Arto), Margolin, S. (Sara), Mariette, F. (F.), Marme, F. (Federick), Martens, J.W.M. (John), Massuger, L.F. (Leon), Maugard, C., Mazoyer, S. (Sylvie), McGuffog, L. (Lesley), McGuire, W.P., McLean, C.A. (Catriona Ann), McNeish, I. (Iain), Meindl, A. (Alfons), Menegaux, F. (Florence), Menéndez, P. (Primitiva), Menkiszak, J. (Janusz), Menon, U. (Usha), Mensenkamp, A.R. (Arjen), Miller, N. (Nicola), Milne, R.L. (Roger), Modugno, F. (Francesmary), Montagna, M. (Marco), Moysich, K.B. (Kirsten B.), Müller, H. (Heiko), Mulligan, A.-M. (Anna-Marie), Muranen, T.A. (Taru), Narod, S.A. (Steven A.), Nathanson, K.L. (Katherine), Ness, R.B. (Roberta B.), Neuhausen, S.L. (Susan), Nevanlinna, H. (Heli), Neven, P. (Patrick), Nielsen, F. (Finn), Nielsen, S.F. (Sune), Nordestgaard, B.G. (Børge), Nussbaum, R. (Robert), Odunsi, K. (Kunle), Offit, K. (Kenneth), Olah, E., Olopade, O.I. (Olufunmilayo I.), Olson, J.E. (Janet), Olson, S.H. (Sara), Oosterwijk, J.C. (Jan), Orlow, I. (Irene), Orr, N. (Nick), Orsulic, S. (Sandra), Osorio, A. (Ana), Ottini, L. (Laura), Paul, J. (James), Pearce, C.L. (Celeste), Pedersen, I.S. (Inge Sokilde), Peissel, B. (Bernard), Pejovic, T. (Tanja), Pelttari, L.M. (Liisa), Perkins, J. (Jo), Permuth-Wey, J. (Jenny), Peterlongo, P. (Paolo), Peto, J. (Julian), Phelan, C. (Catherine), Phillips, K.-A. (Kelly-Anne), Piedmonte, M. (Marion), Pike, M.C. (Malcolm C.), Platte, R. (Radka), Plisiecka-Halasa, J. (Joanna), Poole, E.M. (Elizabeth), Poppe, B. (Bruce), Pykäs, K. (Katri), Radice, P. (Paolo), Ramus, S.J. (Susan), Rebbeck, R. (Timothy), Reed, M.W.R. (Malcolm W.R.), Rennert, G. (Gad), Risch, H. (Harvey), Robson, M. (Mark), Rodriguez, G. (Gustavo), Romero, A. (Atocha), Rossing, M.A. (Mary Anne), Rothstein, J.H. (Joseph H.), Rudolph, A. (Anja), Runnebaum, I.B. (Ingo), Salani, R. (Ritu), Salvesen, H.B. (Helga), Sawyer, E.J. (Elinor), Schildkraut, J.M. (Joellen), Schmidt, M.K. (Marjanka), Schmutzler, R.K. (Rita), Schneeweiss, A. (Andreas), Schoemaker, M. (Minouk), Schrauder, A. (André), Schumacher, F.R. (Fredrick), Schwaab, I. (Ira), Scuvera, G. (Giulietta), Sellers, T.A. (Thomas A.), Severi, G. (Gianluca), Seynaeve, C.M. (Caroline), Shah, M. (Mitul), Shrubsole, M. (Martha), Siddiqui, N. (Nadeem), Sieh, W. (Weiva), Simard, J. (Jacques), Singer, C.F. (Christian), Sinilnikova, O. (Olga), Smeets, D. (Dominiek), Sohn, C. (Christof), Soller, M. (Maria), Song, H. (Honglin), Soucy, P. (Penny), Southey, M.C. (Melissa), Stegmaier, C. (Christa), Stoppa-Lyonnet, D. (Dominique), Sucheston, L. (Lara), Swerdlow, A.J. (Anthony ), Tangen, I.L. (Ingvild L.), Tea, M.-K., Teixeira, P.J., Terry, K.L. (Kathryn), Terry, M.B. (Mary Beth), Thomassen, M. (Mads), Thompson, P.J. (Pamela J.), Tihomirova, L. (Laima), Tischkowitz, M. (Marc), Toland, A.E. (Amanda), Tollenaar, R.A.E.M. (Rob), Tomlinson, I. (Ian), Torres, D. (Diana), Truong, T. (Thérèse), Tsimiklis, H. (Helen), Tung, N. (Nadine), Tworoger, S. (Shelley), Tyrer, J.P. (Jonathan), Vachon, C. (Celine), Veer, L.J. (Laura) van 't, Altena, A.M. (Anne) van, Asperen, C.J. (Christi) van, Van Den Berg, D. (David), Ouweland, A.M.W. (Ans) van den, Doorn, H.C. (Lena) van, Van Nieuwenhuysen, E. (Els), Rensburg, E.J. (Elizabeth) van, Vergote, I. (Ignace), Verhoef, S., Vierkant, R.A. (Robert), Vijai, J. (Joseph), Vitonis, A.F. (Allison), Wachenfeldt, A. (Anna) von, Walsh, C.S. (Christine), Wang, Q. (Qing), Wang-Gohrke, S. (Shan), Wapenschmidt, B. (Barbara), Weischer, M. (Maren), Weitzel, J.N. (Jeffrey), Weltens, C. (Caroline), Wentzensen, N. (N.), Whittemore, A.S. (Alice S.), Wilkens, L.R. (Lynne R.), Winqvist, R. (Robert), Wu, A.H. (Anna), Wu, X. (Xifeng), Yang, H.P. (Hannah P.), Zaffaroni, D. (Daniela), Zamora, M.P. (Pilar), Zheng, W. (Wei), Ziogas, A. (Argyrios), Chenevix-Trench, G. (Georgia), Pharoah, P.D.P. (Paul), Rookus, M.A. (Matti), Hooning, M.J. (Maartje), Goode, E.L. (Ellen L.), Breast Cancer Family Register, EMBRACE, GENICA Network, HEBON, and SWE-BRCA

Abstract

Objective Clinical genetic testing is commercially available for rs61764370, an inherited variant residing in a KRAS 3′ UTR microRNA binding site, based on suggested associations with increased ovarian and br

Published

2016

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

Author

Southey, MC, Goldgar, DE, Winqvist, R, Pylkas, K, Couch, F, Tischkowitz, M, Foulkes, WD, Dennis, J, Michailidou, K, van Rensburg, EJ, Heikkinen, T, Nevanlinna, H, Hopper, JL, Doerk, T, Claes, KBM, Reis-Filho, J, Teo, ZL, Radice, P, Catucci, I, Peterlongo, P, Tsimiklis, H, Odefrey, FA, Dowty, JG, Schmidt, MK, Broeks, A, Hogervorst, FB, Verhoef, S, Carpenter, J, Clarke, C, Scott, RJ, Fasching, PA, Haeberle, L, Ekici, AB, Beckmann, MW, Peto, J, dos-Santos-Silva, I, Fletcher, O, Johnson, N, Bolla, MK, Sawyer, EJ, Tomlinson, I, Kerin, MJ, Miller, N, Marme, F, Burwinkel, B, Yang, R, Guenel, P, Therese, T, Menegaux, F, Sanchez, M, Bojesen, S, Nielsen, SF, Flyger, H, Benitez, J, Pilar Zamora, M, Arias Perez, JI, Menendez, P, Anton-Culver, H, Neuhausen, S, Ziogas, A, Clarke, CA, Brenner, H, Arndt, V, Stegmaier, C, Brauch, H, Bruening, T, Ko, Y-D, Muranen, TA, Aittomaki, K, Blomqvist, C, Bogdanova, NV, Antonenkova, NN, Lindblom, A, Margolin, S, Mannermaa, A, Kataja, V, Kosma, V-M, Hartikainen, JM, Spurdle, AB, Wauters, E, Smeets, D, Beuselinck, B, Floris, G, Chang-Claude, J, Rudolph, A, Seibold, P, Flesch-Janys, D, Olson, JE, Vachon, C, Pankratz, VS, McLean, C, Haiman, CA, Henderson, BE, Schumacher, F, Le Marchand, L, Kristensen, V, Alnaes, GG, Zheng, W, Hunter, DJ, Lindstrom, S, Hankinson, SE, Kraft, P, Andrulis, I, Knight, JA, Glendon, G, Mulligan, AM, Jukkola-Vuorinen, A, Grip, M, Kauppila, S, Devilee, P, Tollenaar, RAEM, Seynaeve, C, Hollestelle, A, Garcia-Closas, M, Figueroa, J, Chanock, SJ, Lissowska, J, Czene, K, Darabi, H, Eriksson, M, Eccles, DM, Rafiq, S, Tapper, WJ, Gerty, SM, Hooning, MJ, Martens, JWM, Collee, JM, Tilanus-Linthorst, M, Hall, P, Li, J, Brand, JS, Humphreys, K, Cox, A, Reed, MWR, Luccarini, C, Baynes, C, Dunning, AM, Hamann, U, Torres, D, Ulmer, HU, Ruediger, T, Jakubowska, A, Lubinski, J, Jaworska, K, Durda, K, Slager, S, Toland, AE, Ambrosone, CB, Yannoukakos, D, Swerdlow, A, Ashworth, A, Orr, N, Jones, M, Gonzalez-Neira, A, Pita, G, Rosario Alonso, M, Alvarez, N, Herrero, D, Tessier, DC, Vincent, D, Bacot, F, Simard, J, Dumont, M, Soucy, P, Eeles, R, Muir, K, Wiklund, F, Gronberg, H, Schleutker, J, Nordestgaard, BG, Weischer, M, Travis, RC, Neal, D, Donovan, JL, Hamdy, FC, Khaw, K-T, Stanford, JL, Blot, WJ, Thibodeau, S, Schaid, DJ, Kelley, JL, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Butterbach, K, Park, J, Kaneva, R, Batra, J, Teixeira, MR, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Renner, SP, Hartmann, A, Hein, A, Ruebner, M, Lambrechts, D, Van Nieuwenhuysen, E, Vergote, I, Lambretchs, S, Doherty, JA, Rossing, MA, Nickels, S, Eilber, U, Wang-Gohrke, S, Odunsi, K, Sucheston-Campbell, LE, Friel, G, Lurie, G, Killeen, JL, Wilkens, LR, Goodman, MT, Runnebaum, I, Hillemanns, PA, Pelttari, LM, Butzow, R, Modugno, F, Edwards, RP, Ness, RB, Moysich, KB, du Bois, A, Heitz, F, Harter, P, Kommoss, S, Karlan, BY, Walsh, C, Lester, J, Jensen, A, Kjaer, SK, Hogdall, E, Peissel, B, Bonanni, B, Bernard, L, Goode, EL, Fridley, BL, Vierkant, RA, Cunningham, JM, Larson, MC, Fogarty, ZC, Kalli, KR, Liang, D, Lu, KH, Hildebrandt, MAT, Wu, X, Levine, DA, Dao, F, Bisogna, M, Berchuck, A, Iversen, ES, Marks, JR, Akushevich, L, Cramer, DW, Schildkraut, J, Terry, KL, Poole, EM, Stampfer, M, Tworoger, SS, Bandera, EV, Orlow, I, Olson, SH, Bjorge, L, Salvesen, HB, van Altena, AM, Aben, KKH, Kiemeney, LA, Massuger, LFAG, Pejovic, T, Bean, Y, Brooks-Wilson, A, Kelemen, LE, Cook, LS, Le, ND, Grski, B, Gronwald, J, Menkiszak, J, Hogdall, CK, Lundvall, L, Nedergaard, L, Engelholm, SA, Dicks, E, Tyrer, J, Campbell, I, McNeish, I, Paul, J, Siddiqui, N, Glasspool, R, Whittemore, AS, Rothstein, JH, McGuire, V, Sieh, W, Cai, H, Shu, X-O, Teten, RT, Sutphen, R, McLaughlin, JR, Narod, SA, Phelan, CM, Monteiro, AN, Fenstermacher, D, Lin, H-Y, Permuth, JB, Sellers, TA, Chen, YA, Tsai, Y-Y, Chen, Z, Gentry-Maharaj, A, Gayther, SA, Ramus, SJ, Menon, U, Wu, AH, Pearce, CL, Van den Berg, D, Pike, MC, Dansonka-Mieszkowska, A, Plisiecka-Halasa, J, Moes-Sosnowska, J, Kupryjanczyk, J, Pharoah, PDP, Song, H, Winship, I, Chenevix-Trench, G, Giles, GG, Tavtigian, SV, Easton, DF, Milne, RL, Southey, MC, Goldgar, DE, Winqvist, R, Pylkas, K, Couch, F, Tischkowitz, M, Foulkes, WD, Dennis, J, Michailidou, K, van Rensburg, EJ, Heikkinen, T, Nevanlinna, H, Hopper, JL, Doerk, T, Claes, KBM, Reis-Filho, J, Teo, ZL, Radice, P, Catucci, I, Peterlongo, P, Tsimiklis, H, Odefrey, FA, Dowty, JG, Schmidt, MK, Broeks, A, Hogervorst, FB, Verhoef, S, Carpenter, J, Clarke, C, Scott, RJ, Fasching, PA, Haeberle, L, Ekici, AB, Beckmann, MW, Peto, J, dos-Santos-Silva, I, Fletcher, O, Johnson, N, Bolla, MK, Sawyer, EJ, Tomlinson, I, Kerin, MJ, Miller, N, Marme, F, Burwinkel, B, Yang, R, Guenel, P, Therese, T, Menegaux, F, Sanchez, M, Bojesen, S, Nielsen, SF, Flyger, H, Benitez, J, Pilar Zamora, M, Arias Perez, JI, Menendez, P, Anton-Culver, H, Neuhausen, S, Ziogas, A, Clarke, CA, Brenner, H, Arndt, V, Stegmaier, C, Brauch, H, Bruening, T, Ko, Y-D, Muranen, TA, Aittomaki, K, Blomqvist, C, Bogdanova, NV, Antonenkova, NN, Lindblom, A, Margolin, S, Mannermaa, A, Kataja, V, Kosma, V-M, Hartikainen, JM, Spurdle, AB, Wauters, E, Smeets, D, Beuselinck, B, Floris, G, Chang-Claude, J, Rudolph, A, Seibold, P, Flesch-Janys, D, Olson, JE, Vachon, C, Pankratz, VS, McLean, C, Haiman, CA, Henderson, BE, Schumacher, F, Le Marchand, L, Kristensen, V, Alnaes, GG, Zheng, W, Hunter, DJ, Lindstrom, S, Hankinson, SE, Kraft, P, Andrulis, I, Knight, JA, Glendon, G, Mulligan, AM, Jukkola-Vuorinen, A, Grip, M, Kauppila, S, Devilee, P, Tollenaar, RAEM, Seynaeve, C, Hollestelle, A, Garcia-Closas, M, Figueroa, J, Chanock, SJ, Lissowska, J, Czene, K, Darabi, H, Eriksson, M, Eccles, DM, Rafiq, S, Tapper, WJ, Gerty, SM, Hooning, MJ, Martens, JWM, Collee, JM, Tilanus-Linthorst, M, Hall, P, Li, J, Brand, JS, Humphreys, K, Cox, A, Reed, MWR, Luccarini, C, Baynes, C, Dunning, AM, Hamann, U, Torres, D, Ulmer, HU, Ruediger, T, Jakubowska, A, Lubinski, J, Jaworska, K, Durda, K, Slager, S, Toland, AE, Ambrosone, CB, Yannoukakos, D, Swerdlow, A, Ashworth, A, Orr, N, Jones, M, Gonzalez-Neira, A, Pita, G, Rosario Alonso, M, Alvarez, N, Herrero, D, Tessier, DC, Vincent, D, Bacot, F, Simard, J, Dumont, M, Soucy, P, Eeles, R, Muir, K, Wiklund, F, Gronberg, H, Schleutker, J, Nordestgaard, BG, Weischer, M, Travis, RC, Neal, D, Donovan, JL, Hamdy, FC, Khaw, K-T, Stanford, JL, Blot, WJ, Thibodeau, S, Schaid, DJ, Kelley, JL, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Butterbach, K, Park, J, Kaneva, R, Batra, J, Teixeira, MR, Kote-Jarai, Z, Al Olama, AA, Benlloch, S, Renner, SP, Hartmann, A, Hein, A, Ruebner, M, Lambrechts, D, Van Nieuwenhuysen, E, Vergote, I, Lambretchs, S, Doherty, JA, Rossing, MA, Nickels, S, Eilber, U, Wang-Gohrke, S, Odunsi, K, Sucheston-Campbell, LE, Friel, G, Lurie, G, Killeen, JL, Wilkens, LR, Goodman, MT, Runnebaum, I, Hillemanns, PA, Pelttari, LM, Butzow, R, Modugno, F, Edwards, RP, Ness, RB, Moysich, KB, du Bois, A, Heitz, F, Harter, P, Kommoss, S, Karlan, BY, Walsh, C, Lester, J, Jensen, A, Kjaer, SK, Hogdall, E, Peissel, B, Bonanni, B, Bernard, L, Goode, EL, Fridley, BL, Vierkant, RA, Cunningham, JM, Larson, MC, Fogarty, ZC, Kalli, KR, Liang, D, Lu, KH, Hildebrandt, MAT, Wu, X, Levine, DA, Dao, F, Bisogna, M, Berchuck, A, Iversen, ES, Marks, JR, Akushevich, L, Cramer, DW, Schildkraut, J, Terry, KL, Poole, EM, Stampfer, M, Tworoger, SS, Bandera, EV, Orlow, I, Olson, SH, Bjorge, L, Salvesen, HB, van Altena, AM, Aben, KKH, Kiemeney, LA, Massuger, LFAG, Pejovic, T, Bean, Y, Brooks-Wilson, A, Kelemen, LE, Cook, LS, Le, ND, Grski, B, Gronwald, J, Menkiszak, J, Hogdall, CK, Lundvall, L, Nedergaard, L, Engelholm, SA, Dicks, E, Tyrer, J, Campbell, I, McNeish, I, Paul, J, Siddiqui, N, Glasspool, R, Whittemore, AS, Rothstein, JH, McGuire, V, Sieh, W, Cai, H, Shu, X-O, Teten, RT, Sutphen, R, McLaughlin, JR, Narod, SA, Phelan, CM, Monteiro, AN, Fenstermacher, D, Lin, H-Y, Permuth, JB, Sellers, TA, Chen, YA, Tsai, Y-Y, Chen, Z, Gentry-Maharaj, A, Gayther, SA, Ramus, SJ, Menon, U, Wu, AH, Pearce, CL, Van den Berg, D, Pike, MC, Dansonka-Mieszkowska, A, Plisiecka-Halasa, J, Moes-Sosnowska, J, Kupryjanczyk, J, Pharoah, PDP, Song, H, Winship, I, Chenevix-Trench, G, Giles, GG, Tavtigian, SV, Easton, DF, and Milne, RL

Abstract

BACKGROUND: The 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. METHODS: We 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. RESULTS: For 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. CONCLUSIONS: This 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

18. Die blutdrüse der doridoidea (Gastropoda, Opisthobranchia) als ort möglicher hämocyanin-synthese

Author

Schmekel, L. and Weischer, M. L.

Published

1973

19. A meta-analysis of 87,040 individuals identifies 23 new susceptibility loci for prostate cancer

Author

Al Olama, AA, Kote-Jarai, Z, Berndt, SI, Conti, DV, Schumacher, F, Han, Y, Benlloch, S, Hazelett, DJ, Wang, Z, Saunders, E, Leongamornlert, D, Lindstrom, S, Jugurnauth-Little, S, Dadaev, T, Tymrakiewicz, M, Stram, DO, Rand, K, Wan, P, Stram, A, Sheng, X, Pooler, LC, Park, K, Xia, L, Tyrer, J, Kolonel, LN, Le Marchand, L, Hoover, RN, Machiela, MJ, Yeager, M, Burdette, L, Chung, CC, Hutchinson, A, Yu, K, Goh, C, Ahmed, M, Govindasami, K, Guy, M, Tammela, TLJ, Auvinen, A, Wahlfors, T, Schleutker, J, Visakorpi, T, Leinonen, KA, Xu, J, Aly, M, Donovan, J, Travis, RC, Key, TJ, Siddiq, A, Canzian, F, Khaw, K-T, Takahashi, A, Kubo, M, Pharoah, P, Pashayan, N, Weischer, M, Nordestgaard, BG, Nielsen, SF, Klarskov, P, Roder, MA, Iversen, P, Thibodeau, SN, McDonnell, SK, Schaid, DJ, Stanford, JL, Kolb, S, Holt, S, Knudsen, B, Coll, AH, Gapstur, SM, Diver, WR, Stevens, VL, Maier, C, Luedeke, M, Herkommer, K, Rinckleb, AE, Strom, SS, Pettaway, C, Yeboah, ED, Tettey, Y, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Choklcalingam, AP, Cannon-Albright, L, Cybulski, C, Wokolorczyk, D, Kluzniak, W, Park, J, Sellers, T, Lin, H-Y, Isaacs, WB, Partin, AW, Brenner, H, Dieffenbach, AK, Stegmaier, C, Chen, C, Giovannucci, EL, Ma, J, Stampfer, M, Penney, KL, Mucci, L, John, EM, Ingles, SA, Kittles, RA, Murphy, AB, Pandha, H, Michael, A, Kierzek, AM, Blot, W, Signorello, LB, Zheng, W, Albanes, D, Virtamo, J, Weinstein, S, Nemesure, B, Carpten, J, Leske, C, Wu, S-Y, Hennis, A, Kibel, AS, Rybicki, BA, Neslund-Dudas, C, Hsing, AW, Chu, L, Goodman, PJ, Klein, EA, Zheng, SL, Batra, J, Clements, J, Spurdle, A, Teixeira, MR, Paulo, P, Maia, S, Slavov, C, Kaneva, R, Mitev, V, Witte, JS, Casey, G, Gillanders, EM, Seminara, D, Riboli, E, Hamdy, FC, Coetzee, GA, Li, Q, Freedman, ML, Hunter, DJ, Muir, K, Gronberg, H, Nea, DE, Southey, M, Giles, GG, Severi, G, Cook, MB, Nakagawa, H, Wiklund, F, Kraft, P, Chanock, SJ, Henderson, BE, Easton, DF, Eeles, RA, Haiman, CA, Al Olama, AA, Kote-Jarai, Z, Berndt, SI, Conti, DV, Schumacher, F, Han, Y, Benlloch, S, Hazelett, DJ, Wang, Z, Saunders, E, Leongamornlert, D, Lindstrom, S, Jugurnauth-Little, S, Dadaev, T, Tymrakiewicz, M, Stram, DO, Rand, K, Wan, P, Stram, A, Sheng, X, Pooler, LC, Park, K, Xia, L, Tyrer, J, Kolonel, LN, Le Marchand, L, Hoover, RN, Machiela, MJ, Yeager, M, Burdette, L, Chung, CC, Hutchinson, A, Yu, K, Goh, C, Ahmed, M, Govindasami, K, Guy, M, Tammela, TLJ, Auvinen, A, Wahlfors, T, Schleutker, J, Visakorpi, T, Leinonen, KA, Xu, J, Aly, M, Donovan, J, Travis, RC, Key, TJ, Siddiq, A, Canzian, F, Khaw, K-T, Takahashi, A, Kubo, M, Pharoah, P, Pashayan, N, Weischer, M, Nordestgaard, BG, Nielsen, SF, Klarskov, P, Roder, MA, Iversen, P, Thibodeau, SN, McDonnell, SK, Schaid, DJ, Stanford, JL, Kolb, S, Holt, S, Knudsen, B, Coll, AH, Gapstur, SM, Diver, WR, Stevens, VL, Maier, C, Luedeke, M, Herkommer, K, Rinckleb, AE, Strom, SS, Pettaway, C, Yeboah, ED, Tettey, Y, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Choklcalingam, AP, Cannon-Albright, L, Cybulski, C, Wokolorczyk, D, Kluzniak, W, Park, J, Sellers, T, Lin, H-Y, Isaacs, WB, Partin, AW, Brenner, H, Dieffenbach, AK, Stegmaier, C, Chen, C, Giovannucci, EL, Ma, J, Stampfer, M, Penney, KL, Mucci, L, John, EM, Ingles, SA, Kittles, RA, Murphy, AB, Pandha, H, Michael, A, Kierzek, AM, Blot, W, Signorello, LB, Zheng, W, Albanes, D, Virtamo, J, Weinstein, S, Nemesure, B, Carpten, J, Leske, C, Wu, S-Y, Hennis, A, Kibel, AS, Rybicki, BA, Neslund-Dudas, C, Hsing, AW, Chu, L, Goodman, PJ, Klein, EA, Zheng, SL, Batra, J, Clements, J, Spurdle, A, Teixeira, MR, Paulo, P, Maia, S, Slavov, C, Kaneva, R, Mitev, V, Witte, JS, Casey, G, Gillanders, EM, Seminara, D, Riboli, E, Hamdy, FC, Coetzee, GA, Li, Q, Freedman, ML, Hunter, DJ, Muir, K, Gronberg, H, Nea, DE, Southey, M, Giles, GG, Severi, G, Cook, MB, Nakagawa, H, Wiklund, F, Kraft, P, Chanock, SJ, Henderson, BE, Easton, DF, Eeles, RA, and Haiman, CA

Abstract

Genome-wide association studies (GWAS) have identified 76 variants associated with prostate cancer risk predominantly in populations of European ancestry. To identify additional susceptibility loci for this common cancer, we conducted a meta-analysis of > 10 million SNPs in 43,303 prostate cancer cases and 43,737 controls from studies in populations of European, African, Japanese and Latino ancestry. Twenty-three new susceptibility loci were identified at association P < 5 × 10(-8); 15 variants were identified among men of European ancestry, 7 were identified in multi-ancestry analyses and 1 was associated with early-onset prostate cancer. These 23 variants, in combination with known prostate cancer risk variants, explain 33% of the familial risk for this disease in European-ancestry populations. These findings provide new regions for investigation into the pathogenesis of prostate cancer and demonstrate the usefulness of combining ancestrally diverse populations to discover risk loci for disease.

Published

2014

20. Fine-Mapping the HOXB Region Detects Common Variants Tagging a Rare Coding Allele: Evidence for Synthetic Association in Prostate Cancer

Author

Gibson, G, Saunders, EJ, Dadaev, T, Leongamornlert, DA, Jugurnauth-Little, S, Tymrakiewicz, M, Wiklund, F, Al Olama, AA, Benlloch, S, Neal, DE, Hamdy, FC, Donovan, JL, Giles, GG, Severi, G, Gronberg, H, Aly, M, Haiman, CA, Schumacher, F, Henderson, BE, Lindstrom, S, Kraft, P, Hunter, DJ, Gapstur, S, Chanock, S, Berndt, SI, Albanes, D, Andriole, G, Schleutker, J, Weischer, M, Nordestgaard, BG, Canzian, F, Campa, D, Riboli, E, Key, TJ, Travis, RC, Ingles, SA, John, EM, Hayes, RB, Pharoah, P, Khaw, K-T, Stanford, JL, Ostrander, EA, Signorello, LB, Thibodeau, SN, Schaid, D, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Brenner, H, Park, JY, Kaneva, R, Batra, J, Clements, JA, Teixeira, MR, Xu, J, Mikropoulos, C, Goh, C, Govindasami, K, Guy, M, Wilkinson, RA, Sawyer, EJ, Morgan, A, Easton, DF, Muir, K, Eeles, RA, Kote-Jarai, Z, Gibson, G, Saunders, EJ, Dadaev, T, Leongamornlert, DA, Jugurnauth-Little, S, Tymrakiewicz, M, Wiklund, F, Al Olama, AA, Benlloch, S, Neal, DE, Hamdy, FC, Donovan, JL, Giles, GG, Severi, G, Gronberg, H, Aly, M, Haiman, CA, Schumacher, F, Henderson, BE, Lindstrom, S, Kraft, P, Hunter, DJ, Gapstur, S, Chanock, S, Berndt, SI, Albanes, D, Andriole, G, Schleutker, J, Weischer, M, Nordestgaard, BG, Canzian, F, Campa, D, Riboli, E, Key, TJ, Travis, RC, Ingles, SA, John, EM, Hayes, RB, Pharoah, P, Khaw, K-T, Stanford, JL, Ostrander, EA, Signorello, LB, Thibodeau, SN, Schaid, D, Maier, C, Kibel, AS, Cybulski, C, Cannon-Albright, L, Brenner, H, Park, JY, Kaneva, R, Batra, J, Clements, JA, Teixeira, MR, Xu, J, Mikropoulos, C, Goh, C, Govindasami, K, Guy, M, Wilkinson, RA, Sawyer, EJ, Morgan, A, Easton, DF, Muir, K, Eeles, RA, and Kote-Jarai, Z

Abstract

The HOXB13 gene has been implicated in prostate cancer (PrCa) susceptibility. We performed a high resolution fine-mapping analysis to comprehensively evaluate the association between common genetic variation across the HOXB genetic locus at 17q21 and PrCa risk. This involved genotyping 700 SNPs using a custom Illumina iSelect array (iCOGS) followed by imputation of 3195 SNPs in 20,440 PrCa cases and 21,469 controls in The PRACTICAL consortium. We identified a cluster of highly correlated common variants situated within or closely upstream of HOXB13 that were significantly associated with PrCa risk, described by rs117576373 (OR 1.30, P = 2.62×10(-14)). Additional genotyping, conditional regression and haplotype analyses indicated that the newly identified common variants tag a rare, partially correlated coding variant in the HOXB13 gene (G84E, rs138213197), which has been identified recently as a moderate penetrance PrCa susceptibility allele. The potential for GWAS associations detected through common SNPs to be driven by rare causal variants with higher relative risks has long been proposed; however, to our knowledge this is the first experimental evidence for this phenomenon of synthetic association contributing to cancer susceptibility.

Published

2014

21. Multiple independent variants at the TERT locus are associated with telomere length and risks of breast and ovarian cancer

Author

Bojesen, S.E., Pooley, K.A., Johnatty, S.E., Beesley, J., Michailidou, K., Tyrer, J.P., Edwards, S.L., Pickett, H.A., Shen, H.C., Smart, C.E., Hillman, K.M., Mai, P.L., Lawrenson, K., Stutz, M.D., Lu, Y., Karevan, R., Woods, N., Johnston, R.L., French, J.D., Chen, X., Weischer, M., Nielsen, S.F., Maranian, M.J., Ghoussaini, M., Ahmed, S., Baynes, C., Bolla, M.K., Wang, Q., Dennis, J., McGuffog, L., Barrowdale, D., Lee, A., Healey, S., Lush, M., Tessier, D.C., Vincent, D., Bacot, F., Vergote, I., Lambrechts, S., Despierre, E., Risch, H.A., Gonzalez-Neira, A., Rossing, M.A., Pita, G., Doherty, J.A., Alvarez, N., Larson, M.C., Fridley, B.L., Schoof, N., Chang-Claude, J., Cicek, M.S., Peto, J., Kalli, K.R., Broeks, A., Armasu, S.M., Schmidt, M.K., Braaf, L.M., Winterhoff, B., Nevanlinna, H., Konecny, G.E., Lambrechts, D., Rogmann, L., Guenel, P., Teoman, A., Milne, R.L., Garcia, J.J., Cox, A, Shridhar, V., Burwinkel, B., Marme, F., Hein, R., Sawyer, E.J., Haiman, C.A., Wang-Gohrke, S., Andrulis, I.L., Moysich, K.B., Hopper, J.L., Odunsi, K., Lindblom, A., Giles, G.G., Brenner, H., Simard, J., Lurie, G., Fasching, P.A., Carney, M.E., Radice, P., Wilkens, L.R., Swerdlow, A., Goodman, M.T., Kiemeney, L.A.L.M., Aben, K.K.H., Altena, A.M. van, Massuger, L.F.A.G., Mensenkamp, A.R., et al., Bojesen, S.E., Pooley, K.A., Johnatty, S.E., Beesley, J., Michailidou, K., Tyrer, J.P., Edwards, S.L., Pickett, H.A., Shen, H.C., Smart, C.E., Hillman, K.M., Mai, P.L., Lawrenson, K., Stutz, M.D., Lu, Y., Karevan, R., Woods, N., Johnston, R.L., French, J.D., Chen, X., Weischer, M., Nielsen, S.F., Maranian, M.J., Ghoussaini, M., Ahmed, S., Baynes, C., Bolla, M.K., Wang, Q., Dennis, J., McGuffog, L., Barrowdale, D., Lee, A., Healey, S., Lush, M., Tessier, D.C., Vincent, D., Bacot, F., Vergote, I., Lambrechts, S., Despierre, E., Risch, H.A., Gonzalez-Neira, A., Rossing, M.A., Pita, G., Doherty, J.A., Alvarez, N., Larson, M.C., Fridley, B.L., Schoof, N., Chang-Claude, J., Cicek, M.S., Peto, J., Kalli, K.R., Broeks, A., Armasu, S.M., Schmidt, M.K., Braaf, L.M., Winterhoff, B., Nevanlinna, H., Konecny, G.E., Lambrechts, D., Rogmann, L., Guenel, P., Teoman, A., Milne, R.L., Garcia, J.J., Cox, A, Shridhar, V., Burwinkel, B., Marme, F., Hein, R., Sawyer, E.J., Haiman, C.A., Wang-Gohrke, S., Andrulis, I.L., Moysich, K.B., Hopper, J.L., Odunsi, K., Lindblom, A., Giles, G.G., Brenner, H., Simard, J., Lurie, G., Fasching, P.A., Carney, M.E., Radice, P., Wilkens, L.R., Swerdlow, A., Goodman, M.T., Kiemeney, L.A.L.M., Aben, K.K.H., Altena, A.M. van, Massuger, L.F.A.G., Mensenkamp, A.R., and et al.

Abstract

Contains fulltext : 118827.pdf (publisher's version ) (Closed access), TERT-locus SNPs and leukocyte telomere measures are reportedly associated with risks of multiple cancers. Using the Illumina custom genotyping array iCOGs, we analyzed approximately 480 SNPs at the TERT locus in breast (n = 103,991), ovarian (n = 39,774) and BRCA1 mutation carrier (n = 11,705) cancer cases and controls. Leukocyte telomere measurements were also available for 53,724 participants. Most associations cluster into three independent peaks. The minor allele at the peak 1 SNP rs2736108 associates with longer telomeres (P = 5.8 x 10(-7)), lower risks for estrogen receptor (ER)-negative (P = 1.0 x 10(-8)) and BRCA1 mutation carrier (P = 1.1 x 10(-5)) breast cancers and altered promoter assay signal. The minor allele at the peak 2 SNP rs7705526 associates with longer telomeres (P = 2.3 x 10(-14)), higher risk of low-malignant-potential ovarian cancer (P = 1.3 x 10(-15)) and greater promoter activity. The minor alleles at the peak 3 SNPs rs10069690 and rs2242652 increase ER-negative (P = 1.2 x 10(-12)) and BRCA1 mutation carrier (P = 1.6 x 10(-14)) breast and invasive ovarian (P = 1.3 x 10(-11)) cancer risks but not via altered telomere length. The cancer risk alleles of rs2242652 and rs10069690, respectively, increase silencing and generate a truncated TERT splice variant.

Published

2013

22. Fine-mapping identifies multiple prostate cancer risk loci at 5p15, one of which associates with TERT expression

Author

Kote-Jarai, Z, Saunders, EJ, Leongamornlert, DA, Tymrakiewicz, M, Dadaev, T, Jugurnauth-Little, S, Ross-Adams, H, Al Olama, AA, Benlloch, S, Halim, S, Russel, R, Dunning, AM, Luccarini, C, Dennis, J, Neal, DE, Hamdy, FC, Donovan, JL, Muir, K, Giles, GG, Severi, G, Wiklund, F, Gronberg, H, Haiman, CA, Schumacher, F, Henderson, BE, Le Marchand, L, Lindstrom, S, Kraft, P, Hunter, DJ, Gapstur, S, Chanock, S, Berndt, SI, Albanes, D, Andriole, G, Schleutker, J, Weischer, M, Canzian, F, Riboli, E, Key, TJ, Travis, RC, Campa, D, Ingles, SA, John, EM, Hayes, RB, Pharoah, P, Khaw, K-T, Stanford, JL, Ostrander, EA, Signorello, LB, Thibodeau, SN, Schaid, D, Maier, C, Vogel, W, Kibel, AS, Cybulski, C, Lubinski, J, Cannon-Albright, L, Brenner, H, Park, JY, Kaneva, R, Batra, J, Spurdle, A, Clements, JA, Teixeira, MR, Govindasami, K, Guy, M, Wilkinson, RA, Sawyer, EJ, Morgan, A, Dicks, E, Baynes, C, Conroy, D, Bojesen, SE, Kaaks, R, Vincent, D, Bacot, F, Tessier, DC, Easton, DF, Eeles, RA, Kote-Jarai, Z, Saunders, EJ, Leongamornlert, DA, Tymrakiewicz, M, Dadaev, T, Jugurnauth-Little, S, Ross-Adams, H, Al Olama, AA, Benlloch, S, Halim, S, Russel, R, Dunning, AM, Luccarini, C, Dennis, J, Neal, DE, Hamdy, FC, Donovan, JL, Muir, K, Giles, GG, Severi, G, Wiklund, F, Gronberg, H, Haiman, CA, Schumacher, F, Henderson, BE, Le Marchand, L, Lindstrom, S, Kraft, P, Hunter, DJ, Gapstur, S, Chanock, S, Berndt, SI, Albanes, D, Andriole, G, Schleutker, J, Weischer, M, Canzian, F, Riboli, E, Key, TJ, Travis, RC, Campa, D, Ingles, SA, John, EM, Hayes, RB, Pharoah, P, Khaw, K-T, Stanford, JL, Ostrander, EA, Signorello, LB, Thibodeau, SN, Schaid, D, Maier, C, Vogel, W, Kibel, AS, Cybulski, C, Lubinski, J, Cannon-Albright, L, Brenner, H, Park, JY, Kaneva, R, Batra, J, Spurdle, A, Clements, JA, Teixeira, MR, Govindasami, K, Guy, M, Wilkinson, RA, Sawyer, EJ, Morgan, A, Dicks, E, Baynes, C, Conroy, D, Bojesen, SE, Kaaks, R, Vincent, D, Bacot, F, Tessier, DC, Easton, DF, and Eeles, RA

Abstract

Associations between single nucleotide polymorphisms (SNPs) at 5p15 and multiple cancer types have been reported. We have previously shown evidence for a strong association between prostate cancer (PrCa) risk and rs2242652 at 5p15, intronic in the telomerase reverse transcriptase (TERT) gene that encodes TERT. To comprehensively evaluate the association between genetic variation across this region and PrCa, we performed a fine-mapping analysis by genotyping 134 SNPs using a custom Illumina iSelect array or Sequenom MassArray iPlex, followed by imputation of 1094 SNPs in 22 301 PrCa cases and 22 320 controls in The PRACTICAL consortium. Multiple stepwise logistic regression analysis identified four signals in the promoter or intronic regions of TERT that independently associated with PrCa risk. Gene expression analysis of normal prostate tissue showed evidence that SNPs within one of these regions also associated with TERT expression, providing a potential mechanism for predisposition to disease.

Published

2013

23. CHEK2*1100delC heterozygosity in women with breast cancer associated with early death, breast cancer-specific death, and increased risk of a second breast cancer

Author

Weischer, M. (Maren), Nordestgaard, B.G. (Børge), Pharoah, P.D.P. (Paul), Bolla, M.K. (Manjeet), Nevanlinna, H. (Heli), Veer, L.J. (Laura) van 't, García-Closas, M. (Montserrat), Hopper, J.L. (John), Hall, P. (Per), Andrulis, I.L. (Irene), Devilee, P. (Peter), Fasching, P.A. (Peter), Anton-Culver, H. (Hoda), Lambrechts, D. (Diether), Hooning, M.J. (Maartje), Cox, A. (Angela), Giles, G.G. (Graham), Burwinkel, B. (Barbara), Lindblom, A. (Annika), Couch, F.J. (Fergus), Mannermaa, A. (Arto), Alnæs, G.G. (Grethe), John, E.M. (Esther), Dörk, T. (Thilo), Flyger, H. (Henrik), Dunning, A.M. (Alison), Wang, Q. (Qing), Muranen, T.A. (Taru), Hien, R.R. (Richard) van, Figueroa, J.D. (Jonine), Southey, M.C. (Melissa), Czene, K. (Kamila), Knight, J.A. (Julia), Tollenaar, R.A.E.M. (Rob), Beckmann, M.W. (Matthias), Ziogas, A. (Argyrios), Christiaens, M.R. (Marie Rose), Collée, J.M. (Margriet), Reed, M.W.R. (Malcolm), Severi, G. (Gianluca), Marme, F. (Federick), Margolin, S. (Sara), Olson, J.E. (Janet), Kosma, V-M. (Veli-Matti), Kristensen, V. (Vessela), Miron, A. (Alexander), Bogdanova, N.V. (Natalia), Shah, M. (Mitul), Blomqvist, C. (Carl), Broeks, A. (Annegien), Sherman, M.E. (Mark), Phillips, K. (Kelly), Li, J. (Jingmei), Liu, J. (Jianjun), Glendon, G. (Gord), Seynaeve, C.M. (Caroline), Ekici, A.B. (Arif), Leunen, K., Kriege, M. (Mieke), Cross, S.S. (Simon), Baglietto, L. (Laura), Sohn, C. (Christof), Wang, X. (Xing), Kataja, V. (Vesa), Børresen-Dale, A.L. (Anne Lise), Meyer, A. (Andreas), Easton, D.F. (Douglas), Schmidt, M.K. (Marjanka), Bojesen, S.E. (Stig), Weischer, M. (Maren), Nordestgaard, B.G. (Børge), Pharoah, P.D.P. (Paul), Bolla, M.K. (Manjeet), Nevanlinna, H. (Heli), Veer, L.J. (Laura) van 't, García-Closas, M. (Montserrat), Hopper, J.L. (John), Hall, P. (Per), Andrulis, I.L. (Irene), Devilee, P. (Peter), Fasching, P.A. (Peter), Anton-Culver, H. (Hoda), Lambrechts, D. (Diether), Hooning, M.J. (Maartje), Cox, A. (Angela), Giles, G.G. (Graham), Burwinkel, B. (Barbara), Lindblom, A. (Annika), Couch, F.J. (Fergus), Mannermaa, A. (Arto), Alnæs, G.G. (Grethe), John, E.M. (Esther), Dörk, T. (Thilo), Flyger, H. (Henrik), Dunning, A.M. (Alison), Wang, Q. (Qing), Muranen, T.A. (Taru), Hien, R.R. (Richard) van, Figueroa, J.D. (Jonine), Southey, M.C. (Melissa), Czene, K. (Kamila), Knight, J.A. (Julia), Tollenaar, R.A.E.M. (Rob), Beckmann, M.W. (Matthias), Ziogas, A. (Argyrios), Christiaens, M.R. (Marie Rose), Collée, J.M. (Margriet), Reed, M.W.R. (Malcolm), Severi, G. (Gianluca), Marme, F. (Federick), Margolin, S. (Sara), Olson, J.E. (Janet), Kosma, V-M. (Veli-Matti), Kristensen, V. (Vessela), Miron, A. (Alexander), Bogdanova, N.V. (Natalia), Shah, M. (Mitul), Blomqvist, C. (Carl), Broeks, A. (Annegien), Sherman, M.E. (Mark), Phillips, K. (Kelly), Li, J. (Jingmei), Liu, J. (Jianjun), Glendon, G. (Gord), Seynaeve, C.M. (Caroline), Ekici, A.B. (Arif), Leunen, K., Kriege, M. (Mieke), Cross, S.S. (Simon), Baglietto, L. (Laura), Sohn, C. (Christof), Wang, X. (Xing), Kataja, V. (Vesa), Børresen-Dale, A.L. (Anne Lise), Meyer, A. (Andreas), Easton, D.F. (Douglas), Schmidt, M.K. (Marjanka), and Bojesen, S.E. (Stig)

Abstract

Purpose: We tested the hypotheses that CHEK2*1100delC heterozygosity is associated with increased risk of early death, breast cancer-specific death, and risk of a second breast cancer in women with a first breast cancer. Patients and Methods: From 22 studies participating in the Breast Cancer Association Consortium, 25,571 white women with invasive breast cancer were genotyped for CHEK2*1100delC and observed for up to 20 years (median, 6.6 years). We examined risk of early death and breast cancer-specific death by estrogen receptor status and risk of a second breast cancer after a first breast cancer in prospective studies. Results: CHEK2*1100delC heterozygosity was found in 459 patients (1.8%). In women with estrogen receptor-positive breast cancer, m

Published

2012

24. Fine-mapping identifies multiple prostate cancer risk loci at 5p15, one of which associates with TERT expression

Author

Kote-Jarai, Z., primary, Saunders, E. J., additional, Leongamornlert, D. A., additional, Tymrakiewicz, M., additional, Dadaev, T., additional, Jugurnauth-Little, S., additional, Ross-Adams, H., additional, Al Olama, A. A., additional, Benlloch, S., additional, Halim, S., additional, Russell, R., additional, Dunning, A. M., additional, Luccarini, C., additional, Dennis, J., additional, Neal, D. E., additional, Hamdy, F. C., additional, Donovan, J. L., additional, Muir, K., additional, Giles, G. G., additional, Severi, G., additional, Wiklund, F., additional, Gronberg, H., additional, Haiman, C. A., additional, Schumacher, F., additional, Henderson, B. E., additional, Le Marchand, L., additional, Lindstrom, S., additional, Kraft, P., additional, Hunter, D. J., additional, Gapstur, S., additional, Chanock, S., additional, Berndt, S. I., additional, Albanes, D., additional, Andriole, G., additional, Schleutker, J., additional, Weischer, M., additional, Canzian, F., additional, Riboli, E., additional, Key, T. J., additional, Travis, R. C., additional, Campa, D., additional, Ingles, S. A., additional, John, E. M., additional, Hayes, R. B., additional, Pharoah, P., additional, Khaw, K.-T., additional, Stanford, J. L., additional, Ostrander, E. A., additional, Signorello, L. B., additional, Thibodeau, S. N., additional, Schaid, D., additional, Maier, C., additional, Vogel, W., additional, Kibel, A. S., additional, Cybulski, C., additional, Lubinski, J., additional, Cannon-Albright, L., additional, Brenner, H., additional, Park, J. Y., additional, Kaneva, R., additional, Batra, J., additional, Spurdle, A., additional, Clements, J. A., additional, Teixeira, M. R., additional, Govindasami, K., additional, Guy, M., additional, Wilkinson, R. A., additional, Sawyer, E. J., additional, Morgan, A., additional, Dicks, E., additional, Baynes, C., additional, Conroy, D., additional, Bojensen, S. E., additional, Kaaks, R., additional, Vincent, D., additional, Bacot, F., additional, Tessier, D. C., additional, Easton, D. F., additional, and Eeles, R. A., additional

Published

2013

25. Response

Author

Weischer, M., primary, Nordestgaard, B. G., additional, and Bojesen, S. E., additional

Published

2013

26. Risk of cancer by ATM missense mutations in the general population

Author

Dombernowsky, S. L., primary, Weischer, M., additional, Højgaard Allin, K., additional, Bojesen, S. E., additional, Tybjærg-Hansen, A., additional, and Nordestgaard, B. G., additional

Published

2008

27. Kein Hinweis für erhöhtes Hautkrebsrisiko durch UVB Phototherapie bei Patienten mit Psoriasis vulgaris: Eine retrospektive Pilotstudie

Author

Benedix, F, primary, Weischer, M, additional, Blum, A, additional, Eberhard, F, additional, Röcken, M, additional, and Berneburg, M, additional

Published

2004

28. CHEK2*1100delC heterozygosity in women with breast cancer associated with early death, breast cancer-specific death, and increased risk of a second breast cancer.

Author

Weischer M, Nordestgaard BG, Pharoah P, Bolla MK, Nevanlinna H, Van't Veer LJ, Garcia-Closas M, Hopper JL, Hall P, Andrulis IL, Devilee P, Fasching PA, Anton-Culver H, Lambrechts D, Hooning M, Cox A, Giles GG, Burwinkel B, Lindblom A, and Couch FJ

Published

2012

29. Nosocomial epidemic of Serratia marcescens septicemia ascribed to contaminated blood transfusion bags

Author

Heltberg, O, primary, Skov, F, additional, Gerner-Smidt, P, additional, Kolmos, HJ, additional, Dybkjaer, E, additional, Gutschik, E, additional, Jerne, D, additional, Jepsen, OB, additional, Weischer, M, additional, and Frederiksen, W, additional

Published

1993

30. Retrospective 6-year study of enterobacter bacteraemia in a Danish university hospital

Author

Weischer, M., primary and Kolmos, H.J., additional

Published

1992

31. CHEK2*1100delC genotyping for clinical assessment of breast cancer risk: meta-analyses of 26,000 patient cases and 27,000 controls.

Author

Weischer M, Bojesen SE, Ellervik C, Tybjaerg-Hansen A, and Nordestgaard BG

Published

2008

32. Chemical and physiological properties of the natural tranquilliser in the cephalopod eggs

Author

Weischer, M. -L. and Marthy, H. -J.

Abstract

The perivitellin fluid of the eggs of the squid Loligo vulgaris contains a “natural tranquilliser”, which acts on the young animals as they approach the end of embryonic development. It prevents premature hatching, leading to optimum conditions for the survival of well developed juveniles. In this study a chemical and physiological approach is made to define the properties of this natural tranquillising factor (ntr-factor). It is likely to be a polypeptide or a protein of a molecular weight of about 60,000 daltons. The effect of the ntr-factor can be antagonized by the centrally stimulating drugs bicuculline and pentylenetetrazol. An effect very similar to that produced by the ntr-factor is evoked by the purine nucleoside inosine. The results are discussed from two different viewpoints: one concerns the physiological aspects of the late developmental phase of Loligo vulgaris, in particular the possible receptor sites and the mode of action of the ntr-factor in the embryos; the other is the potential interest that squid juveniles may represent for pharmacological research.

Published

1983

33. A meta-analysis of 87,040 individuals identifies 23 new susceptibility loci for prostate cancer

Author

Aa, Al Olama, Kote-Jarai Z, Si, Berndt, Dv, Conti, Schumacher F, Han Y, Benlloch S, Dj, Hazelett, Wang Z, Saunders E, Leongamornlert D, Lindstrom S, Jugurnauth-Little S, Dadaev T, Tymrakiewicz M, Do, Stram, Rand K, Wan P, Stram A, Sheng X, Lc, Pooler, Park K, Xia L, Tyrer J, Ln, Kolonel, Le Marchand L, Rn, Hoover, Mj, Machiela, Yeager M, Burdette L, Cc, Chung, Hutchinson A, Yu K, Goh C, Ahmed M, Govindasami K, Guy M, Tl, Tammela, Auvinen A, Wahlfors T, Schleutker J, Visakorpi T, Ka, Leinonen, Xu J, Aly M, Donovan J, Rc, Travis, Tj, Key, Siddiq A, Canzian F, Kt, Khaw, Takahashi A, Kubo M, Pharoah P, Pashayan N, Weischer M, Bg, Nordestgaard, Sf, Nielsen, Klarskov P, Ma, Røder, Iversen P, Sn, Thibodeau, Sk, Mcdonnell, Dj, Schaid, Jl, Stanford, Kolb S, Holt S, Knudsen B, Ah, Coll, Sm, Gapstur, Wr, Diver, Vl, Stevens, Maier C, Luedeke M, Herkommer K, Ae, Rinckleb, Ss, Strom, Pettaway C, Ed, Yeboah, Tettey Y, Rb, Biritwum, Aa, Adjei, Tay E, Truelove A, Niwa S, Ap, Chokkalingam, Cannon-Albright L, Cybulski C, Wokołorczyk D, Kluźniak W, Park J, Sellers T, Hy, Lin, Wb, Isaacs, Aw, Partin, Brenner H, Ak, Dieffenbach, Stegmaier C, Chen C, El, Giovannucci, Ma J, Stampfer M, Kl, Penney, Mucci L, Em, John, Sa, Ingles, Ra, Kittles, Ab, Murphy, Pandha H, Michael A, Am, Kierzek, Blot W, Lb, Signorello, Zheng W, Albanes D, Virtamo J, Weinstein S, Nemesure B, Carpten J, Leske C, Sy, Wu, Hennis A, As, Kibel, Ba, Rybicki, Neslund-Dudas C, Aw, Hsing, Chu L, Pj, Goodman, Ea, Klein, Sl, Zheng, Batra J, Clements J, Spurdle A, Teixeira MR, Maia S, Slavov C, Kaneva R, Mitev V, Js, Witte, Casey G, Em, Gillanders, Seminara D, Riboli E, Fc, Hamdy, Ga, Coetzee, Li Q, Ml, Freedman, Dj, Hunter, Muir K, Gronberg H, Neal DE, Southey M, Gg, Giles, Severi G, Mb, Cook, Nakagawa H, Wiklund F, Kraft P, Sj, Chanock, Be, Henderson, Df, Easton, Ra, Eeles, and Ca, Haiman

34. Chemical and physiological properties of the natural tranquilliser in the cephalopod eggs

Author

Weischer, M.‐L., primary and Marthy, H.‐J., additional

Published

1983

35. Chemical and Physiological Properties of the Natural Tranquilliser in the Cephalopod Eggs

Author

Marthy, H.-J. and Weischer, M.-L.

Published

1983

36. THE IODINE CONTENT OF HUMAN AND ANIMAL ORGANS, WITH PARTICULAR CONSIDERATION OF THE OVARIES.

Author

Weischer, M

Published

1968

37. Characterizing prostate cancer risk through multi-ancestry genome-wide discovery of 187 novel risk variants.

Author

Wang A, Shen J, Rodriguez AA, Saunders EJ, Chen F, Janivara R, Darst BF, Sheng X, Xu Y, Chou AJ, Benlloch S, Dadaev T, Brook MN, Plym A, Sahimi A, Hoffman TJ, Takahashi A, Matsuda K, Momozawa Y, Fujita M, Laisk T, Figuerêdo J, Muir K, Ito S, Liu X, Uchio Y, Kubo M, Kamatani Y, Lophatananon A, Wan P, Andrews C, Lori A, Choudhury PP, Schleutker J, Tammela TLJ, Sipeky C, Auvinen A, Giles GG, Southey MC, MacInnis RJ, Cybulski C, Wokolorczyk D, Lubinski J, Rentsch CT, Cho K, Mcmahon BH, Neal DE, Donovan JL, Hamdy FC, Martin RM, Nordestgaard BG, Nielsen SF, Weischer M, Bojesen SE, Røder A, Stroomberg HV, Batra J, Chambers S, Horvath L, Clements JA, Tilly W, Risbridger GP, Gronberg H, Aly M, Szulkin R, Eklund M, Nordstrom T, Pashayan N, Dunning AM, Ghoussaini M, Travis RC, Key TJ, Riboli E, Park JY, Sellers TA, Lin HY, Albanes D, Weinstein S, Cook MB, Mucci LA, Giovannucci E, Lindstrom S, Kraft P, Hunter DJ, Penney KL, Turman C, Tangen CM, Goodman PJ, Thompson IM Jr, Hamilton RJ, Fleshner NE, Finelli A, Parent MÉ, Stanford JL, Ostrander EA, Koutros S, Beane Freeman LE, Stampfer M, Wolk A, Håkansson N, Andriole GL, Hoover RN, Machiela MJ, Sørensen KD, Borre M, Blot WJ, Zheng W, Yeboah ED, Mensah JE, Lu YJ, Zhang HW, Feng N, Mao X, Wu Y, Zhao SC, Sun Z, Thibodeau SN, McDonnell SK, Schaid DJ, West CML, Barnett G, Maier C, Schnoeller T, Luedeke M, Kibel AS, Drake BF, Cussenot O, Cancel-Tassin G, Menegaux F, Truong T, Koudou YA, John EM, Grindedal EM, Maehle L, Khaw KT, Ingles SA, Stern MC, Vega A, Gómez-Caamaño A, Fachal L, Rosenstein BS, Kerns SL, Ostrer H, Teixeira MR, Paulo P, Brandão A, Watya S, Lubwama A, Bensen JT, Butler EN, Mohler JL, Taylor JA, Kogevinas M, Dierssen-Sotos T, Castaño-Vinyals G, Cannon-Albright L, Teerlink CC, Huff CD, Pilie P, Yu Y, Bohlender RJ, Gu J, Strom SS, Multigner L, Blanchet P, Brureau L, Kaneva R, Slavov C, Mitev V, Leach RJ, Brenner H, Chen X, Holleczek B, Schöttker B, Klein EA, Hsing AW, Kittles RA, Murphy AB, Logothetis CJ, Kim J, Neuhausen SL, Steele L, Ding YC, Isaacs WB, Nemesure B, Hennis AJM, Carpten J, Pandha H, Michael A, De Ruyck K, De Meerleer G, Ost P, Xu J, Razack A, Lim J, Teo SH, Newcomb LF, Lin DW, Fowke JH, Neslund-Dudas CM, Rybicki BA, Gamulin M, Lessel D, Kulis T, Usmani N, Abraham A, Singhal S, Parliament M, Claessens F, Joniau S, Van den Broeck T, Gago-Dominguez M, Castelao JE, Martinez ME, Larkin S, Townsend PA, Aukim-Hastie C, Bush WS, Aldrich MC, Crawford DC, Srivastava S, Cullen J, Petrovics G, Casey G, Wang Y, Tettey Y, Lachance J, Tang W, Biritwum RB, Adjei AA, Tay E, Truelove A, Niwa S, Yamoah K, Govindasami K, Chokkalingam AP, Keaton JM, Hellwege JN, Clark PE, Jalloh M, Gueye SM, Niang L, Ogunbiyi O, Shittu O, Amodu O, Adebiyi AO, Aisuodionoe-Shadrach OI, Ajibola HO, Jamda MA, Oluwole OP, Nwegbu M, Adusei B, Mante S, Darkwa-Abrahams A, Diop H, Gundell SM, Roobol MJ, Jenster G, van Schaik RHN, Hu JJ, Sanderson M, Kachuri L, Varma R, McKean-Cowdin R, Torres M, Preuss MH, Loos RJF, Zawistowski M, Zöllner S, Lu Z, Van Den Eeden SK, Easton DF, Ambs S, Edwards TL, Mägi R, Rebbeck TR, Fritsche L, Chanock SJ, Berndt SI, Wiklund F, Nakagawa H, Witte JS, Gaziano JM, Justice AC, Mancuso N, Terao C, Eeles RA, Kote-Jarai Z, Madduri RK, Conti DV, and Haiman CA

Subjects

Humans, Male, Black People genetics, Genome-Wide Association Study, Hispanic or Latino genetics, Polymorphism, Single Nucleotide, Risk Factors, White People genetics, Asian People genetics, Genetic Predisposition to Disease, Prostatic Neoplasms genetics

Abstract

The transferability and clinical value of genetic risk scores (GRSs) across populations remain limited due to an imbalance in genetic studies across ancestrally diverse populations. Here we conducted a multi-ancestry genome-wide association study of 156,319 prostate cancer cases and 788,443 controls of European, African, Asian and Hispanic men, reflecting a 57% increase in the number of non-European cases over previous prostate cancer genome-wide association studies. We identified 187 novel risk variants for prostate cancer, increasing the total number of risk variants to 451. An externally replicated multi-ancestry GRS was associated with risk that ranged from 1.8 (per standard deviation) in African ancestry men to 2.2 in European ancestry men. The GRS was associated with a greater risk of aggressive versus non-aggressive disease in men of African ancestry (P = 0.03). Our study presents novel prostate cancer susceptibility loci and a GRS with effective risk stratification across ancestry groups., (© 2023. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2023

38. Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Conti DV, Darst BF, Moss LC, Saunders EJ, Sheng X, Chou A, Schumacher FR, Olama AAA, Benlloch S, Dadaev T, Brook MN, Sahimi A, Hoffmann TJ, Takahashi A, Matsuda K, Momozawa Y, Fujita M, Muir K, Lophatananon A, Wan P, Le Marchand L, Wilkens LR, Stevens VL, Gapstur SM, Carter BD, Schleutker J, Tammela TLJ, Sipeky C, Auvinen A, Giles GG, Southey MC, MacInnis RJ, Cybulski C, Wokołorczyk D, Lubiński J, Neal DE, Donovan JL, Hamdy FC, Martin RM, Nordestgaard BG, Nielsen SF, Weischer M, Bojesen SE, Røder MA, Iversen P, Batra J, Chambers S, Moya L, Horvath L, Clements JA, Tilley W, Risbridger GP, Gronberg H, Aly M, Szulkin R, Eklund M, Nordström T, Pashayan N, Dunning AM, Ghoussaini M, Travis RC, Key TJ, Riboli E, Park JY, Sellers TA, Lin HY, Albanes D, Weinstein SJ, Mucci LA, Giovannucci E, Lindstrom S, Kraft P, Hunter DJ, Penney KL, Turman C, Tangen CM, Goodman PJ, Thompson IM Jr, Hamilton RJ, Fleshner NE, Finelli A, Parent MÉ, Stanford JL, Ostrander EA, Geybels MS, Koutros S, Freeman LEB, Stampfer M, Wolk A, Håkansson N, Andriole GL, Hoover RN, Machiela MJ, Sørensen KD, Borre M, Blot WJ, Zheng W, Yeboah ED, Mensah JE, Lu YJ, Zhang HW, Feng N, Mao X, Wu Y, Zhao SC, Sun Z, Thibodeau SN, McDonnell SK, Schaid DJ, West CML, Burnet N, Barnett G, Maier C, Schnoeller T, Luedeke M, Kibel AS, Drake BF, Cussenot O, Cancel-Tassin G, Menegaux F, Truong T, Koudou YA, John EM, Grindedal EM, Maehle L, Khaw KT, Ingles SA, Stern MC, Vega A, Gómez-Caamaño A, Fachal L, Rosenstein BS, Kerns SL, Ostrer H, Teixeira MR, Paulo P, Brandão A, Watya S, Lubwama A, Bensen JT, Fontham ETH, Mohler J, Taylor JA, Kogevinas M, Llorca J, Castaño-Vinyals G, Cannon-Albright L, Teerlink CC, Huff CD, Strom SS, Multigner L, Blanchet P, Brureau L, Kaneva R, Slavov C, Mitev V, Leach RJ, Weaver B, Brenner H, Cuk K, Holleczek B, Saum KU, Klein EA, Hsing AW, Kittles RA, Murphy AB, Logothetis CJ, Kim J, Neuhausen SL, Steele L, Ding YC, Isaacs WB, Nemesure B, Hennis AJM, Carpten J, Pandha H, Michael A, De Ruyck K, De Meerleer G, Ost P, Xu J, Razack A, Lim J, Teo SH, Newcomb LF, Lin DW, Fowke JH, Neslund-Dudas C, Rybicki BA, Gamulin M, Lessel D, Kulis T, Usmani N, Singhal S, Parliament M, Claessens F, Joniau S, Van den Broeck T, Gago-Dominguez M, Castelao JE, Martinez ME, Larkin S, Townsend PA, Aukim-Hastie C, Bush WS, Aldrich MC, Crawford DC, Srivastava S, Cullen JC, Petrovics G, Casey G, Roobol MJ, Jenster G, van Schaik RHN, Hu JJ, Sanderson M, Varma R, McKean-Cowdin R, Torres M, Mancuso N, Berndt SI, Van Den Eeden SK, Easton DF, Chanock SJ, Cook MB, Wiklund F, Nakagawa H, Witte JS, Eeles RA, Kote-Jarai Z, and Haiman CA

Published

2021

39. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Conti DV, Darst BF, Moss LC, Saunders EJ, Sheng X, Chou A, Schumacher FR, Olama AAA, Benlloch S, Dadaev T, Brook MN, Sahimi A, Hoffmann TJ, Takahashi A, Matsuda K, Momozawa Y, Fujita M, Muir K, Lophatananon A, Wan P, Le Marchand L, Wilkens LR, Stevens VL, Gapstur SM, Carter BD, Schleutker J, Tammela TLJ, Sipeky C, Auvinen A, Giles GG, Southey MC, MacInnis RJ, Cybulski C, Wokołorczyk D, Lubiński J, Neal DE, Donovan JL, Hamdy FC, Martin RM, Nordestgaard BG, Nielsen SF, Weischer M, Bojesen SE, Røder MA, Iversen P, Batra J, Chambers S, Moya L, Horvath L, Clements JA, Tilley W, Risbridger GP, Gronberg H, Aly M, Szulkin R, Eklund M, Nordström T, Pashayan N, Dunning AM, Ghoussaini M, Travis RC, Key TJ, Riboli E, Park JY, Sellers TA, Lin HY, Albanes D, Weinstein SJ, Mucci LA, Giovannucci E, Lindstrom S, Kraft P, Hunter DJ, Penney KL, Turman C, Tangen CM, Goodman PJ, Thompson IM Jr, Hamilton RJ, Fleshner NE, Finelli A, Parent MÉ, Stanford JL, Ostrander EA, Geybels MS, Koutros S, Freeman LEB, Stampfer M, Wolk A, Håkansson N, Andriole GL, Hoover RN, Machiela MJ, Sørensen KD, Borre M, Blot WJ, Zheng W, Yeboah ED, Mensah JE, Lu YJ, Zhang HW, Feng N, Mao X, Wu Y, Zhao SC, Sun Z, Thibodeau SN, McDonnell SK, Schaid DJ, West CML, Burnet N, Barnett G, Maier C, Schnoeller T, Luedeke M, Kibel AS, Drake BF, Cussenot O, Cancel-Tassin G, Menegaux F, Truong T, Koudou YA, John EM, Grindedal EM, Maehle L, Khaw KT, Ingles SA, Stern MC, Vega A, Gómez-Caamaño A, Fachal L, Rosenstein BS, Kerns SL, Ostrer H, Teixeira MR, Paulo P, Brandão A, Watya S, Lubwama A, Bensen JT, Fontham ETH, Mohler J, Taylor JA, Kogevinas M, Llorca J, Castaño-Vinyals G, Cannon-Albright L, Teerlink CC, Huff CD, Strom SS, Multigner L, Blanchet P, Brureau L, Kaneva R, Slavov C, Mitev V, Leach RJ, Weaver B, Brenner H, Cuk K, Holleczek B, Saum KU, Klein EA, Hsing AW, Kittles RA, Murphy AB, Logothetis CJ, Kim J, Neuhausen SL, Steele L, Ding YC, Isaacs WB, Nemesure B, Hennis AJM, Carpten J, Pandha H, Michael A, De Ruyck K, De Meerleer G, Ost P, Xu J, Razack A, Lim J, Teo SH, Newcomb LF, Lin DW, Fowke JH, Neslund-Dudas C, Rybicki BA, Gamulin M, Lessel D, Kulis T, Usmani N, Singhal S, Parliament M, Claessens F, Joniau S, Van den Broeck T, Gago-Dominguez M, Castelao JE, Martinez ME, Larkin S, Townsend PA, Aukim-Hastie C, Bush WS, Aldrich MC, Crawford DC, Srivastava S, Cullen JC, Petrovics G, Casey G, Roobol MJ, Jenster G, van Schaik RHN, Hu JJ, Sanderson M, Varma R, McKean-Cowdin R, Torres M, Mancuso N, Berndt SI, Van Den Eeden SK, Easton DF, Chanock SJ, Cook MB, Wiklund F, Nakagawa H, Witte JS, Eeles RA, Kote-Jarai Z, and Haiman CA

Subjects

Humans, Male, Middle Aged, Molecular Sequence Annotation, Neoplasm Invasiveness, Odds Ratio, Prostatic Neoplasms diagnosis, Risk Factors, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Prostatic Neoplasms genetics, Racial Groups genetics

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.

Published

2021

40. Author Correction: Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci.

Author

Schumacher FR, Olama AAA, Berndt SI, Benlloch S, Ahmed M, Saunders EJ, Dadaev T, Leongamornlert D, Anokian E, Cieza-Borrella C, Goh C, Brook MN, Sheng X, Fachal L, Dennis J, Tyrer J, Muir K, Lophatananon A, Stevens VL, Gapstur SM, Carter BD, Tangen CM, Goodman PJ, Thompson IM Jr, Batra J, Chambers S, Moya L, Clements J, Horvath L, Tilley W, Risbridger GP, Gronberg H, Aly M, Nordström T, Pharoah P, Pashayan N, Schleutker J, Tammela TLJ, Sipeky C, Auvinen A, Albanes D, Weinstein S, Wolk A, Håkansson N, West CML, Dunning AM, Burnet N, Mucci LA, Giovannucci E, Andriole GL, Cussenot O, Cancel-Tassin G, Koutros S, Beane Freeman LE, Sorensen KD, Orntoft TF, Borre M, Maehle L, Grindedal EM, Neal DE, Donovan JL, Hamdy FC, Martin RM, Travis RC, Key TJ, Hamilton RJ, Fleshner NE, Finelli A, Ingles SA, Stern MC, Rosenstein BS, Kerns SL, Ostrer H, Lu YJ, Zhang HW, Feng N, Mao X, Guo X, Wang G, Sun Z, Giles GG, Southey MC, MacInnis RJ, FitzGerald LM, Kibel AS, Drake BF, Vega A, Gómez-Caamaño A, Szulkin R, Eklund M, Kogevinas M, Llorca J, Castaño-Vinyals G, Penney KL, Stampfer M, Park JY, Sellers TA, Lin HY, Stanford JL, Cybulski C, Wokolorczyk D, Lubinski J, Ostrander EA, Geybels MS, Nordestgaard BG, Nielsen SF, Weischer M, Bisbjerg R, Røder MA, Iversen P, Brenner H, Cuk K, Holleczek B, Maier C, Luedeke M, Schnoeller T, Kim J, Logothetis CJ, John EM, Teixeira MR, Paulo P, Cardoso M, Neuhausen SL, Steele L, Ding YC, De Ruyck K, De Meerleer G, Ost P, Razack A, Lim J, Teo SH, Lin DW, Newcomb LF, Lessel D, Gamulin M, Kulis T, Kaneva R, Usmani N, Singhal S, Slavov C, Mitev V, Parliament M, Claessens F, Joniau S, Van den Broeck T, Larkin S, Townsend PA, Aukim-Hastie C, Gago-Dominguez M, Castelao JE, Martinez ME, Roobol MJ, Jenster G, van Schaik RHN, Menegaux F, Truong T, Koudou YA, Xu J, Khaw KT, Cannon-Albright L, Pandha H, Michael A, Thibodeau SN, McDonnell SK, Schaid DJ, Lindstrom S, Turman C, Ma J, Hunter DJ, Riboli E, Siddiq A, Canzian F, Kolonel LN, Le Marchand L, Hoover RN, Machiela MJ, Cui Z, Kraft P, Amos CI, Conti DV, Easton DF, Wiklund F, Chanock SJ, Henderson BE, Kote-Jarai Z, Haiman CA, and Eeles RA

Abstract

In the version of this article initially published, the name of author Manuela Gago-Dominguez was misspelled as Manuela Gago Dominguez. The error has been corrected in the HTML and PDF version of the article.

Published

2019

41. Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci.

Author

Schumacher FR, Al Olama AA, Berndt SI, Benlloch S, Ahmed M, Saunders EJ, Dadaev T, Leongamornlert D, Anokian E, Cieza-Borrella C, Goh C, Brook MN, Sheng X, Fachal L, Dennis J, Tyrer J, Muir K, Lophatananon A, Stevens VL, Gapstur SM, Carter BD, Tangen CM, Goodman PJ, Thompson IM Jr, Batra J, Chambers S, Moya L, Clements J, Horvath L, Tilley W, Risbridger GP, Gronberg H, Aly M, Nordström T, Pharoah P, Pashayan N, Schleutker J, Tammela TLJ, Sipeky C, Auvinen A, Albanes D, Weinstein S, Wolk A, Håkansson N, West CML, Dunning AM, Burnet N, Mucci LA, Giovannucci E, Andriole GL, Cussenot O, Cancel-Tassin G, Koutros S, Beane Freeman LE, Sorensen KD, Orntoft TF, Borre M, Maehle L, Grindedal EM, Neal DE, Donovan JL, Hamdy FC, Martin RM, Travis RC, Key TJ, Hamilton RJ, Fleshner NE, Finelli A, Ingles SA, Stern MC, Rosenstein BS, Kerns SL, Ostrer H, Lu YJ, Zhang HW, Feng N, Mao X, Guo X, Wang G, Sun Z, Giles GG, Southey MC, MacInnis RJ, FitzGerald LM, Kibel AS, Drake BF, Vega A, Gómez-Caamaño A, Szulkin R, Eklund M, Kogevinas M, Llorca J, Castaño-Vinyals G, Penney KL, Stampfer M, Park JY, Sellers TA, Lin HY, Stanford JL, Cybulski C, Wokolorczyk D, Lubinski J, Ostrander EA, Geybels MS, Nordestgaard BG, Nielsen SF, Weischer M, Bisbjerg R, Røder MA, Iversen P, Brenner H, Cuk K, Holleczek B, Maier C, Luedeke M, Schnoeller T, Kim J, Logothetis CJ, John EM, Teixeira MR, Paulo P, Cardoso M, Neuhausen SL, Steele L, Ding YC, De Ruyck K, De Meerleer G, Ost P, Razack A, Lim J, Teo SH, Lin DW, Newcomb LF, Lessel D, Gamulin M, Kulis T, Kaneva R, Usmani N, Singhal S, Slavov C, Mitev V, Parliament M, Claessens F, Joniau S, Van den Broeck T, Larkin S, Townsend PA, Aukim-Hastie C, Gago-Dominguez M, Castelao JE, Martinez ME, Roobol MJ, Jenster G, van Schaik RHN, Menegaux F, Truong T, Koudou YA, Xu J, Khaw KT, Cannon-Albright L, Pandha H, Michael A, Thibodeau SN, McDonnell SK, Schaid DJ, Lindstrom S, Turman C, Ma J, Hunter DJ, Riboli E, Siddiq A, Canzian F, Kolonel LN, Le Marchand L, Hoover RN, Machiela MJ, Cui Z, Kraft P, Amos CI, Conti DV, Easton DF, Wiklund F, Chanock SJ, Henderson BE, Kote-Jarai Z, Haiman CA, and Eeles RA

Subjects

Case-Control Studies, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study methods, Genotype, Humans, Male, Polymorphism, Single Nucleotide, Risk, Prostatic Neoplasms genetics

Abstract

Genome-wide association studies (GWAS) and fine-mapping efforts to date have identified more than 100 prostate cancer (PrCa)-susceptibility loci. We meta-analyzed genotype data from a custom high-density array of 46,939 PrCa cases and 27,910 controls of European ancestry with previously genotyped data of 32,255 PrCa cases and 33,202 controls of European ancestry. Our analysis identified 62 novel loci associated (P < 5.0 × 10 -8 ) with PrCa and one locus significantly associated with early-onset PrCa (≤55 years). Our findings include missense variants rs1800057 (odds ratio (OR) = 1.16; P = 8.2 × 10 -9 ; G>C, p.Pro1054Arg) in ATM and rs2066827 (OR = 1.06; P = 2.3 × 10 -9 ; T>G, p.Val109Gly) in CDKN1B. The combination of all loci captured 28.4% of the PrCa familial relative risk, and a polygenic risk score conferred an elevated PrCa risk for men in the ninetieth to ninety-ninth percentiles (relative risk = 2.69; 95% confidence interval (CI): 2.55-2.82) and first percentile (relative risk = 5.71; 95% CI: 5.04-6.48) risk stratum compared with the population average. These findings improve risk prediction, enhance fine-mapping, and provide insight into the underlying biology of PrCa 1 .

Published

2018

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

Author

Southey MC, Goldgar DE, Winqvist R, Pylkäs K, Couch F, Tischkowitz M, Foulkes WD, Dennis J, Michailidou K, van Rensburg EJ, Heikkinen T, Nevanlinna H, Hopper JL, Dörk T, Claes KB, Reis-Filho J, Teo ZL, Radice P, Catucci I, Peterlongo P, Tsimiklis H, Odefrey FA, Dowty JG, Schmidt MK, Broeks A, Hogervorst FB, Verhoef S, Carpenter J, Clarke C, Scott RJ, Fasching PA, Haeberle L, Ekici AB, Beckmann MW, Peto J, Dos-Santos-Silva I, Fletcher O, Johnson N, Bolla MK, Sawyer EJ, Tomlinson I, Kerin MJ, Miller N, Marme F, Burwinkel B, Yang R, Guénel P, Truong T, Menegaux F, Sanchez M, Bojesen S, Nielsen SF, Flyger H, Benitez J, Zamora MP, Perez JI, Menéndez P, Anton-Culver H, Neuhausen S, Ziogas A, Clarke CA, Brenner H, Arndt V, Stegmaier C, Brauch H, Brüning T, Ko YD, Muranen TA, Aittomäki K, Blomqvist C, Bogdanova NV, Antonenkova NN, Lindblom A, Margolin S, Mannermaa A, Kataja V, Kosma VM, Hartikainen JM, Spurdle AB, Investigators K, Wauters E, Smeets D, Beuselinck B, Floris G, Chang-Claude J, Rudolph A, Seibold P, Flesch-Janys D, Olson JE, Vachon C, Pankratz VS, McLean C, Haiman CA, Henderson BE, Schumacher F, Le Marchand L, Kristensen V, Alnæs GG, Zheng W, Hunter DJ, Lindstrom S, Hankinson SE, Kraft P, Andrulis I, Knight JA, Glendon G, Mulligan AM, Jukkola-Vuorinen A, Grip M, Kauppila S, Devilee P, Tollenaar RA, Seynaeve C, Hollestelle A, Garcia-Closas M, Figueroa J, Chanock SJ, Lissowska J, Czene K, Darabi H, Eriksson M, Eccles DM, Rafiq S, Tapper WJ, Gerty SM, Hooning MJ, Martens JW, Collée JM, Tilanus-Linthorst M, Hall P, Li J, Brand JS, Humphreys K, Cox A, Reed MW, Luccarini C, Baynes C, Dunning AM, Hamann U, Torres D, Ulmer HU, Rüdiger T, Jakubowska A, Lubinski J, Jaworska K, Durda K, Slager S, Toland AE, Ambrosone CB, Yannoukakos D, Swerdlow A, Ashworth A, Orr N, Jones M, González-Neira A, Pita G, Alonso MR, Álvarez N, Herrero D, Tessier DC, Vincent D, Bacot F, Simard J, Dumont M, Soucy P, Eeles R, Muir K, Wiklund F, Gronberg H, Schleutker J, Nordestgaard BG, Weischer M, Travis RC, Neal D, Donovan JL, Hamdy FC, Khaw KT, Stanford JL, Blot WJ, Thibodeau S, Schaid DJ, Kelley JL, Maier C, Kibel AS, Cybulski C, Cannon-Albright L, Butterbach K, Park J, Kaneva R, Batra J, Teixeira MR, Kote-Jarai Z, Olama AA, Benlloch S, Renner SP, Hartmann A, Hein A, Ruebner M, Lambrechts D, Van Nieuwenhuysen E, Vergote I, Lambretchs S, Doherty JA, Rossing MA, Nickels S, Eilber U, Wang-Gohrke S, Odunsi K, Sucheston-Campbell LE, Friel G, Lurie G, Killeen JL, Wilkens LR, Goodman MT, Runnebaum I, Hillemanns PA, Pelttari LM, Butzow R, Modugno F, Edwards RP, Ness RB, Moysich KB, du Bois A, Heitz F, Harter P, Kommoss S, Karlan BY, Walsh C, Lester J, Jensen A, Kjaer SK, Høgdall E, Peissel B, Bonanni B, Bernard L, Goode EL, Fridley BL, Vierkant RA, Cunningham JM, Larson MC, Fogarty ZC, Kalli KR, Liang D, Lu KH, Hildebrandt MA, Wu X, Levine DA, Dao F, Bisogna M, Berchuck A, Iversen ES, Marks JR, Akushevich L, Cramer DW, Schildkraut J, Terry KL, Poole EM, Stampfer M, Tworoger SS, Bandera EV, Orlow I, Olson SH, Bjorge L, Salvesen HB, van Altena AM, Aben KK, Kiemeney LA, Massuger LF, Pejovic T, Bean Y, Brooks-Wilson A, Kelemen LE, Cook LS, Le ND, Górski B, Gronwald J, Menkiszak J, Høgdall CK, Lundvall L, Nedergaard L, Engelholm SA, Dicks E, Tyrer J, Campbell I, McNeish I, Paul J, Siddiqui N, Glasspool R, Whittemore AS, Rothstein JH, McGuire V, Sieh W, Cai H, Shu XO, Teten RT, Sutphen R, McLaughlin JR, Narod SA, Phelan CM, Monteiro AN, Fenstermacher D, Lin HY, Permuth JB, Sellers TA, Chen YA, Tsai YY, Chen Z, Gentry-Maharaj A, Gayther SA, Ramus SJ, Menon U, Wu AH, Pearce CL, Van Den Berg D, Pike MC, Dansonka-Mieszkowska A, Plisiecka-Halasa J, Moes-Sosnowska J, Kupryjanczyk J, Pharoah PD, Song H, Winship I, Chenevix-Trench G, Giles GG, Tavtigian SV, Easton DF, and Milne RL

Subjects

Breast Neoplasms epidemiology, Breast Neoplasms genetics, Case-Control Studies, Fanconi Anemia Complementation Group N Protein, Female, Genetic Association Studies, Humans, Male, Ovarian Neoplasms epidemiology, Ovarian Neoplasms genetics, Ovarian Neoplasms metabolism, Prostatic Neoplasms epidemiology, Prostatic Neoplasms genetics, Risk, Ataxia Telangiectasia Mutated Proteins genetics, Breast Neoplasms metabolism, Checkpoint Kinase 2 genetics, Genetic Predisposition to Disease, Mutation, Nuclear Proteins genetics, Prostatic Neoplasms metabolism, Tumor Suppressor Proteins genetics

Abstract

Background: The 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., Methods: We 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., Results: For 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., Conclusions: This 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., Competing Interests: Conflicts of Interest: None declared., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/.)

Published

2016

43. No clinical utility of KRAS variant rs61764370 for ovarian or breast cancer.

Author

Hollestelle A, van der Baan FH, Berchuck A, Johnatty SE, Aben KK, Agnarsson BA, Aittomäki K, Alducci E, Andrulis IL, Anton-Culver H, Antonenkova NN, Antoniou AC, Apicella C, Arndt V, Arnold N, Arun BK, Arver B, Ashworth A, Baglietto L, Balleine R, Bandera EV, Barrowdale D, Bean YT, Beckmann L, Beckmann MW, Benitez J, Berger A, Berger R, Beuselinck B, Bisogna M, Bjorge L, Blomqvist C, Bogdanova NV, Bojesen A, Bojesen SE, Bolla MK, Bonanni B, Brand JS, Brauch H, Brenner H, Brinton L, Brooks-Wilson A, Bruinsma F, Brunet J, Brüning T, Budzilowska A, Bunker CH, Burwinkel B, Butzow R, Buys SS, Caligo MA, Campbell I, Carter J, Chang-Claude J, Chanock SJ, Claes KBM, Collée JM, Cook LS, Couch FJ, Cox A, Cramer D, Cross SS, Cunningham JM, Cybulski C, Czene K, Damiola F, Dansonka-Mieszkowska A, Darabi H, de la Hoya M, deFazio A, Dennis J, Devilee P, Dicks EM, Diez O, Doherty JA, Domchek SM, Dorfling CM, Dörk T, Silva IDS, du Bois A, Dumont M, Dunning AM, Duran M, Easton DF, Eccles D, Edwards RP, Ehrencrona H, Ejlertsen B, Ekici AB, Ellis SD, Engel C, Eriksson M, Fasching PA, Feliubadalo L, Figueroa J, Flesch-Janys D, Fletcher O, Fontaine A, Fortuzzi S, Fostira F, Fridley BL, Friebel T, Friedman E, Friel G, Frost D, Garber J, García-Closas M, Gayther SA, Gentry-Maharaj A, Gerdes AM, Giles GG, Glasspool R, Glendon G, Godwin AK, Goodman MT, Gore M, Greene MH, Grip M, Gronwald J, Gschwantler Kaulich D, Guénel P, Guzman SR, Haeberle L, Haiman CA, Hall P, Halverson SL, Hamann U, Hansen TVO, Harter P, Hartikainen JM, Healey S, Hein A, Heitz F, Henderson BE, Herzog J, T Hildebrandt MA, Høgdall CK, Høgdall E, Hogervorst FBL, Hopper JL, Humphreys K, Huzarski T, Imyanitov EN, Isaacs C, Jakubowska A, Janavicius R, Jaworska K, Jensen A, Jensen UB, Johnson N, Jukkola-Vuorinen A, Kabisch M, Karlan BY, Kataja V, Kauff N, Kelemen LE, Kerin MJ, Kiemeney LA, Kjaer SK, Knight JA, Knol-Bout JP, Konstantopoulou I, Kosma VM, Krakstad C, Kristensen V, Kuchenbaecker KB, Kupryjanczyk J, Laitman Y, Lambrechts D, Lambrechts S, Larson MC, Lasa A, Laurent-Puig P, Lazaro C, Le ND, Le Marchand L, Leminen A, Lester J, Levine DA, Li J, Liang D, Lindblom A, Lindor N, Lissowska J, Long J, Lu KH, Lubinski J, Lundvall L, Lurie G, Mai PL, Mannermaa A, Margolin S, Mariette F, Marme F, Martens JWM, Massuger LFAG, Maugard C, Mazoyer S, McGuffog L, McGuire V, McLean C, McNeish I, Meindl A, Menegaux F, Menéndez P, Menkiszak J, Menon U, Mensenkamp AR, Miller N, Milne RL, Modugno F, Montagna M, Moysich KB, Müller H, Mulligan AM, Muranen TA, Narod SA, Nathanson KL, Ness RB, Neuhausen SL, Nevanlinna H, Neven P, Nielsen FC, Nielsen SF, Nordestgaard BG, Nussbaum RL, Odunsi K, Offit K, Olah E, Olopade OI, Olson JE, Olson SH, Oosterwijk JC, Orlow I, Orr N, Orsulic S, Osorio A, Ottini L, Paul J, Pearce CL, Pedersen IS, Peissel B, Pejovic T, Pelttari LM, Perkins J, Permuth-Wey J, Peterlongo P, Peto J, Phelan CM, Phillips KA, Piedmonte M, Pike MC, Platte R, Plisiecka-Halasa J, Poole EM, Poppe B, Pylkäs K, Radice P, Ramus SJ, Rebbeck TR, Reed MWR, Rennert G, Risch HA, Robson M, Rodriguez GC, Romero A, Rossing MA, Rothstein JH, Rudolph A, Runnebaum I, Salani R, Salvesen HB, Sawyer EJ, Schildkraut JM, Schmidt MK, Schmutzler RK, Schneeweiss A, Schoemaker MJ, Schrauder MG, Schumacher F, Schwaab I, Scuvera G, Sellers TA, Severi G, Seynaeve CM, Shah M, Shrubsole M, Siddiqui N, Sieh W, Simard J, Singer CF, Sinilnikova OM, Smeets D, Sohn C, Soller M, Song H, Soucy P, Southey MC, Stegmaier C, Stoppa-Lyonnet D, Sucheston L, Swerdlow A, Tangen IL, Tea MK, Teixeira MR, Terry KL, Terry MB, Thomassen M, Thompson PJ, Tihomirova L, Tischkowitz M, Toland AE, Tollenaar RAEM, Tomlinson I, Torres D, Truong T, Tsimiklis H, Tung N, Tworoger SS, Tyrer JP, Vachon CM, Van 't Veer LJ, van Altena AM, Van Asperen CJ, van den Berg D, van den Ouweland AMW, van Doorn HC, Van Nieuwenhuysen E, van Rensburg EJ, Vergote I, Verhoef S, Vierkant RA, Vijai J, Vitonis AF, von Wachenfeldt A, Walsh C, Wang Q, Wang-Gohrke S, Wappenschmidt B, Weischer M, Weitzel JN, Weltens C, Wentzensen N, Whittemore AS, Wilkens LR, Winqvist R, Wu AH, Wu X, Yang HP, Zaffaroni D, Pilar Zamora M, Zheng W, Ziogas A, Chenevix-Trench G, Pharoah PDP, Rookus MA, Hooning MJ, and Goode EL

Subjects

Carcinoma, Ovarian Epithelial, Female, Humans, Breast Neoplasms enzymology, Breast Neoplasms genetics, Neoplasms, Glandular and Epithelial enzymology, Neoplasms, Glandular and Epithelial genetics, Ovarian Neoplasms enzymology, Ovarian Neoplasms genetics, Proto-Oncogene Proteins p21(ras) genetics

Abstract

Objective: Clinical genetic testing is commercially available for rs61764370, an inherited variant residing in a KRAS 3' UTR microRNA binding site, based on suggested associations with increased ovarian and breast cancer risk as well as with survival time. However, prior studies, emphasizing particular subgroups, were relatively small. Therefore, we comprehensively evaluated ovarian and breast cancer risks as well as clinical outcome associated with rs61764370., Methods: Centralized genotyping and analysis were performed for 140,012 women enrolled in the Ovarian Cancer Association Consortium (15,357 ovarian cancer patients; 30,816 controls), the Breast Cancer Association Consortium (33,530 breast cancer patients; 37,640 controls), and the Consortium of Modifiers of BRCA1 and BRCA2 (14,765 BRCA1 and 7904 BRCA2 mutation carriers)., Results: We found no association with risk of ovarian cancer (OR=0.99, 95% CI 0.94-1.04, p=0.74) or breast cancer (OR=0.98, 95% CI 0.94-1.01, p=0.19) and results were consistent among mutation carriers (BRCA1, ovarian cancer HR=1.09, 95% CI 0.97-1.23, p=0.14, breast cancer HR=1.04, 95% CI 0.97-1.12, p=0.27; BRCA2, ovarian cancer HR=0.89, 95% CI 0.71-1.13, p=0.34, breast cancer HR=1.06, 95% CI 0.94-1.19, p=0.35). Null results were also obtained for associations with overall survival following ovarian cancer (HR=0.94, 95% CI 0.83-1.07, p=0.38), breast cancer (HR=0.96, 95% CI 0.87-1.06, p=0.38), and all other previously-reported associations., Conclusions: rs61764370 is not associated with risk of ovarian or breast cancer nor with clinical outcome for patients with these cancers. Therefore, genotyping this variant has no clinical utility related to the prediction or management of these cancers., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

44. Risk Analysis of Prostate Cancer in PRACTICAL, a Multinational Consortium, Using 25 Known Prostate Cancer Susceptibility Loci.

Author

Amin Al Olama A, Benlloch S, Antoniou AC, Giles GG, Severi G, Neal DE, Hamdy FC, Donovan JL, Muir K, Schleutker J, Henderson BE, Haiman CA, Schumacher FR, Pashayan N, Pharoah PD, Ostrander EA, Stanford JL, Batra J, Clements JA, Chambers SK, Weischer M, Nordestgaard BG, Ingles SA, Sorensen KD, Orntoft TF, Park JY, Cybulski C, Maier C, Doerk T, Dickinson JL, Cannon-Albright L, Brenner H, Rebbeck TR, Zeigler-Johnson C, Habuchi T, Thibodeau SN, Cooney KA, Chappuis PO, Hutter P, Kaneva RP, Foulkes WD, Zeegers MP, Lu YJ, Zhang HW, Stephenson R, Cox A, Southey MC, Spurdle AB, FitzGerald L, Leongamornlert D, Saunders E, Tymrakiewicz M, Guy M, Dadaev T, Little SJ, Govindasami K, Sawyer E, Wilkinson R, Herkommer K, Hopper JL, Lophatonanon A, Rinckleb AE, Kote-Jarai Z, Eeles RA, and Easton DF

Subjects

Adult, Aged, Aged, 80 and over, Alleles, Genetic Variation, Genotype, Humans, Male, Middle Aged, Odds Ratio, Risk Factors, Genetic Predisposition to Disease, Genome-Wide Association Study, Prostatic Neoplasms genetics, Risk Assessment

Abstract

Background: Genome-wide association studies have identified multiple genetic variants associated with prostate cancer risk which explain a substantial proportion of familial relative risk. These variants can be used to stratify individuals by their risk of prostate cancer., Methods: We genotyped 25 prostate cancer susceptibility loci in 40,414 individuals and derived a polygenic risk score (PRS). We estimated empirical odds ratios (OR) for prostate cancer associated with different risk strata defined by PRS and derived age-specific absolute risks of developing prostate cancer by PRS stratum and family history., Results: The prostate cancer risk for men in the top 1% of the PRS distribution was 30.6 (95% CI, 16.4-57.3) fold compared with men in the bottom 1%, and 4.2 (95% CI, 3.2-5.5) fold compared with the median risk. The absolute risk of prostate cancer by age of 85 years was 65.8% for a man with family history in the top 1% of the PRS distribution, compared with 3.7% for a man in the bottom 1%. The PRS was only weakly correlated with serum PSA level (correlation = 0.09)., Conclusions: Risk profiling can identify men at substantially increased or reduced risk of prostate cancer. The effect size, measured by OR per unit PRS, was higher in men at younger ages and in men with family history of prostate cancer. Incorporating additional newly identified loci into a PRS should improve the predictive value of risk profiles., Impact: We demonstrate that the risk profiling based on SNPs can identify men at substantially increased or reduced risk that could have useful implications for targeted prevention and screening programs., (©2015 American Association for Cancer Research.)

Published

2015

45. High tobacco consumption is causally associated with increased all-cause mortality in a general population sample of 55,568 individuals, but not with short telomeres: a Mendelian randomization study.

Author

Rode L, Bojesen SE, Weischer M, and Nordestgaard BG

Subjects

Denmark epidemiology, Female, Follow-Up Studies, Genotype, Humans, Incidence, Male, Multivariate Analysis, Polymorphism, Genetic, Risk Factors, Smoking mortality, Tobacco Use Disorder mortality, Mendelian Randomization Analysis, Mortality, Smoking genetics, Telomere genetics, Tobacco Use Disorder genetics

Abstract

Background: High cumulative tobacco consumption is associated with short telomeres and with increased all-cause mortality. We tested the hypothesis that high tobacco consumption is causally associated with short telomeres and with increased all-cause mortality., Methods: We studied 55,568 individuals including 32,823 ever smokers from the Danish general population, of whom 3430 died during 10 years of follow-up. All had telomere length measured, detailed information on smoking history, and CHRNA3 rs1051730 genotype, which is associated with tobacco consumption, determined. In a Mendelian randomization study, we conducted observational, genetic, and mediation analyses., Results: First, tobacco consumption was 21.1 pack-years in non-carriers, 22.8 in heterozygotes and 24.8 in homozygotes (P-trend<0.001). Second, the observational multivariable adjusted hazard ratio for all-cause mortality was 1.12 [95% confidence interval (CI): 1.09, 1.15] per doubling in tobacco consumption. In Mendelian randomization analysis, the hazard ratio was 1.08 (1.02, 1.14) per minor CHRNA3 allele in ever smokers. Third, in observational analysis telomeres shortened with -13 base pairs (-18, -8) per doubling in tobacco consumption. In Mendelian randomization analysis, the estimate was +3 base pairs (-10, +15) per minor CHRNA3 allele. Finally, individuals with the shortest vs longest telomeres had a multivariable adjusted hazard ratio of 1.30 (1.13, 1.50) for all-cause mortality; however, in mediation analysis short telomeres explained only +0.4% (-3.5%, +4.3%) of the association between high tobacco consumption and increased all-cause mortality., Conclusions: High tobacco consumption is causally associated with increased all-cause mortality. High cumulative tobacco consumption is associated with short telomeres observationally, but there is no clear genetic association., (© The Author 2014; all rights reserved. Published by Oxford University Press on behalf of the International Epidemiological Association.)

Published

2014

46. A meta-analysis of 87,040 individuals identifies 23 new susceptibility loci for prostate cancer.

Author

Al Olama AA, Kote-Jarai Z, Berndt SI, Conti DV, Schumacher F, Han Y, Benlloch S, Hazelett DJ, Wang Z, Saunders E, Leongamornlert D, Lindstrom S, Jugurnauth-Little S, Dadaev T, Tymrakiewicz M, Stram DO, Rand K, Wan P, Stram A, Sheng X, Pooler LC, Park K, Xia L, Tyrer J, Kolonel LN, Le Marchand L, Hoover RN, Machiela MJ, Yeager M, Burdette L, Chung CC, Hutchinson A, Yu K, Goh C, Ahmed M, Govindasami K, Guy M, Tammela TL, Auvinen A, Wahlfors T, Schleutker J, Visakorpi T, Leinonen KA, Xu J, Aly M, Donovan J, Travis RC, Key TJ, Siddiq A, Canzian F, Khaw KT, Takahashi A, Kubo M, Pharoah P, Pashayan N, Weischer M, Nordestgaard BG, Nielsen SF, Klarskov P, Røder MA, Iversen P, Thibodeau SN, McDonnell SK, Schaid DJ, Stanford JL, Kolb S, Holt S, Knudsen B, Coll AH, Gapstur SM, Diver WR, Stevens VL, Maier C, Luedeke M, Herkommer K, Rinckleb AE, Strom SS, Pettaway C, Yeboah ED, Tettey Y, Biritwum RB, Adjei AA, Tay E, Truelove A, Niwa S, Chokkalingam AP, Cannon-Albright L, Cybulski C, Wokołorczyk D, Kluźniak W, Park J, Sellers T, Lin HY, Isaacs WB, Partin AW, Brenner H, Dieffenbach AK, Stegmaier C, Chen C, Giovannucci EL, Ma J, Stampfer M, Penney KL, Mucci L, John EM, Ingles SA, Kittles RA, Murphy AB, Pandha H, Michael A, Kierzek AM, Blot W, Signorello LB, Zheng W, Albanes D, Virtamo J, Weinstein S, Nemesure B, Carpten J, Leske C, Wu SY, Hennis A, Kibel AS, Rybicki BA, Neslund-Dudas C, Hsing AW, Chu L, Goodman PJ, Klein EA, Zheng SL, Batra J, Clements J, Spurdle A, Teixeira MR, Paulo P, Maia S, Slavov C, Kaneva R, Mitev V, Witte JS, Casey G, Gillanders EM, Seminara D, Riboli E, Hamdy FC, Coetzee GA, Li Q, Freedman ML, Hunter DJ, Muir K, Gronberg H, Neal DE, Southey M, Giles GG, Severi G, Cook MB, Nakagawa H, Wiklund F, Kraft P, Chanock SJ, Henderson BE, Easton DF, Eeles RA, and Haiman CA

Subjects

Genome-Wide Association Study, Genotype, Humans, Male, Risk Assessment, Risk Factors, Genetic Loci genetics, Genetic Predisposition to Disease genetics, Polymorphism, Single Nucleotide, Prostatic Neoplasms genetics

Abstract

Genome-wide association studies (GWAS) have identified 76 variants associated with prostate cancer risk predominantly in populations of European ancestry. To identify additional susceptibility loci for this common cancer, we conducted a meta-analysis of > 10 million SNPs in 43,303 prostate cancer cases and 43,737 controls from studies in populations of European, African, Japanese and Latino ancestry. Twenty-three new susceptibility loci were identified at association P < 5 × 10(-8); 15 variants were identified among men of European ancestry, 7 were identified in multi-ancestry analyses and 1 was associated with early-onset prostate cancer. These 23 variants, in combination with known prostate cancer risk variants, explain 33% of the familial risk for this disease in European-ancestry populations. These findings provide new regions for investigation into the pathogenesis of prostate cancer and demonstrate the usefulness of combining ancestrally diverse populations to discover risk loci for disease.

Published

2014

47. Increased body mass index, elevated C-reactive protein, and short telomere length.

Author

Rode L, Nordestgaard BG, Weischer M, and Bojesen SE

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Inflammation genetics, Inflammation immunology, Male, Middle Aged, Multivariate Analysis, Obesity genetics, Obesity immunology, Polymorphism, Genetic, Telomere genetics, Telomere immunology, Young Adult, Body Mass Index, C-Reactive Protein metabolism, Inflammation metabolism, Obesity metabolism, Telomere metabolism

Abstract

Context: Obesity is associated with short telomere length. The cause of this association is unknown., Objective: We hypothesized that genetically increased body mass index (BMI) is associated with telomere length shortening and that low-grade inflammation might contribute through elevated C-reactive protein., Setting and Design: We studied 45,069 individuals from the Copenhagen General Population Study with measurements of leukocyte telomere length, BMI, and C-reactive protein in a Mendelian randomization study. Using the three obesity-associated polymorphisms FTO rs9939609, MC4R rs17782313, and TMEM18 rs6548238, and the CRP promoter polymorphism rs3091244 in instrumental variable analyses, we estimated the associations between genetically increased BMI and telomere length and between genetically increased C-reactive protein and telomere length., Results: In multivariable-adjusted observational analyses, telomere length decreased with seven base pairs (95% confidence interval, -9--5) per unit increase in BMI, and further adjustment for C-reactive protein attenuated this association to -5 base pairs (-8--3). In accordance, instrumental variable analysis showed a non-significant telomere length shortening of six base pairs (-37-25) per unit increase in genetically determined BMI. Furthermore, in observational analyses, telomere length decreased with nine base pairs (-16--2) for a doubling in C-reactive protein, supported by the instrumental variable analyses showing a corresponding genetically determined decrease of 66 base pairs (-124--7)., Conclusions: High BMI is associated with short telomere length observationally. This might possibly be mediated through elevated C-reactive protein, given that genetically elevated C-reactive protein levels are associated with short telomere length.

Published

2014

48. Telomere shortening unrelated to smoking, body weight, physical activity, and alcohol intake: 4,576 general population individuals with repeat measurements 10 years apart.

Author

Weischer M, Bojesen SE, and Nordestgaard BG

Subjects

Adult, Body Mass Index, Female, Genetics, Population, Humans, Leukocytes cytology, Male, Middle Aged, Risk Factors, Telomere genetics, Alcohol Drinking genetics, Body Weight genetics, Motor Activity genetics, Smoking genetics, Telomere Shortening genetics

Abstract

Cross-sectional studies have associated short telomere length with smoking, body weight, physical activity, and possibly alcohol intake; however, whether these associations are due to confounding is unknown. We tested these hypotheses in 4,576 individuals from the general population cross-sectionally, and with repeat measurement of relative telomere length 10 years apart. We also tested whether change in telomere length is associated with mortality and morbidity in the general population. Relative telomere length was measured with quantitative polymerase chain reaction. Cross-sectionally at the first examination, short telomere length was associated with increased age (P for trend across quartiles = 3 × 10(-77)), current smoking (P = 8 × 10(-3)), increased body mass index (P = 7 × 10(-14)), physical inactivity (P = 4 × 10(-17)), but not with increased alcohol intake (P = 0.10). At the second examination 10 years later, 56% of participants had lost and 44% gained telomere length with a mean loss of 193 basepairs. Change in leukocyte telomere length during 10 years was associated inversely with baseline telomere length (P<1 × 10(-300)) and age at baseline (P = 1 × 10(-27)), but not with baseline or 10-year inter-observational tobacco consumption, body weight, physical activity, or alcohol intake. Prospectively during a further 10 years follow-up after the second examination, quartiles of telomere length change did not associate with risk of all-cause mortality, cancer, chronic obstructive pulmonary disease, diabetes mellitus, ischemic cerebrovascular disease, or ischemic heart disease. In conclusion, smoking, increased body weight, and physical inactivity were associated with short telomere length cross-sectionally, but not with telomere length change during 10 years observation, and alcohol intake was associated with neither. Also, change in telomere length did not associate prospectively with mortality or morbidity in the general population.

Published

2014

49. Fine-mapping the HOXB region detects common variants tagging a rare coding allele: evidence for synthetic association in prostate cancer.

Author

Saunders EJ, Dadaev T, Leongamornlert DA, Jugurnauth-Little S, Tymrakiewicz M, Wiklund F, Al Olama AA, Benlloch S, Neal DE, Hamdy FC, Donovan JL, Giles GG, Severi G, Gronberg H, Aly M, Haiman CA, Schumacher F, Henderson BE, Lindstrom S, Kraft P, Hunter DJ, Gapstur S, Chanock S, Berndt SI, Albanes D, Andriole G, Schleutker J, Weischer M, Nordestgaard BG, Canzian F, Campa D, Riboli E, Key TJ, Travis RC, Ingles SA, John EM, Hayes RB, Pharoah P, Khaw KT, Stanford JL, Ostrander EA, Signorello LB, Thibodeau SN, Schaid D, Maier C, Kibel AS, Cybulski C, Cannon-Albright L, Brenner H, Park JY, Kaneva R, Batra J, Clements JA, Teixeira MR, Xu J, Mikropoulos C, Goh C, Govindasami K, Guy M, Wilkinson RA, Sawyer EJ, Morgan A, Easton DF, Muir K, Eeles RA, and Kote-Jarai Z

Subjects

Alleles, Chromosomes, Human, Pair 17 genetics, Genome-Wide Association Study, Genotype, Humans, Male, Polymorphism, Single Nucleotide, Prostatic Neoplasms pathology, Risk Factors, Genetic Predisposition to Disease, Genetic Variation, Homeodomain Proteins genetics, Prostatic Neoplasms genetics

Abstract

The HOXB13 gene has been implicated in prostate cancer (PrCa) susceptibility. We performed a high resolution fine-mapping analysis to comprehensively evaluate the association between common genetic variation across the HOXB genetic locus at 17q21 and PrCa risk. This involved genotyping 700 SNPs using a custom Illumina iSelect array (iCOGS) followed by imputation of 3195 SNPs in 20,440 PrCa cases and 21,469 controls in The PRACTICAL consortium. We identified a cluster of highly correlated common variants situated within or closely upstream of HOXB13 that were significantly associated with PrCa risk, described by rs117576373 (OR 1.30, P = 2.62×10(-14)). Additional genotyping, conditional regression and haplotype analyses indicated that the newly identified common variants tag a rare, partially correlated coding variant in the HOXB13 gene (G84E, rs138213197), which has been identified recently as a moderate penetrance PrCa susceptibility allele. The potential for GWAS associations detected through common SNPs to be driven by rare causal variants with higher relative risks has long been proposed; however, to our knowledge this is the first experimental evidence for this phenomenon of synthetic association contributing to cancer susceptibility.

Published

2014

50. CHEK2 (∗) 1100delC Mutation and Risk of Prostate Cancer.

Author

Hale V, Weischer M, and Park JY

Abstract

Although the causes of prostate cancer are largely unknown, previous studies support the role of genetic factors in the development of prostate cancer. CHEK2 plays a critical role in DNA replication by responding to double-stranded breaks. In this review, we provide an overview of the current knowledge of the role of a genetic variant, 1100delC, of CHEK2 on prostate cancer risk and discuss the implication for potential translation of this knowledge into clinical practice. Currently, twelve articles that discussed CHEK2 (∗)1100delC and its association with prostate cancer were identified. Of the twelve prostate cancer studies, five studies had independent data to draw conclusive evidence from. The pooled results of OR and 95% CI were 1.98 (1.23-3.18) for unselected cases and 3.39 (1.78-6.47) for familial cases, indicating that CHEK2 (∗)1100delC mutation is associated with increased risk of prostate cancer. Screening for CHEK2(∗)1100delC should be considered in men with a familial history of prostate cancer.

Published

2014