Now showing items 1-11 of 11

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

      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; 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, Y-J; Zhang, H-W; 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, H-Y; 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, S-H; 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, K-T; 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; Eeles, RA; Profile Study; Australian Prostate Cancer BioResource (APCB); IMPACT Study; Canary PASS Investigators; Breast and Prostate Cancer Cohort Consortium (BPC3); PRACTICAL (Prostate Cancer Association Group to Investigate Cancer-Associated Alterations in the Genome) Consortium; Cancer of the Prostate in Sweden (CAPS); Prostate Cancer Genome-wide Association Study of Uncommon Susceptibility Loci (PEGASUS); Genetic Associations and Mechanisms in Oncology (GAME-ON)/Elucidating Loci Involved in Prostate Cancer Susceptibility (ELLIPSE) Consortium (2018-07)
      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 ...
    • Atlas of prostate cancer heritability in European and African-American men pinpoints tissue-specific regulation. 

      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; PRACTICAL consortium; 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; Lindström, 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 (2016-04-07)
      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 ...
    • Fine-mapping of prostate cancer susceptibility loci in a large meta-analysis identifies candidate causal variants. 

      Dadaev, T; Saunders, EJ; Newcombe, PJ; Anokian, E; Leongamornlert, DA; Brook, MN; Cieza-Borrella, C; Mijuskovic, M; Wakerell, S; Olama, AAA; Schumacher, FR; Berndt, SI; Benlloch, S; Ahmed, M; Goh, C; Sheng, X; Zhang, Z; Muir, K; Govindasami, K; Lophatananon, A; Stevens, VL; Gapstur, SM; Carter, BD; Tangen, CM; Goodman, P; Thompson, IM; Batra, J; Chambers, S; Moya, L; Clements, J; Horvath, L; Tilley, W; Risbridger, G; Gronberg, H; Aly, M; Nordström, T; Pharoah, P; Pashayan, N; Schleutker, J; Tammela, TLJ; Sipeky, C; Auvinen, A; Albanes, D; Weinstein, S; Wolk, A; Hakansson, N; West, C; Dunning, AM; Burnet, N; Mucci, L; Giovannucci, E; Andriole, G; Cussenot, O; Cancel-Tassin, G; Koutros, S; Freeman, LEB; 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, B; Kerns, S; Ostrer, H; Lu, Y-J; Zhang, H-W; 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; Fachal, L; Szulkin, R; Eklund, M; Kogevinas, M; Llorca, J; Castaño-Vinyals, G; Penney, KL; Stampfer, M; Park, JY; Sellers, TA; Lin, H-Y; Stanford, JL; Cybulski, C; Wokolorczyk, D; Lubinski, J; Ostrander, EA; Geybels, MS; Nordestgaard, BG; Nielsen, SF; Weisher, 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, S-H; Lin, DW; Newcomb, LF; Lessel, D; Gamulin, M; Kulis, T; Kaneva, R; Usmani, N; Slavov, C; Mitev, V; Parliament, M; Singhal, S; 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, K-T; Cannon-Albright, L; Pandha, H; Michael, A; Kierzek, 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; Kraft, P; PRACTICAL (Prostate Cancer Association Group to Investigate Cancer-Associated Alterations in the Genome) Consortium; Freedman, M; Wiklund, F; Chanock, S; Henderson, BE; Easton, DF; Haiman, CA; Eeles, RA; Conti, DV; Kote-Jarai, Z (2018-06-11)
      Prostate cancer is a polygenic disease with a large heritable component. A number of common, low-penetrance prostate cancer risk loci have been identified through GWAS. Here we apply the Bayesian multivariate variable ...
    • Gene and pathway level analyses of germline DNA-repair gene variants and prostate cancer susceptibility using the iCOGS-genotyping array. 

      Saunders, EJ; Dadaev, T; Leongamornlert, DA; Al Olama, AA; Benlloch, S; Giles, GG; Wiklund, F; Gronberg, H; Haiman, CA; Schleutker, J; Nordestgaard, BG; Travis, RC; Neal, D; Pasayan, N; Khaw, K-T; Stanford, JL; Blot, WJ; Thibodeau, SN; Maier, C; Kibel, AS; Cybulski, C; Cannon-Albright, L; Brenner, H; Park, JY; Kaneva, R; Batra, J; Teixeira, MR; Pandha, H; Govindasami, K; Muir, K; UK Genetic Prostate Cancer Study Collaborators; UK ProtecT Study Collaborators; PRACTICAL Consortium; Easton, DF; Eeles, RA; Kote-Jarai, Z (2016-04)
      BACKGROUND:Germline mutations within DNA-repair genes are implicated in susceptibility to multiple forms of cancer. For prostate cancer (PrCa), rare mutations in BRCA2 and BRCA1 give rise to moderately elevated risk, whereas ...
    • Germline DNA Repair Gene Mutations in Young-onset Prostate Cancer Cases in the UK: Evidence for a More Extensive Genetic Panel. 

      Leongamornlert, DA; Saunders, EJ; Wakerell, S; Whitmore, I; Dadaev, T; Cieza-Borrella, C; Benafif, S; Brook, MN; Donovan, JL; Hamdy, FC; Neal, DE; Muir, K; Govindasami, K; Conti, DV; Kote-Jarai, Z; Eeles, RA (2019-09)
      BACKGROUND:Rare germline mutations in DNA repair genes are associated with prostate cancer (PCa) predisposition and prognosis. OBJECTIVE:To quantify the frequency of germline DNA repair gene mutations in UK PCa cases and ...
    • Germline genetic variation in prostate susceptibility does not predict outcomes in the chemoprevention trials PCPT and SELECT. 

      Ahmed, M; Goh, C; Saunders, E; Cieza-Borrella, C; PRACTICAL consortium; Kote-Jarai, Z; Schumacher, FR; Eeles, R (2020-06)
      BACKGROUND:The development of prostate cancer can be influenced by genetic and environmental factors. Numerous germline SNPs influence prostate cancer susceptibility. The functional pathways in which these SNPs increase ...
    • Germline variation at 8q24 and prostate cancer risk in men of European ancestry. 

      Matejcic, M; Saunders, EJ; Dadaev, T; Brook, MN; Wang, K; Sheng, X; Olama, AAA; Schumacher, FR; Ingles, SA; Govindasami, K; Benlloch, S; Berndt, SI; Albanes, D; Koutros, S; Muir, K; Stevens, VL; Gapstur, SM; Tangen, CM; Batra, J; Clements, J; Gronberg, H; Pashayan, N; Schleutker, J; Wolk, A; West, C; Mucci, L; Kraft, P; Cancel-Tassin, G; Sorensen, KD; Maehle, L; Grindedal, EM; Strom, SS; Neal, DE; Hamdy, FC; Donovan, JL; Travis, RC; Hamilton, RJ; Rosenstein, B; Lu, Y-J; Giles, GG; Kibel, AS; Vega, A; Bensen, JT; Kogevinas, M; Penney, KL; Park, JY; Stanford, JL; Cybulski, C; Nordestgaard, BG; Brenner, H; Maier, C; Kim, J; Teixeira, MR; Neuhausen, SL; De Ruyck, K; Razack, A; Newcomb, LF; Lessel, D; Kaneva, R; Usmani, N; Claessens, F; Townsend, PA; Gago-Dominguez, M; Roobol, MJ; Menegaux, F; Khaw, K-T; Cannon-Albright, LA; Pandha, H; Thibodeau, SN; Schaid, DJ; PRACTICAL (Prostate Cancer Association Group to Investigate Cancer-Associated Alterations in the Genome) Consortium; Wiklund, F; Chanock, SJ; Easton, DF; Eeles, RA; Kote-Jarai, Z; Conti, DV; Haiman, CA (2018-11-05)
      Chromosome 8q24 is a susceptibility locus for multiple cancers, including prostate cancer. Here we combine genetic data across the 8q24 susceptibility region from 71,535 prostate cancer cases and 52,935 controls of European ...
    • Height, selected genetic markers and prostate cancer risk: results from the PRACTICAL consortium. 

      Lophatananon, A; Stewart-Brown, S; Kote-Jarai, Z; Olama, AAA; Garcia, SB; Neal, DE; Hamdy, FC; Donovan, JL; Giles, GG; Fitzgerald, LM; Southey, MC; Pharoah, P; Pashayan, N; Gronberg, H; Wiklund, F; Aly, M; Stanford, JL; Brenner, H; Dieffenbach, AK; Arndt, V; Park, JY; Lin, H-Y; Sellers, T; Slavov, C; Kaneva, R; Mitev, V; Batra, J; Spurdle, A; Clements, JA; APCB BioResource; PRACTICAL consortium; Easton, D; Eeles, RA; Muir, K (2017-08)
      BACKGROUND:Evidence on height and prostate cancer risk is mixed, however, recent studies with large data sets support a possible role for its association with the risk of aggressive prostate cancer. METHODS:We analysed ...
    • LocusExplorer: a user-friendly tool for integrated visualization of human genetic association data and biological annotations. 

      Dadaev, T; Leongamornlert, DA; Saunders, EJ; Eeles, R; Kote-Jarai, Z (2016-03)
      : In this article, we present LocusExplorer, a data visualization and exploration tool for genetic association data. LocusExplorer is written in R using the Shiny library, providing access to powerful R-based functions ...
    • The PROFILE Feasibility Study: Targeted Screening of Men With a Family History of Prostate Cancer. 

      Castro, E; Mikropoulos, C; Bancroft, EK; Dadaev, T; Goh, C; Taylor, N; Saunders, E; Borley, N; Keating, D; Page, EC; Saya, S; Hazell, S; Livni, N; deSouza, N; Neal, D; Hamdy, FC; Kumar, P; Antoniou, AC; Kote-Jarai, Z; PROFILE Study Steering Committee; Eeles, RA (2016-06)
      A better assessment of individualized prostate cancer (PrCa) risk is needed to improve screening. The use of the prostate-specific antigen (PSA) level for screening in the general population has limitations and is not ...
    • Rare germline variants in DNA repair genes and the angiogenesis pathway predispose prostate cancer patients to develop metastatic disease. 

      Mijuskovic, M; Saunders, EJ; Leongamornlert, DA; Wakerell, S; Whitmore, I; Dadaev, T; Cieza-Borrella, C; Govindasami, K; Brook, MN; Haiman, CA; Conti, DV; Eeles, RA; Kote-Jarai, Z (2018-07)
      BACKGROUND:Prostate cancer (PrCa) demonstrates a heterogeneous clinical presentation ranging from largely indolent to lethal. We sought to identify a signature of rare inherited variants that distinguishes between these ...