Your search keyword '"Tyrer, Jonathan P."' showing total 4 results

1. Functional analysis and fine mapping of the 9p22.2 ovarian cancer susceptibility locus

Author

Buckley, Melissa A, Woods, Nicholas T, Tyrer, Jonathan P, Mendoza-Fandiño, Gustavo, Lawrenson, Kate, Hazelett, Dennis J, Najafabadi, Hamed S, Gjyshi, Anxhela, Carvalho, Renato S, Lyra, Paulo C, Coetzee, Simon G, Shen, Howard C, Yang, Ally W, Earp, Madalene A, Yoder, Sean J, Risch, Harvey, Chenevix-Trench, Georgia, Ramus, Susan J, Phelan, Catherine M, Coetzee, Gerhard A, Noushmehr, Houtan, Hughes, Timothy R, Sellers, Thomas A, Goode, Ellen L, Pharoah, Paul D, Gayther, Simon A, and Monteiro, Alvaro NA

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Prevention, Human Genome, Cancer, Rare Diseases, Biotechnology, Ovarian Cancer, 2.1 Biological and endogenous factors, Aetiology, Base Sequence, Carcinoma, Ovarian Epithelial, Cell Cycle Proteins, Cell Line, Tumor, Chromosome Mapping, Chromosomes, Human, Pair 9, Cystadenocarcinoma, Serous, DNA, Neoplasm, DNA-Binding Proteins, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, HEK293 Cells, Humans, Linkage Disequilibrium, Ovarian Neoplasms, Polymorphism, Single Nucleotide, Ovarian Cancer Association Consortium, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis

Abstract

Genome-wide association studies have identified 40 ovarian cancer risk loci. However, the mechanisms underlying these associations remain elusive. In this study, we conducted a two-pronged approach to identify candidate causal SNPs and assess underlying biological mechanisms at chromosome 9p22.2, the first and most statistically significant associated locus for ovarian cancer susceptibility. Three transcriptional regulatory elements with allele-specific effects and a scaffold/matrix attachment region were characterized and, through physical DNA interactions, BNC2 was established as the most likely target gene. We determined the consensus binding sequence for BNC2 in vitro, verified its enrichment in BNC2 ChIP-seq regions, and validated a set of its downstream target genes. Fine-mapping by dense regional genotyping in over 15,000 ovarian cancer cases and 30,000 controls identified SNPs in the scaffold/matrix attachment region as among the most likely causal variants. This study reveals a comprehensive regulatory landscape at 9p22.2 and proposes a likely mechanism of susceptibility to ovarian cancer. SIGNIFICANCE: Mapping the 9p22.2 ovarian cancer risk locus identifies BNC2 as an ovarian cancer risk gene.See related commentary by Choi and Brown, p. 439.

Published

2019

2. Genetic Data from Nearly 63,000 Women of European Descent Predicts DNA Methylation Biomarkers and Epithelial Ovarian Cancer Risk

Author

Yang, Yaohua, Wu, Lang, Shu, Xiang, Lu, Yingchang, Shu, Xiao-Ou, Cai, Qiuyin, Beeghly-Fadiel, Alicia, Li, Bingshan, Ye, Fei, Berchuck, Andrew, Anton-Culver, Hoda, Banerjee, Susana, Benitez, Javier, Bjørge, Line, Brenton, James D, Butzow, Ralf, Campbell, Ian G, Chang-Claude, Jenny, Chen, Kexin, Cook, Linda S, Cramer, Daniel W, deFazio, Anna, Dennis, Joe, Doherty, Jennifer A, Dörk, Thilo, Eccles, Diana M, Edwards, Digna Velez, Fasching, Peter A, Fortner, Renée T, Gayther, Simon A, Giles, Graham G, Glasspool, Rosalind M, Goode, Ellen L, Goodman, Marc T, Gronwald, Jacek, Harris, Holly R, Heitz, Florian, Hildebrandt, Michelle A, Høgdall, Estrid, Høgdall, Claus K, Huntsman, David G, Kar, Siddhartha P, Karlan, Beth Y, Kelemen, Linda E, Kiemeney, Lambertus A, Kjaer, Susanne K, Koushik, Anita, Lambrechts, Diether, Le, Nhu D, Levine, Douglas A, Massuger, Leon F, Matsuo, Keitaro, May, Taymaa, McNeish, Iain A, Menon, Usha, Modugno, Francesmary, Monteiro, Alvaro N, Moorman, Patricia G, Moysich, Kirsten B, Ness, Roberta B, Nevanlinna, Heli, Olsson, Håkan, Onland-Moret, N Charlotte, Park, Sue K, Paul, James, Pearce, Celeste L, Pejovic, Tanja, Phelan, Catherine M, Pike, Malcolm C, Ramus, Susan J, Riboli, Elio, Rodriguez-Antona, Cristina, Romieu, Isabelle, Sandler, Dale P, Schildkraut, Joellen M, Setiawan, Veronica W, Shan, Kang, Siddiqui, Nadeem, Sieh, Weiva, Stampfer, Meir J, Sutphen, Rebecca, Swerdlow, Anthony J, Szafron, Lukasz M, Teo, Soo Hwang, Tworoger, Shelley S, Tyrer, Jonathan P, Webb, Penelope M, Wentzensen, Nicolas, White, Emily, Willett, Walter C, Wolk, Alicja, Woo, Yin Ling, Wu, Anna H, Yan, Li, Yannoukakos, Drakoulis, Chenevix-Trench, Georgia, Sellers, Thomas A, Pharoah, Paul DP, Zheng, Wei, and Long, Jirong

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Biotechnology, Rare Diseases, Ovarian Cancer, Cancer Genomics, Prevention, Women's Health, Cancer, Clinical Research, Human Genome, 2.1 Biological and endogenous factors, Biomarkers, Tumor, Carcinoma, Ovarian Epithelial, Cohort Studies, DNA Methylation, Female, Genetic Predisposition to Disease, Humans, Models, Genetic, Ovarian Neoplasms, Predictive Value of Tests, Risk, White People, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis

Abstract

DNA methylation is instrumental for gene regulation. Global changes in the epigenetic landscape have been recognized as a hallmark of cancer. However, the role of DNA methylation in epithelial ovarian cancer (EOC) remains unclear. In this study, high-density genetic and DNA methylation data in white blood cells from the Framingham Heart Study (N = 1,595) were used to build genetic models to predict DNA methylation levels. These prediction models were then applied to the summary statistics of a genome-wide association study (GWAS) of ovarian cancer including 22,406 EOC cases and 40,941 controls to investigate genetically predicted DNA methylation levels in association with EOC risk. Among 62,938 CpG sites investigated, genetically predicted methylation levels at 89 CpG were significantly associated with EOC risk at a Bonferroni-corrected threshold of P < 7.94 × 10-7. Of them, 87 were located at GWAS-identified EOC susceptibility regions and two resided in a genomic region not previously reported to be associated with EOC risk. Integrative analyses of genetic, methylation, and gene expression data identified consistent directions of associations across 12 CpG, five genes, and EOC risk, suggesting that methylation at these 12 CpG may influence EOC risk by regulating expression of these five genes, namely MAPT, HOXB3, ABHD8, ARHGAP27, and SKAP1. We identified novel DNA methylation markers associated with EOC risk and propose that methylation at multiple CpG may affect EOC risk via regulation of gene expression. SIGNIFICANCE: Identification of novel DNA methylation markers associated with EOC risk suggests that methylation at multiple CpG may affect EOC risk through regulation of gene expression.

Published

2019

3. Risk of ovarian cancer and the NF-κB pathway: genetic association with IL1A and TNFSF10.

Author

Charbonneau, Bridget, Block, Matthew S, Bamlet, William R, Vierkant, Robert A, Kalli, Kimberly R, Fogarty, Zachary, Rider, David N, Sellers, Thomas A, Tworoger, Shelley S, Poole, Elizabeth, Risch, Harvey A, Salvesen, Helga B, Kiemeney, Lambertus A, Baglietto, Laura, Giles, Graham G, Severi, Gianluca, Trabert, Britton, Wentzensen, Nicolas, Chenevix-Trench, Georgia, for AOCS/ACS group, Whittemore, Alice S, Sieh, Weiva, Chang-Claude, Jenny, Bandera, Elisa V, Orlow, Irene, Terry, Kathryn, Goodman, Marc T, Thompson, Pamela J, Cook, Linda S, Rossing, Mary Anne, Ness, Roberta B, Narod, Steven A, Kupryjanczyk, Jolanta, Lu, Karen, Butzow, Ralf, Dörk, Thilo, Pejovic, Tanja, Campbell, Ian, Le, Nhu D, Bunker, Clareann H, Bogdanova, Natalia, Runnebaum, Ingo B, Eccles, Diana, Paul, James, Wu, Anna H, Gayther, Simon A, Hogdall, Estrid, Heitz, Florian, Kaye, Stanley B, Karlan, Beth Y, Anton-Culver, Hoda, Gronwald, Jacek, Hogdall, Claus K, Lambrechts, Diether, Fasching, Peter A, Menon, Usha, Schildkraut, Joellen, Pearce, Celeste Leigh, Levine, Douglas A, Kjaer, Susanne Kruger, Cramer, Daniel, Flanagan, James M, Phelan, Catherine M, Brown, Robert, Massuger, Leon FAG, Song, Honglin, Doherty, Jennifer A, Krakstad, Camilla, Liang, Dong, Odunsi, Kunle, Berchuck, Andrew, Jensen, Allan, Lubinski, Jan, Nevanlinna, Heli, Bean, Yukie T, Lurie, Galina, Ziogas, Argyrios, Walsh, Christine, Despierre, Evelyn, Brinton, Louise, Hein, Alexander, Rudolph, Anja, Dansonka-Mieszkowska, Agnieszka, Olson, Sara H, Harter, Philipp, Tyrer, Jonathan, Vitonis, Allison F, Brooks-Wilson, Angela, Aben, Katja K, Pike, Malcolm C, Ramus, Susan J, Wik, Elisabeth, Cybulski, Cezary, Lin, Jie, Sucheston, Lara, Edwards, Robert, McGuire, Valerie, Lester, Jenny, du Bois, Andreas, and Lundvall, Lene

Subjects

for AOCS/ACS group, Humans, Ovarian Neoplasms, NF-kappa B, Risk, Case-Control Studies, Signal Transduction, Polymorphism, Single Nucleotide, Female, TNF-Related Apoptosis-Inducing Ligand, Interleukin-1alpha, Genetic Association Studies, Polymorphism, Single Nucleotide, Prevention, Ovarian Cancer, Cancer, Human Genome, Rare Diseases, Genetics, Clinical Research, 2.1 Biological and endogenous factors, Oncology & Carcinogenesis, Oncology and Carcinogenesis

Abstract

A missense single-nucleotide polymorphism (SNP) in the immune modulatory gene IL1A has been associated with ovarian cancer risk (rs17561). Although the exact mechanism through which this SNP alters risk of ovarian cancer is not clearly understood, rs17561 has also been associated with risk of endometriosis, an epidemiologic risk factor for ovarian cancer. Interleukin-1α (IL1A) is both regulated by and able to activate NF-κB, a transcription factor family that induces transcription of many proinflammatory genes and may be an important mediator in carcinogenesis. We therefore tagged SNPs in more than 200 genes in the NF-κB pathway for a total of 2,282 SNPs (including rs17561) for genotype analysis of 15,604 cases of ovarian cancer in patients of European descent, including 6,179 of high-grade serous (HGS), 2,100 endometrioid, 1,591 mucinous, 1,034 clear cell, and 1,016 low-grade serous, including 23,235 control cases spanning 40 studies in the Ovarian Cancer Association Consortium. In this large population, we confirmed the association between rs17561 and clear cell ovarian cancer [OR, 0.84; 95% confidence interval (CI), 0.76-0.93; P = 0.00075], which remained intact even after excluding participants in the prior study (OR, 0.85; 95% CI, 0.75-0.95; P = 0.006). Considering a multiple-testing-corrected significance threshold of P < 2.5 × 10(-5), only one other variant, the TNFSF10 SNP rs6785617, was associated significantly with a risk of ovarian cancer (low malignant potential tumors OR, 0.85; 95% CI, 0.79-0.91; P = 0.00002). Our results extend the evidence that borderline tumors may have a distinct genetic etiology. Further investigation of how these SNPs might modify ovarian cancer associations with other inflammation-related risk factors is warranted.

Published

2014

4. Cross-Cancer Genome-Wide Analysis of Lung, Ovary, Breast, Prostate, and Colorectal Cancer Reveals Novel Pleiotropic Associations

Author

Fehringer, Gordon, primary, Kraft, Peter, additional, Pharoah, Paul D., additional, Eeles, Rosalind A., additional, Chatterjee, Nilanjan, additional, Schumacher, Fredrick R., additional, Schildkraut, Joellen M., additional, Lindström, Sara, additional, Brennan, Paul, additional, Bickeböller, Heike, additional, Houlston, Richard S., additional, Landi, Maria Teresa, additional, Caporaso, Neil, additional, Risch, Angela, additional, Amin Al Olama, Ali, additional, Berndt, Sonja I., additional, Giovannucci, Edward L., additional, Grönberg, Henrik, additional, Kote-Jarai, Zsofia, additional, Ma, Jing, additional, Muir, Kenneth, additional, Stampfer, Meir J., additional, Stevens, Victoria L., additional, Wiklund, Fredrik, additional, Willett, Walter C., additional, Goode, Ellen L., additional, Permuth, Jennifer B., additional, Risch, Harvey A., additional, Reid, Brett M., additional, Bezieau, Stephane, additional, Brenner, Hermann, additional, Chan, Andrew T., additional, Chang-Claude, Jenny, additional, Hudson, Thomas J., additional, Kocarnik, Jonathan K., additional, Newcomb, Polly A., additional, Schoen, Robert E., additional, Slattery, Martha L., additional, White, Emily, additional, Adank, Muriel A., additional, Ahsan, Habibul, additional, Aittomäki, Kristiina, additional, Baglietto, Laura, additional, Blomquist, Carl, additional, Canzian, Federico, additional, Czene, Kamila, additional, dos-Santos-Silva, Isabel, additional, Eliassen, A. Heather, additional, Figueroa, Jonine D., additional, Flesch-Janys, Dieter, additional, Fletcher, Olivia, additional, Garcia-Closas, Montserrat, additional, Gaudet, Mia M., additional, Johnson, Nichola, additional, Hall, Per, additional, Hazra, Aditi, additional, Hein, Rebecca, additional, Hofman, Albert, additional, Hopper, John L., additional, Irwanto, Astrid, additional, Johansson, Mattias, additional, Kaaks, Rudolf, additional, Kibriya, Muhammad G., additional, Lichtner, Peter, additional, Liu, Jianjun, additional, Lund, Eiliv, additional, Makalic, Enes, additional, Meindl, Alfons, additional, Müller-Myhsok, Bertram, additional, Muranen, Taru A., additional, Nevanlinna, Heli, additional, Peeters, Petra H., additional, Peto, Julian, additional, Prentice, Ross L., additional, Rahman, Nazneen, additional, Sanchez, Maria Jose, additional, Schmidt, Daniel F., additional, Schmutzler, Rita K., additional, Southey, Melissa C., additional, Tamimi, Rulla, additional, Travis, Ruth C., additional, Turnbull, Clare, additional, Uitterlinden, Andre G., additional, Wang, Zhaoming, additional, Whittemore, Alice S., additional, Yang, Xiaohong R., additional, Zheng, Wei, additional, Buchanan, Daniel D., additional, Casey, Graham, additional, Conti, David V., additional, Edlund, Christopher K., additional, Gallinger, Steven, additional, Haile, Robert W., additional, Jenkins, Mark, additional, Le Marchand, Loïc, additional, Li, Li, additional, Lindor, Noralene M., additional, Schmit, Stephanie L., additional, Thibodeau, Stephen N., additional, Woods, Michael O., additional, Rafnar, Thorunn, additional, Gudmundsson, Julius, additional, Stacey, Simon N., additional, Stefansson, Kari, additional, Sulem, Patrick, additional, Chen, Y. Ann, additional, Tyrer, Jonathan P., additional, Christiani, David C., additional, Wei, Yongyue, additional, Shen, Hongbing, additional, Hu, Zhibin, additional, Shu, Xiao-Ou, additional, Shiraishi, Kouya, additional, Takahashi, Atsushi, additional, Bossé, Yohan, additional, Obeidat, Ma'en, additional, Nickle, David, additional, Timens, Wim, additional, Freedman, Matthew L., additional, Li, Qiyuan, additional, Seminara, Daniela, additional, Chanock, Stephen J., additional, Gong, Jian, additional, Peters, Ulrike, additional, Gruber, Stephen B., additional, Amos, Christopher I., additional, Sellers, Thomas A., additional, Easton, Douglas F., additional, Hunter, David J., additional, Haiman, Christopher A., additional, Henderson, Brian E., additional, and Hung, Rayjean J., additional

Published

2016