Sir Peter MacCallum Department of Oncology - Research Publications

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Type: Journal Article × Start date: 2010 × End date: 2019 × Author: Ramus, Susan ×

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    Going to extremes: determinants of extraordinary response and survival in patients with cancer
    Saner, FAM ; Herschtal, A ; Nelson, BH ; deFazio, A ; Goode, EL ; Ramus, SJ ; Pandey, A ; Beach, JA ; Fereday, S ; Berchuck, A ; Lheureux, S ; Pearce, CL ; Pharoah, PD ; Pike, MC ; Garsed, DW ; Bowtell, DDL (NATURE PUBLISHING GROUP, 2019-06)
    Research into factors affecting treatment response or survival in patients with cancer frequently involves cohorts that span the most common range of clinical outcomes, as such patients are most readily available for study. However, attention has turned to highly unusual patients who have exceptionally favourable or atypically poor responses to treatment and/or overall survival, with the expectation that patients at the extremes may provide insights that could ultimately improve the outcome of individuals with more typical disease trajectories. While clinicians can often recount surprising patients whose clinical journey was very unusual, given known clinical characteristics and prognostic indicators, there is a lack of consensus among researchers on how best to define exceptional patients, and little has been proposed for the optimal design of studies to identify factors that dictate unusual outcome. In this Opinion article, we review different approaches to identifying exceptional patients with cancer and possible study designs to investigate extraordinary clinical outcomes. We discuss pitfalls with finding these rare patients, including challenges associated with accrual of patients across different treatment centres and time periods. We describe recent molecular and immunological factors that have been identified as contributing to unusual patient outcome and make recommendations for future studies on these intriguing patients.
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    Mutational spectrum in a worldwide study of 29,700 families with BRCA1 or BRCA2 mutations
    Rebbeck, TR ; Friebel, TM ; Friedman, E ; Hamann, U ; Huo, D ; Kwong, A ; Olah, E ; Olopade, OI ; Solano, AR ; Teo, S-H ; Thomassen, M ; Weitzel, JN ; Chan, TL ; Couch, FJ ; Goldgar, DE ; Kruse, TA ; Palmero, EI ; Park, SK ; Torres, D ; van Rensburg, EJ ; McGuffog, L ; Parsons, MT ; Leslie, G ; Aalfs, CM ; Abugattas, J ; Adlard, J ; Agata, S ; Aittomaki, K ; Andrews, L ; Andrulis, IL ; Arason, A ; Arnold, N ; Arun, BK ; Asseryanis, E ; Auerbach, L ; Azzollini, J ; Balmana, J ; Barile, M ; Barkardottir, RB ; Barrowdale, D ; Benitez, J ; Berger, A ; Berger, R ; Blanco, AM ; Blazer, KR ; Blok, MJ ; Bonadona, V ; Bonanni, B ; Bradbury, AR ; Brewer, C ; Buecher, B ; Buys, SS ; Caldes, T ; Caliebe, A ; Caligo, MA ; Campbell, I ; Caputo, SM ; Chiquette, J ; Chung, WK ; Claes, KBM ; Collee, JM ; Cook, J ; Davidson, R ; de la Hoya, M ; De Leeneer, K ; de Pauw, A ; Delnatte, C ; Diez, O ; Ding, YC ; Ditsch, N ; Domchek, S ; Dorfling, CM ; Velazquez, C ; Dworniczak, B ; Eason, J ; Easton, DF ; Eeles, R ; Ehrencrona, H ; Ejlertsen, B ; Engel, C ; Engert, S ; Evans, DG ; Faivre, L ; Feliubadalo, L ; Ferrer, SF ; Foretova, L ; Fowler, J ; Frost, D ; Galvao, HCR ; Ganz, PA ; Garber, J ; Gauthier-Villars, M ; Gehrig, A ; Gerdes, A-M ; Gesta, P ; Giannini, G ; Giraud, S ; Glendon, G ; Godwin, AK ; Greene, MH ; Gronwald, J ; Gutierrez-Barrera, A ; Hahnen, E ; Hauke, J ; Henderson, A ; Hentschel, J ; Hogervorst, FBL ; Honisch, E ; Imyanitov, EN ; Isaacs, C ; Izatt, L ; Izquierdo, A ; Jakubowska, A ; James, P ; Janavicius, R ; Jensen, UB ; John, EM ; Vijai, J ; Kaczmarek, K ; Karlan, BY ; Kast, K ; Kim, S-W ; Konstantopoulou, I ; Korach, J ; Laitman, Y ; Lasa, A ; Lasset, C ; Lazaro, C ; Lee, A ; Lee, MH ; Lester, J ; Lesueur, F ; Liljegren, A ; Lindor, NM ; Longy, M ; Loud, JT ; Lu, KH ; Lubinski, J ; Machackova, E ; Manoukian, S ; Mari, V ; Martinez-Bouzas, C ; Matrai, Z ; Mebirouk, N ; Meijers-Heijboer, HEJ ; Meindl, A ; Mensenkamp, AR ; Mickys, U ; Miller, A ; Montagna, M ; Moysich, KB ; Mulligan, AM ; Musinsky, J ; Neuhausen, SL ; Nevanlinna, H ; Ngeow, J ; Nguyen, HP ; Niederacher, D ; Nielsen, HR ; Nielsen, FC ; Nussbaum, RL ; Offit, K ; Ofverholm, A ; Ong, K-R ; Osorio, A ; Papi, L ; Papp, J ; Pasini, B ; Pedersen, IS ; Peixoto, A ; Peruga, N ; Peterlongo, P ; Pohl, E ; Pradhan, N ; Prajzendanc, K ; Prieur, F ; Pujol, P ; Radice, P ; Ramus, SJ ; Rantala, J ; Rashid, MU ; Rhiem, K ; Robson, M ; Rodriguez, GC ; Rogers, MT ; Rudaitis, V ; Schmidt, AY ; Schmutzler, RK ; Senter, L ; Shah, PD ; Sharma, P ; Side, LE ; Simard, J ; Singer, CF ; Skytte, A-B ; Slavin, TP ; Snape, K ; Sobol, H ; Southey, M ; Steele, L ; Steinemann, D ; Sukiennicki, G ; Sutter, C ; Szabo, CI ; Tan, YY ; Teixeira, MR ; Terry, MB ; Teule, A ; Thomas, A ; Thull, DL ; Tischkowitz, M ; Tognazzo, S ; Toland, AE ; Topka, S ; Trainer, AH ; Tung, N ; van Asperen, CJ ; van der Hout, AH ; van der Kolk, LE ; van der Luijt, RB ; Van Heetvelde, M ; Varesco, L ; Varon-Mateeva, R ; Vega, A ; Villarreal-Garza, C ; von Wachenfeldt, A ; Walker, L ; Wang-Gohrke, S ; Wappenschmidt, B ; Weber, BHF ; Yannoukakos, D ; Yoon, S-Y ; Zanzottera, C ; Zidan, J ; Zorn, KK ; Selkirk, CGH ; Hulick, PJ ; Chenevix-Trench, G ; Spurdle, AB ; Antoniou, AC ; Nathanson, KL (WILEY-HINDAWI, 2018-05)
    The prevalence and spectrum of germline mutations in BRCA1 and BRCA2 have been reported in single populations, with the majority of reports focused on White in Europe and North America. The Consortium of Investigators of Modifiers of BRCA1/2 (CIMBA) has assembled data on 18,435 families with BRCA1 mutations and 11,351 families with BRCA2 mutations ascertained from 69 centers in 49 countries on six continents. This study comprehensively describes the characteristics of the 1,650 unique BRCA1 and 1,731 unique BRCA2 deleterious (disease-associated) mutations identified in the CIMBA database. We observed substantial variation in mutation type and frequency by geographical region and race/ethnicity. In addition to known founder mutations, mutations of relatively high frequency were identified in specific racial/ethnic or geographic groups that may reflect founder mutations and which could be used in targeted (panel) first pass genotyping for specific populations. Knowledge of the population-specific mutational spectrum in BRCA1 and BRCA2 could inform efficient strategies for genetic testing and may justify a more broad-based oncogenetic testing in some populations.
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    rs495139 in the TYMS-ENOSF1 Region and Risk of Ovarian Carcinoma of Mucinous Histology
    Kelemen, LE ; Earp, M ; Fridley, BL ; Chenevix-Trench, G ; Fasching, PA ; Beckmann, MW ; Ekici, AB ; Hein, A ; Lambrechts, D ; Lambrechts, S ; Van Nieuwenhuysen, E ; Vergote, I ; Rossing, MA ; Doherty, JA ; Chang-Claude, J ; Behrens, S ; Moysich, KB ; Cannioto, R ; Lele, S ; Odunsi, K ; Goodman, MT ; Shvetsov, YB ; Thompson, PJ ; Wilkens, LR ; Doerk, T ; Antonenkova, N ; Bogdanova, N ; Hillemanns, P ; Runnebaum, IB ; du Bois, A ; Harter, P ; Heitz, F ; Schwaab, I ; Butzow, R ; Pelttari, LM ; Nevanlinna, H ; Modugno, F ; Edwards, RP ; Kelley, JL ; Ness, RB ; Karlan, BY ; Lester, J ; Orsulic, S ; Walsh, C ; Kjaer, SK ; Jensen, A ; Cunningham, JM ; Vierkant, RA ; Giles, GG ; Bruinsma, F ; Southey, MC ; Hildebrandt, MAT ; Liang, D ; Lu, K ; Wu, X ; Sellers, TA ; Levine, DA ; Schildkraut, JM ; Iversen, ES ; Terry, KL ; Cramer, DW ; Tworoger, SS ; Poole, EM ; Bandera, EV ; Olson, SH ; Orlow, I ; Thomsen, LCV ; Bjorge, L ; Krakstad, C ; Tangen, IL ; Kiemeney, LA ; Aben, KKH ; Massuger, LFAG ; van Altena, AM ; Pejovic, T ; Bean, Y ; Kellar, M ; Cook, LS ; Le, ND ; Brooks-Wilson, A ; Gronwald, J ; Cybulski, C ; Jakubowska, A ; Lubinski, J ; Wentzensen, N ; Brinton, LA ; Lissowska, J ; Hogdall, E ; Engelholm, SA ; Hogdall, C ; Lundvall, L ; Nedergaard, L ; Pharoah, PDP ; Dicks, E ; Song, H ; Tyrer, JP ; McNeish, I ; Siddiqui, N ; Carty, K ; Glasspool, R ; Paul, J ; Campbell, IG ; Eccles, D ; Whittemore, AS ; McGuire, V ; Rothstein, JH ; Sieh, W ; Narod, SA ; Phelan, CM ; McLaughlin, JR ; Risch, HA ; Anton-Culver, H ; Ziogas, A ; Menon, U ; Gayther, SA ; Gentry-Maharaj, A ; Ramus, SJ ; Wu, AH ; Pearce, CL ; Lee, AW ; Pike, MC ; Kupryjanczyk, J ; Podgorska, A ; Plisiecka-Halasa, J ; Sawicki, W ; Goode, EL ; Berchuck, A (MDPI, 2018-09)
    Thymidylate synthase (TYMS) is a crucial enzyme for DNA synthesis. TYMS expression is regulated by its antisense mRNA, ENOSF1. Disrupted regulation may promote uncontrolled DNA synthesis and tumor growth. We sought to replicate our previously reported association between rs495139 in the TYMS-ENOSF1 3' gene region and increased risk of mucinous ovarian carcinoma (MOC) in an independent sample. Genotypes from 24,351 controls to 15,000 women with invasive OC, including 665 MOC, were available. We estimated per-allele odds ratios (OR) and 95% confidence intervals (CI) using unconditional logistic regression, and meta-analysis when combining these data with our previous report. The association between rs495139 and MOC was not significant in the independent sample (OR = 1.09; 95% CI = 0.97⁻1.22; p = 0.15; N = 665 cases). Meta-analysis suggested a weak association (OR = 1.13; 95% CI = 1.03⁻1.24; p = 0.01; N = 1019 cases). No significant association with risk of other OC histologic types was observed (p = 0.05 for tumor heterogeneity). In expression quantitative trait locus (eQTL) analysis, the rs495139 allele was positively associated with ENOSF1 mRNA expression in normal tissues of the gastrointestinal system, particularly esophageal mucosa (r = 0.51, p = 1.7 × 10-28), and nonsignificantly in five MOC tumors. The association results, along with inconclusive tumor eQTL findings, suggest that a true effect of rs495139 might be small.
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    Association of p16 expression with prognosis varies across ovarian carcinoma histotypes: an Ovarian Tumor Tissue Analysis consortium study
    Rambau, PF ; Vierkant, RA ; Intermaggio, MP ; Kelemen, LE ; Goodman, MT ; Herpel, E ; Pharoah, PD ; Kommoss, S ; Jimenez-Linan, M ; Karlan, BY ; Gentry-Maharaj, A ; Menon, U ; Polo, SH ; Candido dos Reis, FJ ; Doherty, JA ; Gayther, SA ; Sharma, R ; Larson, MC ; Harnett, PR ; Hatfield, E ; de Andrade, JM ; Nelson, GS ; Steed, H ; Schildkraut, JM ; Carney, ME ; Hogdall, E ; Whittemore, AS ; Widschwendter, M ; Kennedy, CJ ; Wang, F ; Wang, Q ; Wang, C ; Armasu, SM ; Daley, F ; Coulson, P ; Jones, ME ; Anglesio, MS ; Chow, C ; de Fazio, A ; Garcia-Closas, M ; Brucker, SY ; Cybulski, C ; Harris, HR ; Hartkopf, AD ; Huzarski, T ; Jensen, A ; Lubinski, J ; Oszurek, O ; Benitez, J ; Mina, F ; Staebler, A ; Taran, FA ; Pasternak, J ; Talhouk, A ; Rossing, MA ; Hendley, J ; Edwards, RP ; Fereday, S ; Modugno, F ; Ness, RB ; Sieh, W ; El-Bahrawy, MA ; Winham, SJ ; Lester, J ; Kjaer, SK ; Gronwald, J ; Sinn, P ; Fasching, PA ; Chang-Claude, J ; Moysich, KB ; Bowtell, DD ; Hernandez, BY ; Luk, H ; Behrens, S ; Shah, M ; Jung, A ; Ghatage, P ; Alsop, J ; Alsop, K ; Garcia-Donas, J ; Thompson, PJ ; Swerdlow, AJ ; Karpinskyj, C ; Cazorla-Jimenez, A ; Garcia, MJ ; Deen, S ; Wilkens, LR ; Palacios, J ; Berchuck, A ; Koziak, JM ; Brenton, JD ; Cook, LS ; Goode, EL ; Huntsman, DG ; Ramus, SJ ; Koebel, M (WILEY, 2018-10)
    We aimed to validate the prognostic association of p16 expression in ovarian high-grade serous carcinomas (HGSC) and to explore it in other ovarian carcinoma histotypes. p16 protein expression was assessed by clinical-grade immunohistochemistry in 6525 ovarian carcinomas including 4334 HGSC using tissue microarrays from 24 studies participating in the Ovarian Tumor Tissue Analysis consortium. p16 expression patterns were interpreted as abnormal (either overexpression referred to as block expression or absence) or normal (heterogeneous). CDKN2A (which encodes p16) mRNA expression was also analyzed in a subset (n = 2280) mostly representing HGSC (n = 2010). Association of p16 expression with overall survival (OS) was determined within histotypes as was CDKN2A expression for HGSC only. p16 block expression was most frequent in HGSC (56%) but neither protein nor mRNA expression was associated with OS. However, relative to heterogeneous expression, block expression was associated with shorter OS in endometriosis-associated carcinomas, clear cell [hazard ratio (HR): 2.02, 95% confidence (CI) 1.47-2.77, p < 0.001] and endometrioid (HR: 1.88, 95% CI 1.30-2.75, p = 0.004), while absence was associated with shorter OS in low-grade serous carcinomas (HR: 2.95, 95% CI 1.61-5.38, p = 0.001). Absence was most frequent in mucinous carcinoma (50%), and was not associated with OS in this histotype. The prognostic value of p16 expression is histotype-specific and pattern dependent. We provide definitive evidence against an association of p16 expression with survival in ovarian HGSC as previously suggested. Block expression of p16 in clear cell and endometrioid carcinoma should be further validated as a prognostic marker, and absence in low-grade serous carcinoma justifies CDK4 inhibition.
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    Functional Polymorphisms in the TERT Promoter Are Associated with Risk of Serous Epithelial Ovarian and Breast Cancers
    Beesley, J ; Pickett, HA ; Johnatty, SE ; Dunning, AM ; Chen, X ; Li, J ; Michailidou, K ; Lu, Y ; Rider, DN ; Palmieri, RT ; Stutz, MD ; Lambrechts, D ; Despierre, E ; Lambrechts, S ; Vergote, I ; Chang-Claude, J ; Nickels, S ; Vrieling, A ; Flesch-Janys, D ; Wang-Gohrke, S ; Eilber, U ; Bogdanova, N ; Antonenkova, N ; Runnebaum, IB ; Doerk, T ; Goodman, MT ; Lurie, G ; Wilkens, LR ; Matsuno, RK ; Kiemeney, LA ; Aben, KKH ; Marees, T ; Massuger, LFAG ; Fridley, BL ; Vierkant, RA ; Bandera, EV ; Olson, SH ; Orlow, I ; Rodriguez-Rodriguez, L ; Cook, LS ; Le, ND ; Brooks-Wilson, A ; Kelemen, LE ; Campbell, I ; Gayther, SA ; Ramus, SJ ; Gentry-Maharaj, A ; Menon, U ; Ahmed, S ; Baynes, C ; Pharoah, PD ; Muir, K ; Lophatananon, A ; Chaiwerawattana, A ; Wiangnon, S ; Macgregor, S ; Easton, DF ; Reddel, RR ; Goode, EL ; Chenevix-Trench, G ; Zhang, L (PUBLIC LIBRARY SCIENCE, 2011-09-15)
    Genetic variation at the TERT-CLPTM1L locus at 5p15.33 is associated with susceptibility to several cancers, including epithelial ovarian cancer (EOC). We have carried out fine-mapping of this region in EOC which implicates an association with a single nucleotide polymorphism (SNP) within the TERT promoter. We demonstrate that the minor alleles at rs2736109, and at an additional TERT promoter SNP, rs2736108, are associated with decreased breast cancer risk, and that the combination of both SNPs substantially reduces TERT promoter activity.
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    Identification of six new susceptibility loci for invasive epithelial ovarian cancer
    Kuchenbaecker, KB ; Ramus, SJ ; Tyrer, J ; Lee, A ; Shen, HC ; Beesley, J ; Lawrenson, K ; McGuffog, L ; Healey, S ; Lee, JM ; Spindler, TJ ; Lin, YG ; Pejovic, T ; Bean, Y ; Li, Q ; Coetzee, S ; Hazelett, D ; Miron, A ; Southey, M ; Terry, MB ; Goldgar, DE ; Buys, SS ; Janavicius, R ; Dorfling, CM ; van Rensburg, EJ ; Neuhausen, SL ; Ding, YC ; Hansen, TVO ; Jonson, L ; Gerdes, A-M ; Ejlertsen, B ; Barrowdale, D ; Dennis, J ; Benitez, J ; Osorio, A ; Garcia, MJ ; Komenaka, I ; Weitzel, JN ; Ganschow, P ; Peterlongo, P ; Bernard, L ; Viel, A ; Bonanni, B ; Peissel, B ; Manoukian, S ; Radice, P ; Papi, L ; Ottini, L ; Fostira, F ; Konstantopoulou, I ; Garber, J ; Frost, D ; Perkins, J ; Platte, R ; Ellis, S ; Godwin, AK ; Schmutzler, RK ; Meindl, A ; Engel, C ; Sutter, C ; Sinilnikova, OM ; Damiola, F ; Mazoyer, S ; Stoppa-Lyonnet, D ; Claes, K ; De Leeneer, K ; Kirk, J ; Rodriguez, GC ; Piedmonte, M ; O'Malley, DM ; de la Hoya, M ; Caldes, T ; Aittomaeki, K ; Nevanlinna, H ; Collee, JM ; Rookus, MA ; Oosterwijk, JC ; Tihomirova, L ; Tung, N ; Hamann, U ; Isaccs, C ; Tischkowitz, M ; Imyanitov, EN ; Caligo, MA ; Campbell, IG ; Hogervorst, FBL ; Olah, E ; Diez, O ; Blanco, I ; Brunet, J ; Lazaroso, C ; Angel Pujana, M ; Jakubowska, A ; Gronwald, J ; Lubinski, J ; Sukiennicki, G ; Barkardottir, RB ; Plante, M ; Simard, J ; Soucy, P ; Montagna, M ; Tognazzo, S ; Teixeira, MR ; Pankratz, VS ; Wang, X ; Lindor, N ; Szabo, CI ; Kauff, N ; Vijai, J ; Aghajanian, CA ; Pfeiler, G ; Berger, A ; Singer, CF ; Tea, M-K ; Phelan, CM ; Greene, MH ; Mai, PL ; Rennert, G ; Mulligan, AM ; Tchatchou, S ; Andrulis, IL ; Glendon, G ; Toland, AE ; Jensen, UB ; Kruse, TA ; Thomassen, M ; Bojesen, A ; Zidan, J ; Friedman, E ; Laitman, Y ; Soller, M ; Liljegren, A ; Arver, B ; Einbeigi, Z ; Stenmark-Askmalm, M ; Olopade, OI ; Nussbaum, RL ; Rebbeck, TR ; Nathanson, KL ; Domchek, SM ; Lu, KH ; Karlan, BY ; Walsh, C ; Lester, J ; Hein, A ; Ekici, AB ; Beckmann, MW ; Fasching, PA ; Lambrechts, D ; Van Nieuwenhuysen, E ; Vergote, I ; Lambrechts, S ; Dicks, E ; Doherty, JA ; Wicklund, KG ; Rossing, MA ; Rudolph, A ; Chang-Claude, J ; Wang-Gohrke, S ; Eilber, U ; Moysich, KB ; Odunsi, K ; Sucheston, L ; Lele, S ; Wilkens, LR ; Goodman, MT ; Thompson, PJ ; Shvetsov, YB ; Runnebaum, IB ; Duerst, M ; Hillemanns, P ; Doerk, T ; Antonenkova, N ; Bogdanova, N ; Leminen, A ; Pelttari, LM ; Butzow, R ; Modugno, F ; Kelley, JL ; Edwards, RP ; Ness, RB ; du Bois, A ; Heitz, F ; Schwaab, I ; Harter, P ; Matsuo, K ; Hosono, S ; Orsulic, S ; Jensen, A ; Kjaer, SK ; Hogdall, E ; Hasmad, HN ; Azmi, MAN ; Teo, S-H ; Woo, Y-L ; Fridley, BL ; Goode, EL ; Cunningham, JM ; Vierkant, RA ; Bruinsma, F ; Giles, GG ; Liang, D ; Hildebrandt, MAT ; Wu, X ; Levine, DA ; Bisogna, M ; Berchuck, A ; Iversen, ES ; Schildkraut, JM ; Concannon, P ; Weber, RP ; Cramer, DW ; Terry, KL ; Poole, EM ; Tworoger, SS ; Bandera, EV ; Orlow, I ; Olson, SH ; Krakstad, C ; Salvesen, HB ; Tangen, IL ; Bjorge, L ; van Altena, AM ; Aben, KKH ; Kiemeney, LA ; Massuger, LFAG ; Kellar, M ; Brooks-Wilson, A ; Kelemen, LE ; Cook, LS ; Le, ND ; Cybulski, C ; Yang, H ; Lissowska, J ; Brinton, LA ; Wentzensen, N ; Hogdall, C ; Lundvall, L ; Nedergaard, L ; Baker, H ; Song, H ; Eccles, D ; McNeish, I ; Paul, J ; Carty, K ; Siddiqui, N ; Glasspool, R ; Whittemore, AS ; Rothstein, JH ; McGuire, V ; Sieh, W ; Ji, B-T ; Zheng, W ; Shu, X-O ; Gao, Y-T ; Rosen, B ; Risch, HA ; McLaughlin, JR ; Narod, SA ; Monteiro, AN ; Chen, A ; Lin, H-Y ; Permuth-Wey, J ; Sellers, TA ; Tsai, Y-Y ; Chen, Z ; Ziogas, A ; Anton-Culver, H ; Gentry-Maharaj, A ; Menon, U ; Harrington, P ; Lee, AW ; Wu, AH ; Pearce, CL ; Coetzee, G ; Pike, MC ; Dansonka-Mieszkowska, A ; Timorek, A ; Rzepecka, IK ; Kupryjanczyk, J ; Freedman, M ; Noushmehr, H ; Easton, DF ; Offit, K ; Couch, FJ ; Gayther, S ; Pharoah, PP ; Antoniou, AC ; Chenevix-Trench, G (NATURE PORTFOLIO, 2015-02)
    Genome-wide association studies (GWAS) have identified 12 epithelial ovarian cancer (EOC) susceptibility alleles. The pattern of association at these loci is consistent in BRCA1 and BRCA2 mutation carriers who are at high risk of EOC. After imputation to 1000 Genomes Project data, we assessed associations of 11 million genetic variants with EOC risk from 15,437 cases unselected for family history and 30,845 controls and from 15,252 BRCA1 mutation carriers and 8,211 BRCA2 mutation carriers (3,096 with ovarian cancer), and we combined the results in a meta-analysis. This new study design yielded increased statistical power, leading to the discovery of six new EOC susceptibility loci. Variants at 1p36 (nearest gene, WNT4), 4q26 (SYNPO2), 9q34.2 (ABO) and 17q11.2 (ATAD5) were associated with EOC risk, and at 1p34.3 (RSPO1) and 6p22.1 (GPX6) variants were specifically associated with the serous EOC subtype, all with P < 5 × 10(-8). Incorporating these variants into risk assessment tools will improve clinical risk predictions for BRCA1 and BRCA2 mutation carriers.
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    COMPLEXO: identifying the missing heritability of breast cancer via next generation collaboration
    Southey, MC ; Park, DJ ; Nguyen-Dumont, T ; Campbell, I ; Thompson, E ; Trainer, AH ; Chenevix-Trench, G ; Simard, J ; Dumont, M ; Soucy, P ; Thomassen, M ; Jonson, L ; Pedersen, IS ; Hansen, TVO ; Nevanlinna, H ; Khan, S ; Sinilnikova, O ; Mazoyer, S ; Lesueur, F ; Damiola, F ; Schmutzler, R ; Meindl, A ; Hahnen, E ; Dufault, MR ; Chan, TC ; Kwong, A ; Barkardottir, R ; Radice, P ; Peterlongo, P ; Devilee, P ; Hilbers, F ; Benitez, J ; Kvist, A ; Torngren, T ; Easton, D ; Hunter, D ; Lindstrom, S ; Kraft, P ; Zheng, W ; Gao, Y-T ; Long, J ; Ramus, S ; Feng, B-J ; Weitzel, RN ; Nathanson, K ; Offit, K ; Joseph, V ; Robson, M ; Schrader, K ; Wang, SM ; Kim, YC ; Lynch, H ; Snyder, C ; Tavtigian, S ; Neuhausen, S ; Couch, FJ ; Goldgar, DE (BMC, 2013)
    Linkage analysis, positional cloning, candidate gene mutation scanning and genome-wide association study approaches have all contributed significantly to our understanding of the underlying genetic architecture of breast cancer. Taken together, these approaches have identified genetic variation that explains approximately 30% of the overall familial risk of breast cancer, implying that more, and likely rarer, genetic susceptibility alleles remain to be discovered.
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    GWAS meta-analysis and replication identifies three new susceptibility loci for ovarian cancer
    Pharoah, PDP ; Tsai, Y-Y ; Ramus, SJ ; Phelan, CM ; Goode, EL ; Lawrenson, K ; Buckley, M ; Fridley, BL ; Tyrer, JP ; Shen, H ; Weber, R ; Karevan, R ; Larson, MC ; Song, H ; Tessier, DC ; Bacot, F ; Vincent, D ; Cunningham, JM ; Dennis, J ; Dicks, E ; Aben, KK ; Anton-Culver, H ; Antonenkova, N ; Armasu, SM ; Baglietto, L ; Bandera, EV ; Beckmann, MW ; Birrer, MJ ; Bloom, G ; Bogdanova, N ; Brenton, JD ; Brinton, LA ; Brooks-Wilson, A ; Brown, R ; Butzow, R ; Campbell, I ; Carney, ME ; Carvalho, RS ; Chang-Claude, J ; Chen, YA ; Chen, Z ; Chow, W-H ; Cicek, MS ; Coetzee, G ; Cook, LS ; Cramer, DW ; Cybulski, C ; Dansonka-Mieszkowska, A ; Despierre, E ; Doherty, JA ; Doerk, T ; du Bois, A ; Duerst, M ; Eccles, D ; Edwards, R ; Ekici, AB ; Fasching, PA ; Fenstermacher, D ; Flanagan, J ; Gao, Y-T ; Garcia-Closas, M ; Gentry-Maharaj, A ; Giles, G ; Gjyshi, A ; Gore, M ; Gronwald, J ; Guo, Q ; Halle, MK ; Harter, P ; Hein, A ; Heitz, F ; Hillemanns, P ; Hoatlin, M ; Hogdall, E ; Hogdall, CK ; Hosono, S ; Jakubowska, A ; Jensen, A ; Kalli, KR ; Karlan, BY ; Kelemen, LE ; Kiemeney, LA ; Kjaer, SK ; Konecny, GE ; Krakstad, C ; Kupryjanczyk, J ; Lambrechts, D ; Lambrechts, S ; Le, ND ; Lee, N ; Lee, J ; Leminen, A ; Lim, BK ; Lissowska, J ; Lubinski, J ; Lundvall, L ; Lurie, G ; Massuger, LFAG ; Matsuo, K ; McGuire, V ; McLaughlin, JR ; Menon, U ; Modugno, F ; Moysich, KB ; Nakanishi, T ; Narod, SA ; Ness, RB ; Nevanlinna, H ; Nickels, S ; Noushmehr, H ; Odunsi, K ; Olson, S ; Orlow, I ; Paul, J ; Pejovic, T ; Pelttari, LM ; Permuth-Wey, J ; Pike, MC ; Poole, EM ; Qu, X ; Risch, HA ; Rodriguez-Rodriguez, L ; Rossing, MA ; Rudolph, A ; Runnebaum, I ; Rzepecka, IK ; Salvesen, HB ; Schwaab, I ; Severi, G ; Shen, H ; Shridhar, V ; Shu, X-O ; Sieh, W ; Southey, MC ; Spellman, P ; Tajima, K ; Teo, S-H ; Terry, KL ; Thompson, PJ ; Timorek, A ; Tworoger, SS ; van Altena, AM ; van den Berg, D ; Vergote, I ; Vierkant, RA ; Vitonis, AF ; Wang-Gohrke, S ; Wentzensen, N ; Whittemore, AS ; Wik, E ; Winterhoff, B ; Woo, YL ; Wu, AH ; Yang, HP ; Zheng, W ; Ziogas, A ; Zulkifli, F ; Goodman, MT ; Hall, P ; Easton, DF ; Pearce, CL ; Berchuck, A ; Chenevix-Trench, G ; Iversen, E ; Monteiro, ANA ; Gayther, SA ; Schildkraut, JM ; Sellers, TA (NATURE PUBLISHING GROUP, 2013-04)
    Genome-wide association studies (GWAS) have identified four susceptibility loci for epithelial ovarian cancer (EOC), with another two suggestive loci reaching near genome-wide significance. We pooled data from a GWAS conducted in North America with another GWAS from the UK. We selected the top 24,551 SNPs for inclusion on the iCOGS custom genotyping array. We performed follow-up genotyping in 18,174 individuals with EOC (cases) and 26,134 controls from 43 studies from the Ovarian Cancer Association Consortium. We validated the two loci at 3q25 and 17q21 that were previously found to have associations close to genome-wide significance and identified three loci newly associated with risk: two loci associated with all EOC subtypes at 8q21 (rs11782652, P = 5.5 × 10(-9)) and 10p12 (rs1243180, P = 1.8 × 10(-8)) and another locus specific to the serous subtype at 17q12 (rs757210, P = 8.1 × 10(-10)). An integrated molecular analysis of genes and regulatory regions at these loci provided evidence for functional mechanisms underlying susceptibility and implicated CHMP4C in the pathogenesis of ovarian cancer.
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    Identification and molecular characterization of a new ovarian cancer susceptibility locus at 17q21.31
    Permuth-Wey, J ; Lawrenson, K ; Shen, HC ; Velkova, A ; Tyrer, JP ; Chen, Z ; Lin, H-Y ; Chen, YA ; Tsai, Y-Y ; Qu, X ; Ramus, SJ ; Karevan, R ; Lee, J ; Lee, N ; Larson, MC ; Aben, KK ; Anton-Culver, H ; Antonenkova, N ; Antoniou, AC ; Armasu, SM ; Bacot, F ; Baglietto, L ; Bandera, EV ; Barnholtz-Sloan, J ; Beckmann, MW ; Birrer, MJ ; Bloom, G ; Bogdanova, N ; Brinton, LA ; Brooks-Wilson, A ; Brown, R ; Butzow, R ; Cai, Q ; Campbell, I ; Chang-Claude, J ; Chanock, S ; Chenevix-Trench, G ; Cheng, JQ ; Cicek, MS ; Coetzee, GA ; Cook, LS ; Couch, FJ ; Cramer, DW ; Cunningham, JM ; Dansonka-Mieszkowska, A ; Despierre, E ; Doherty, JA ; Doerk, T ; du Bois, A ; Duerst, M ; Easton, DF ; Eccles, D ; Edwards, R ; Ekici, AB ; Fasching, PA ; Fenstermacher, DA ; Flanagan, JM ; Garcia-Closas, M ; Gentry-Maharaj, A ; Giles, GG ; Glasspool, RM ; Gonzalez-Bosquet, J ; Goodman, MT ; Gore, M ; Gorski, B ; Gronwald, J ; Hall, P ; Halle, MK ; Harter, P ; Heitz, F ; Hillemanns, P ; Hoatlin, M ; Hogdall, CK ; Hogdall, E ; Hosono, S ; Jakubowska, A ; Jensen, A ; Jim, H ; Kalli, KR ; Karlan, BY ; Kaye, SB ; Kelemen, LE ; Kiemeney, LA ; Kikkawa, F ; Konecny, GE ; Krakstad, C ; Kjaer, SK ; Kupryjanczyk, J ; Lambrechts, D ; Lambrechts, S ; Lancaster, JM ; Le, ND ; Leminen, A ; Levine, DA ; Liang, D ; Lim, BK ; Lin, J ; Lissowska, J ; Lu, KH ; Lubinski, J ; Lurie, G ; Massuger, LFAG ; Matsuo, K ; McGuire, V ; McLaughlin, JR ; Menon, U ; Modugno, F ; Moysich, KB ; Nakanishi, T ; Narod, SA ; Nedergaard, L ; Ness, RB ; Nevanlinna, H ; Nickels, S ; Noushmehr, H ; Odunsi, K ; Olson, SH ; Orlow, I ; Paul, J ; Pearce, CL ; Pejovic, T ; Pelttari, LM ; Pike, MC ; Poole, EM ; Raska, P ; Renner, SP ; Risch, HA ; Rodriguez-Rodriguez, L ; Rossing, MA ; Rudolph, A ; Runnebaum, IB ; Rzepecka, IK ; Salvesen, HB ; Schwaab, I ; Severi, G ; Shridhar, V ; Shu, X-O ; Shvetsov, YB ; Sieh, W ; Song, H ; Southey, MC ; Spiewankiewicz, B ; Stram, D ; Sutphen, R ; Teo, S-H ; Terry, KL ; Tessier, DC ; Thompson, PJ ; Tworoger, SS ; van Altena, AM ; Vergote, I ; Vierkant, RA ; Vincent, D ; Vitonis, AF ; Wang-Gohrke, S ; Weber, RP ; Wentzensen, N ; Whittemore, AS ; Wik, E ; Wilkens, LR ; Winterhoff, B ; Woo, YL ; Wu, AH ; Xiang, Y-B ; Yang, HP ; Zheng, W ; Ziogas, A ; Zulkifli, F ; Phelan, CM ; Iversen, E ; Schildkraut, JM ; Berchuck, A ; Fridley, BL ; Goode, EL ; Pharoah, PDP ; Monteiro, ANA ; Sellers, TA ; Gayther, SA (NATURE RESEARCH, 2013-03)
    Epithelial ovarian cancer (EOC) has a heritable component that remains to be fully characterized. Most identified common susceptibility variants lie in non-protein-coding sequences. We hypothesized that variants in the 3' untranslated region at putative microRNA (miRNA)-binding sites represent functional targets that influence EOC susceptibility. Here, we evaluate the association between 767 miRNA-related single-nucleotide polymorphisms (miRSNPs) and EOC risk in 18,174 EOC cases and 26,134 controls from 43 studies genotyped through the Collaborative Oncological Gene-environment Study. We identify several miRSNPs associated with invasive serous EOC risk (odds ratio=1.12, P=10(-8)) mapping to an inversion polymorphism at 17q21.31. Additional genotyping of non-miRSNPs at 17q21.31 reveals stronger signals outside the inversion (P=10(-10)). Variation at 17q21.31 is associated with neurological diseases, and our collaboration is the first to report an association with EOC susceptibility. An integrated molecular analysis in this region provides evidence for ARHGAP27 and PLEKHM1 as candidate EOC susceptibility genes.
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    Morphological predictors of BRCA1 germline mutations in young women with breast cancer
    Southey, MC ; Ramus, SJ ; Dowty, JG ; Smith, LD ; Tesoriero, AA ; Wong, EEM ; Dite, GS ; Jenkins, MA ; Byrnes, GB ; Winship, I ; Phillips, K-A ; Giles, GG ; Hopper, JL (NATURE PUBLISHING GROUP, 2011-03-15)
    BACKGROUND: Knowing a young woman with newly diagnosed breast cancer has a germline BRCA1 mutation informs her clinical management and that of her relatives. We sought an optimal strategy for identifying carriers using family history, breast cancer morphology and hormone receptor status data. METHODS: We studied a population-based sample of 452 Australian women with invasive breast cancer diagnosed before age 40 years for whom we conducted extensive germline mutation testing (29 carried a BRCA1 mutation) and a systematic pathology review, and collected three-generational family history and tumour ER and PR status. Predictors of mutation status were identified using multiple logistic regression. Areas under receiver operator characteristic (ROC) curves were estimated using five-fold stratified cross-validation. RESULTS: The probability of being a BRCA1 mutation carrier increased with number of selected histology features even after adjusting for family history and ER and PR status (P<0.0001). From the most parsimonious multivariate model, the odds ratio for being a carrier were: 9.7 (95% confidence interval: 2.6-47.0) for trabecular growth pattern (P=0.001); 7.8 (2.7-25.7) for mitotic index over 50 mitoses per 10 high-powered field (P=0.0003); and 2.7 (1.3-5.9) for each first-degree relative with breast cancer diagnosed before age 60 years (P=0.01).The area under the ROC curve was 0.87 (0.83-0.90). CONCLUSION: Pathology review, with attention to a few specific morphological features of invasive breast cancers, can identify almost all BRCA1 germline mutation carriers among women with early-onset breast cancer without taking into account family history.