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Type: Journal Article × Author: Giles, Graham × Start date: 2010 × End date: 2019 ×

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    Germline variants in IL4, MGMT and AKT1 are associated with prostate cancer-specific mortality: An analysis of 12,082 prostate cancer cases
    FitzGerald, LM ; Zhao, S ; Leonardson, A ; Geybels, MS ; Kolb, S ; Lin, DW ; Wright, JL ; Eeles, R ; Kote-Jarai, Z ; Govindasami, K ; Giles, GG ; Southey, MC ; Schleutker, J ; Tammela, TL ; Sipeky, C ; Penney, KL ; Stampfer, MJ ; Gronberg, H ; Wiklund, F ; Stattin, P ; Hugosson, J ; Karyadi, DM ; Ostrander, EA ; Feng, Z ; Stanford, JL (NATURE PUBLISHING GROUP, 2018-06)
    BACKGROUND: Prostate cancer (PCa) is a leading cause of mortality and genetic factors can influence tumour aggressiveness. Several germline variants have been associated with PCa-specific mortality (PCSM), but further replication evidence is needed. METHODS: Twenty-two previously identified PCSM-associated genetic variants were genotyped in seven PCa cohorts (12,082 patients; 1544 PCa deaths). For each cohort, Cox proportional hazards models were used to calculate hazard ratios and 95% confidence intervals for risk of PCSM associated with each variant. Data were then combined using a meta-analysis approach. RESULTS: Fifteen SNPs were associated with PCSM in at least one of the seven cohorts. In the meta-analysis, after adjustment for clinicopathological factors, variants in the MGMT (rs2308327; HR 0.90; p-value = 3.5 × 10-2) and IL4 (rs2070874; HR 1.22; p-value = 1.1 × 10-3) genes were confirmed to be associated with risk of PCSM. In analyses limited to men diagnosed with local or regional stage disease, a variant in AKT1, rs2494750, was also confirmed to be associated with PCSM risk (HR 0.81; p-value = 3.6 × 10-2). CONCLUSIONS: This meta-analysis confirms the association of three genetic variants with risk of PCSM, providing further evidence that genetic background plays a role in PCa-specific survival. While these variants alone are not sufficient as prognostic biomarkers, these results may provide insights into the biological pathways modulating tumour aggressiveness.
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    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 ; Grönberg, 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 (Springer Science and Business Media LLC, 2018-03-20)
    This corrects the article DOI: 10.1038/bjc.2016.50.
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    Height, selected genetic markers and prostate cancer risk: results from the PRACTICAL consortium.
    Lophatananon, A ; Stewart-Brown, S ; Kote-Jarai, Z ; Al Olama, AA ; 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 (Springer Science and Business Media LLC, 2018-03-20)
    This corrects the article DOI: 10.1038/bjc.2017.231.
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    Methylation alteration of SHANK1 as a predictive, diagnostic and prognostic biomarker for chronic lymphocytic leukemia.
    Loi, E ; Moi, L ; Fadda, A ; Satta, G ; Zucca, M ; Sanna, S ; Amini Nia, S ; Cabras, G ; Padoan, M ; Magnani, C ; Miligi, L ; Piro, S ; Gentilini, D ; Ennas, MG ; Southey, MC ; Giles, GG ; Wong Doo, N ; Cocco, P ; Zavattari, P (Impact Journals, LLC, 2019-08-13)
    Chronic lymphocytic leukemia (CLL) is a clinically heterogeneous disease characterized by the clonal expansion of malignant B cells. To predict the clinical course of the disease, the identification of diagnostic biomarkers is urgently needed. Aberrant methylation patterns may predict CLL development and its course, being very early changes during carcinogenesis. Our aim was to identify CLL specific methylation patterns and to evaluate whether methylation aberrations in selected genes are associated with changes in gene expression. Here, by performing a genome-wide methylation analysis, we identified several CLL-specific methylation alterations. We focused on the most altered one, at a CpG island located in the body of SHANK1 gene, in our CLL cases compared to healthy controls. This methylation alteration was successfully validated in a larger cohort including 139 CLL and 20 control in silico samples. We also found a positive correlation between SHANK1 methylation level and absolute lymphocyte count, in particular CD19+ B cells, in CLL patients. Moreover, we were able to detect gains of methylation at SHANK1 in blood samples collected years prior to diagnosis. Overall, our results suggest methylation alteration at this SHANK1 CpG island as a biomarker for risk and diagnosis of CLL, and also in the personalized quantification of tumor aggressiveness.
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    Identification of multiple risk loci and regulatory mechanisms influencing susceptibility to multiple myeloma (vol 9, 3707, 2018)
    Went, M ; Sud, A ; Foersti, A ; Halvarsson, B-M ; Weinhold, N ; Kimber, S ; van Duin, M ; Thorleifsson, G ; Holroyd, A ; Johnson, DC ; Li, N ; Orlando, G ; Law, PJ ; Ali, M ; Chen, B ; Mitchell, JS ; Gudbjartsson, DF ; Kuiper, R ; Stephens, OW ; Bertsch, U ; Broderick, P ; Campo, C ; Bandapalli, OR ; Einsele, H ; Gregory, WA ; Gullberg, U ; Hillengass, J ; Hoffmann, P ; Jackson, GH ; Joeckel, K-H ; Johnsson, E ; Kristinsson, SY ; Mellqvist, U-H ; Nahi, H ; Easton, D ; Pharoah, P ; Dunning, A ; Peto, J ; Canzian, F ; Swerdlow, A ; Eeles, RA ; Kote-Jarai, Z ; Muir, K ; Pashayan, N ; Henderson, BE ; Haiman, CA ; Benlloch, S ; Schumacher, FR ; Al Olama, AA ; Berndt, SI ; Conti, DV ; Wiklund, F ; Chanock, S ; Stevens, VL ; Tangen, CM ; Batra, J ; Clements, J ; Gronberg, H ; Schleutker, J ; Albanes, D ; Weinstein, S ; Wolk, A ; West, C ; Mucci, L ; Cancel-Tassin, G ; Koutros, S ; Sorensen, KD ; Grindedal, EM ; Neal, DE ; Hamdy, FC ; Donovan, JL ; Travis, RC ; Hamilton, RJ ; Ingles, SA ; Rosenstein, B ; Lu, Y-J ; Giles, GG ; Kibel, AS ; Vega, A ; Kogevinas, M ; Penney, KL ; Park, JY ; Stanford, JL ; Cybulski, C ; Nordestgaard, BG ; Brenner, H ; Maier, C ; Kim, J ; John, EM ; 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, L ; Pandha, H ; Thibodeau, SN ; Nickel, J ; Noethen, MM ; Rafnar, T ; Ross, FM ; Filho, MIDS ; Thomsen, H ; Turesson, I ; Vangsted, A ; Andersen, NF ; Waage, A ; Walker, BA ; Wihlborg, A-K ; Broyl, A ; Davies, FE ; Thorsteinsdottir, U ; Langer, C ; Hansson, M ; Goldschmidt, H ; Kaiser, M ; Sonneveld, P ; Stefansson, K ; Morgan, GJ ; Hemminki, K ; Nilsson, B ; Houlston, RS (NATURE PUBLISHING GROUP, 2019-01-10)
    The original version of this Article contained an error in the spelling of a member of the PRACTICAL Consortium, Manuela Gago-Dominguez, which was incorrectly given as Manuela Gago Dominguez. This has now been corrected in both the PDF and HTML versions of the Article. Furthermore, in the original HTML version of this Article, the order of authors within the author list was incorrect. The PRACTICAL consortium was incorrectly listed after Richard S. Houlston and should have been listed after Nora Pashayan. This error has been corrected in the HTML version of the Article; the PDF version was correct at the time of publication.
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    Genome-wide association study identifies susceptibility loci for B-cell childhood acute lymphoblastic leukemia (vol 9, 1340, 2018)
    Vijayakrishnan, J ; Studd, J ; Broderick, P ; Kinnersley, B ; Holroyd, A ; Law, PJ ; Kumar, R ; Allan, JM ; Harrison, CJ ; Moorman, AV ; Vora, A ; Roman, E ; Rachakonda, S ; Kinsey, SE ; Sheridan, E ; Thompson, PD ; Irving, JA ; Koehler, R ; Hoffmann, P ; Noethen, MM ; Heilmann-Heimbach, S ; Joeckel, K-H ; Easton, DF ; Pharaoh, PDP ; Dunning, AM ; Peto, J ; Canzian, F ; Swerdlow, A ; Eeles, RA ; Kote-Jarai, Z ; Muir, K ; Pashayan, N ; Henderson, BE ; Haiman, CA ; Benlloch, S ; Schumacher, FR ; Al Olama, AA ; Berndt, SI ; Conti, DV ; Wiklund, F ; Chanock, S ; Stevens, VL ; Tangen, CM ; Batra, J ; Clements, J ; Gronberg, H ; Schleutker, J ; Albanes, D ; Weinstein, S ; Wolk, A ; West, C ; Mucci, L ; Cancel-Tassin, G ; Koutros, S ; Sorensen, KD ; Maehle, L ; Neal, DE ; Travis, RC ; Hamilton, RJ ; Ingles, SA ; Rosenstein, B ; Lu, Y-J ; Giles, GG ; Kibel, AS ; Vega, A ; Kogevinas, M ; Penney, KL ; Park, JY ; Stanford, JL ; Cybulski, C ; Nordestgaard, BG ; Brenner, H ; Maier, C ; Kim, J ; John, EM ; 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 ; Greaves, M ; Zimmerman, M ; Bartram, CR ; Schrappe, M ; Stanulla, M ; Hemminki, K ; Houlston, RS (NATURE PUBLISHING GROUP, 2019-01-21)
    The original version of this Article contained an error in the spelling of a member of the PRACTICAL Consortium, Manuela Gago-Dominguez, which was incorrectly given as Manuela Gago Dominguez. This has now been corrected in both the PDF and HTML versions of the Article. Furthermore, in the original HTML version of this Article, the order of authors within the author list was incorrect. The PRACTICAL consortium was incorrectly listed after Richard S. Houlston and should have been listed after Nora Pashayan. This error has been corrected in the HTML version of the Article; the PDF version was correct at the time of publication.
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    Large-scale transcriptome-wide association study identifies new prostate cancer risk regions (vol 9, 4079, 2018)
    Mancuso, N ; Gayther, S ; Gusev, A ; Zheng, W ; Penney, KL ; Kote-Jarai, Z ; Eeles, R ; Freedman, M ; Haiman, C ; Pasaniuc, B ; Henderson, BE ; Benlloch, S ; Schumacher, FR ; Al Olama, AA ; Muir, K ; Berndt, SI ; Conti, DV ; Wiklund, F ; Chanock, S ; Stevens, VL ; Tangen, CM ; Batra, J ; Clements, J ; Gronberg, H ; Pashayan, N ; Schleutker, J ; Albanes, D ; Weinstein, S ; Wolk, A ; West, C ; Mucci, L ; Cancel-Tassin, G ; Koutros, S ; Sorensen, KD ; Maehle, L ; Neal, DE ; Hamdy, FC ; Donovan, JL ; Travis, RC ; Hamilton, RJ ; Ingles, SA ; Rosenstein, B ; Lu, Y-J ; Giles, GG ; Kibel, AS ; Vega, A ; Kogevinas, M ; Park, JY ; Stanford, JL ; Cybulski, C ; Nordestgaard, BG ; Brenner, H ; Maier, C ; Kim, J ; John, EM ; 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, L ; Pandha, H ; Thibodeau, SN ; Hunter, DJ ; Kraft, P (NATURE PUBLISHING GROUP, 2019-01-08)
    The original version of this Article contained an error in the spelling of a member of the PRACTICAL Consortium, Manuela Gago-Dominguez, which was incorrectly given as Manuela Gago Dominguez. This has now been corrected in both the PDF and HTML versions of the Article. Furthermore, In the original HTML version of this Article, the order of authors within the author list was incorrect. The consortium PRACTICAL consortium was incorrectly listed after Bogdan Pasaniuc and should have been listed after Kathryn L. Penney. This error has been corrected in the HTML version of the Article; the PDF version was correct at the time of publication.
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    Genome-wide association study of classical Hodgkin lymphoma identifies key regulators of disease susceptibility (vol 8, 1892, 2017)
    Sud, A ; Thomsen, H ; Law, PJ ; Foersti, A ; Filho, MIDS ; Holroyd, A ; Broderick, P ; Orlando, G ; Lenive, O ; Wright, L ; Cooke, R ; Easton, D ; Pharoah, P ; Dunning, A ; Peto, J ; Canzian, F ; Eeles, R ; Kote-Jarai, Z ; Muir, K ; Pashayan, N ; Hoffmann, P ; Noethen, MM ; Joeckel, K-H ; von Strandmann, EP ; Lightfoot, T ; Kane, E ; Roman, E ; Lake, A ; Montgomery, D ; Jarrett, RF ; Swerdlow, AJ ; Engert, A ; Orr, N ; Hemminki, K ; Houlston, RS ; Henderson, BE ; Haiman, CA ; Benlloch, S ; Schumacher, FR ; Al Olama, AA ; Berndt, SI ; Conti, DV ; Wiklund, F ; Chanock, S ; Stevens, VL ; Tangen, CM ; Batra, J ; Clements, J ; Gronberg, H ; Schleutker, J ; Albanes, D ; Weinstein, S ; Wolk, A ; West, C ; Mucci, L ; Cancel-Tassin, G ; Koutros, S ; Sorensen, KD ; Maehle, L ; Neal, DE ; Travis, RC ; Hamilton, RJ ; Ingles, SA ; Rosenstein, B ; Lu, Y-J ; Giles, GG ; Kibel, AS ; Vega, A ; Kogevinas, M ; Penney, KL ; Park, JY ; Stanford, JL ; Cybulski, C ; Nordestgaard, BG ; Brenner, H ; Maier, C ; Kim, J ; John, EM ; 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 (NATURE PUBLISHING GROUP, 2019-01-08)
    The original version of this Article contained an error in the spelling of a member of the PRACTICAL Consortium, Manuela Gago-Dominguez, which was incorrectly given as Manuela Gago Dominguez. This has now been corrected in both the PDF and HTML versions of the Article.
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    Identification of new breast cancer predisposition genes via whole exome sequencing
    Southey, MC ; Park, DJ ; Lesueur, F ; Odefrey, F ; Nguyen-Dumont, T ; Hammet, F ; Neuhausen, SL ; John, EM ; Andrulis, IL ; Chenevix-Trench, G ; Baglietto, L ; Le Calvez-Kelm, F ; Pertesi, M ; Lonie, A ; Pope, B ; Sinilnikova, O ; Tsimiklis, H ; Giles, GG ; Hopper, JL ; Tavtigian, SV ; Goldgar, DE (Springer Science and Business Media LLC, 2012-01)
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    DNA methylation-based biological aging and cancer risk and survival: Pooled analysis of seven prospective studies
    Dugue, P-A ; Bassett, JK ; Joo, JE ; Jung, C-H ; Wong, EM ; Moreno-Betancur, M ; Schmidt, D ; Makalic, E ; Li, S ; Severi, G ; Hodge, AM ; Buchanan, DD ; English, DR ; Hopper, JL ; Southey, MC ; Giles, GG ; Milne, RL (WILEY, 2018-04-15)
    The association between aging and cancer is complex. Recent studies have developed measures of biological aging based on DNA methylation and called them "age acceleration." We aimed to assess the associations of age acceleration with risk of and survival from seven common cancers. Seven case-control studies of DNA methylation and colorectal, gastric, kidney, lung, prostate and urothelial cancer and B-cell lymphoma nested in the Melbourne Collaborative Cohort Study were conducted. Cancer cases, vital status and cause of death were ascertained through linkage with cancer and death registries. Conditional logistic regression and Cox models were used to estimate odds ratios (OR) and hazard ratios (HR) and 95% confidence intervals (CI) for associations of five age acceleration measures derived from the Human Methylation 450 K Beadchip assay with cancer risk (N = 3,216 cases) and survival (N = 1,726 deaths), respectively. Epigenetic aging was associated with increased cancer risk, ranging from 4% to 9% per five-year age acceleration for the 5 measures considered. Heterogeneity by study was observed, with stronger associations for risk of kidney cancer and B-cell lymphoma. An associated increased risk of death following cancer diagnosis ranged from 2% to 6% per five-year age acceleration, with no evidence of heterogeneity by cancer site. Cancer risk and mortality were increased by 15-30% for the fourth versus first quartile of age acceleration. DNA methylation-based measures of biological aging are associated with increased cancer risk and shorter cancer survival, independently of major health risk factors.