Your search keyword '"Danielle M Karyadi"' showing total 22 results

1. Whole genome sequencing of canids reveals genomic regions under selection and variants influencing morphology

Author

Brennan Decker, Jaemin Kim, Alex C. Harris, Jocelyn Plassais, Heidi G. Parker, Brian W. Davis, Andrew N. Hogan, Danielle M. Karyadi, and Elaine A. Ostrander

Subjects

0301 basic medicine, Male, Science, General Physics and Astronomy, Genomics, Genome-wide association study, Animals, Wild, 02 engineering and technology, Biology, Breeding, Genome, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Dogs, Genetic variation, Animals, Body Size, Selection, Genetic, Indel, Selection (genetic algorithm), Whole genome sequencing, Multidisciplinary, Whole Genome Sequencing, Genetic Variation, General Chemistry, 021001 nanoscience & nanotechnology, 030104 developmental biology, Phenotype, Evolutionary biology, Female, 0210 nano-technology, Selective sweep, Genome-Wide Association Study

Abstract

Domestic dog breeds are characterized by an unrivaled diversity of morphologic traits and breed-associated behaviors resulting from human selective pressures. To identify the genetic underpinnings of such traits, we analyze 722 canine whole genome sequences (WGS), documenting over 91 million single nucleotide and small indels, creating a large catalog of genomic variation for a companion animal species. We undertake both selective sweep analyses and genome wide association studies (GWAS) inclusive of over 144 modern breeds, 54 wild canids and a hundred village dogs. Our results identify variants of strong impact associated with 16 phenotypes, including body weight variation which, when combined with existing data, explain greater than 90% of body size variation in dogs. We thus demonstrate that GWAS and selection scans performed with WGS are powerful complementary methods for expanding the utility of companion animal systems for the study of mammalian growth and biology., Being man’s best friend, dogs have been bred and selected for certain morphologic traits and breed-associated behaviours. Here, Plassais et al. analyse 722 canine whole genome sequences including modern breeds, wild canids and village dogs by GWAS and search for signatures of selection.

Published

2019

2. In utero exposure to zidovudine-containing antiretroviral therapy and clonal hematopoiesis in HIV-exposed uninfected newborns

Author

Rohan Hazra, Deborah Kacanek, Shu-Hong Lin, Stephen W. Hartley, Sean S Brummel, Danielle M. Karyadi, Weiyin Zhou, Erin Beilstein-Wedel, Youjin Wang, Ellen G. Chadwick, Stephen J. Chanock, Olivia W. Lee, Bin Zhu, Derek Brown, Eric A. Engels, Miriam C. Poirier, Carmen J. Marsit, and Mitchell J. Machiela

Subjects

Anti-HIV Agents, Immunology, HIV Infections, Biology, Article, Zidovudine, Pregnancy, medicine, Humans, Immunology and Allergy, Pregnancy Complications, Infectious, Child, Gene, Genotyping, Fetus, Confounding, Infant, Newborn, virus diseases, medicine.disease, Infectious Disease Transmission, Vertical, Infectious Diseases, In utero, Population study, Female, Clonal Hematopoiesis, medicine.drug

Abstract

Objective Zidovudine (ZDV) has been extensively used in pregnant women to prevent vertical transmission of HIV but few studies have evaluated potential mutagenic effects of ZDV during fetal development. Design Our study investigated clonal hematopoiesis in HIV-exposed uninfected (HEU) newborns, 94 of whom were ZDV-exposed and 91 antiretroviral therapy (ART)-unexposed and matched for potential confounding factors. Methods Utilizing high depth sequencing and genotyping arrays, we comprehensively examined blood samples collected during the first week after birth for potential clonal hematopoiesis associated with fetal ZDV exposure, including clonal single nucleotide variants (SNVs), small insertions and deletions (indels), and large structural copy number or copy neutral alterations. Results We observed no statistically significant difference in the number of SNVs and indels per person in ZDV-exposed children (adjusted ratio [95% confidence interval, CI] for expected number of mutations = 0.79 [0.50--1.22], P = 0.3), and no difference in the number of large structural alterations. Mutations in common clonal hematopoiesis driver genes were not found in the study population. Mutational signature analyses on SNVs detected no novel signatures unique to the ZDV-exposed children and the mutational profiles were similar between the two groups. Conclusion Our results suggest that clonal hematopoiesis at levels detectable in our study is not strongly influenced by in-utero ZDV exposure; however, additional follow-up studies are needed to further evaluate the safety and potential long-term impacts of in-utero ZDV exposure in HEU children as well as better investigate genomic aberrations occurring late in pregnancy.

Published

2021

3. Radiation-related genomic profile of papillary thyroid carcinoma after the Chernobyl accident

Author

Tetiana Bogdanova, Vidushi Kapoor, Mykola Chepurny, Stephen W. Hartley, Yosef E. Maruvka, Danielle M. Karyadi, Sara J. Schonfeld, Meredith Yeager, Casey L. Dagnall, Lindsay M. Morton, Eric T. Dawson, Elizabeth K. Cahoon, Kiyohiko Mabuchi, Marko Krznaric, Charles M. Perou, Gad Getz, Julie M. Gastier-Foster, Vladimir Drozdovitch, Amy Berrington de Gonzalez, Juan Carvajal-Garcia, Gerry Thomas, Sergii Masiuk, Joshua N. Sampson, Joseph Boland, Stephen J. Chanock, Mitchell J. Machiela, Belynda Hicks, Olivia W. Lee, Joel S. Parker, Amy Hutchinson, Liudmyla Yu Zurnadzhy, Jay Bowen, Jieqiong Dai, Mykola Tronko, Mia Steinberg, Maureen Hatch, Chip Stewart, Dale A. Ramsden, and Alina V. Brenner

Subjects

Male, Pathology, Neoplasms, Radiation-Induced, endocrine system diseases, Thyroid Gland, Loss of Heterozygosity, Chernobyl Nuclear Accident, medicine.disease_cause, Translocation, Genetic, Loss of heterozygosity, Iodine Radioisotopes, Epigenome, Medicine, RNA-Seq, Child, Thyroid cancer, Epigenomics, Mutation, Multidisciplinary, Middle Aged, Thyroid Cancer, Papillary, Child, Preschool, Female, Ukraine, Adult, Proto-Oncogene Proteins B-raf, medicine.medical_specialty, Adolescent, DNA Copy Number Variations, General Science & Technology, Biology, Radiation Dosage, Article, Thyroid carcinoma, Young Adult, Humans, Thyroid Neoplasms, Carcinogen, Whole Genome Sequencing, business.industry, Gene Expression Profiling, Genetic Variation, Infant, medicine.disease, Genes, ras, Genomic Profile, Cancer research, business

Abstract

Genomics of radiation-induced damage The potential adverse effects of exposures to radioactivity from nuclear accidents can include acute consequences such as radiation sickness, as well as long-term sequelae such as increased risk of cancer. There have been a few studies examining transgenerational risks of radiation exposure but the results have been inconclusive. Morton et al. analyzed papillary thyroid tumors, normal thyroid tissue, and blood from hundreds of survivors of the Chernobyl nuclear accident and compared them against those of unexposed patients. The findings offer insight into the process of radiation-induced carcinogenesis and characteristic patterns of DNA damage associated with environmental radiation exposure. In a separate study, Yeager et al. analyzed the genomes of 130 children and parents from families in which one or both parents had experienced gonadal radiation exposure related to the Chernobyl accident and the children were conceived between 1987 and 2002. Reassuringly, the authors did not find an increase in new germline mutations in this population. Science , this issue p. eabg2538 , p. 725

Published

2020

4. REVEL: An Ensemble Method for Predicting the Pathogenicity of Rare Missense Variants

Author

Sumit Middha, Graham G. Giles, Anthony M. Musolf, Predrag Radivojac, Johanna Schleutker, Chih-Lin Hsieh, Robert J. MacInnis, Zsofia Kote-Jarai, Christiane Maier, Emily R. Holzinger, Janet L. Stanford, Weiva Sieh, John D. Carpten, Joan E. Bailey-Wilson, Saurabh Baheti, Trevor Hastie, Shannon K. McDonnell, Lisa A. Cannon-Albright, Joseph H. Rothstein, Danielle M. Karyadi, Vikas Pejaver, Elaine A. Ostrander, Diptasri Mandal, Jianfeng Xu, Olivier Cussenot, Daniel J. Schaid, William B. Isaacs, Craig C. Teerlink, Isaac J. Powell, Ethan M. Lange, Nilah M. Ioannidis, Geraldine Cancel-Tassin, William J. Catalona, Qing Li, Alice S. Whittemore, Kathleen A. Cooney, Rosalind A. Eeles, William D. Foulkes, Stephen N. Thibodeau, Fredrik Wiklund, and Carlos Bustamante

Subjects

0301 basic medicine, DNA Mutational Analysis, Mutation, Missense, Biology, ta3111, Article, 03 medical and health sciences, Gene Frequency, Genetics, Humans, Missense mutation, Disease, Exome, Overall performance, Allele frequency, Genetics (clinical), Exome sequencing, Pathogenicity, Ensemble learning, 030104 developmental biology, ROC Curve, Area Under Curve, Mutation (genetic algorithm), Software

Abstract

Supplemental Data Supplemental Data include one figure and five tables and can be found with this article online at http://dx.doi.org/10.1016/j.ajhg.2016.08.016. Supplemental Data Document S1. Figure S1 and Tables S1–S5 Download Document S2. Article plus Supplemental Data Download Web Resources ClinVar, https://www.ncbi.nlm.nih.gov/clinvar/ dbNSFP, https://sites.google.com/site/jpopgen/dbNSFP Human Gene Mutation Database, http://www.hgmd.cf.ac.uk/ REVEL, https://sites.google.com/site/revelgenomics/ SwissVar, http://swissvar.expasy.org/ The vast majority of coding variants are rare, and assessment of the contribution of rare variants to complex traits is hampered by low statistical power and limited functional data. Improved methods for predicting the pathogenicity of rare coding variants are needed to facilitate the discovery of disease variants from exome sequencing studies. We developed REVEL (rare exome variant ensemble learner), an ensemble method for predicting the pathogenicity of missense variants on the basis of individual tools: MutPred, FATHMM, VEST, PolyPhen, SIFT, PROVEAN, MutationAssessor, MutationTaster, LRT, GERP, SiPhy, phyloP, and phastCons. REVEL was trained with recently discovered pathogenic and rare neutral missense variants, excluding those previously used to train its constituent tools. When applied to two independent test sets, REVEL had the best overall performance (p < 10−12) as compared to any individual tool and seven ensemble methods: MetaSVM, MetaLR, KGGSeq, Condel, CADD, DANN, and Eigen. Importantly, REVEL also had the best performance for distinguishing pathogenic from rare neutral variants with allele frequencies

Published

2016

5. Germline Missense Variants in the BTNL2 Gene Are Associated with Prostate Cancer Susceptibility

Author

Suzanne Kolb, Laura McIntosh, Jay Shendure, Tiffany Smith, Marni Stott-Miller, Yuzheng Zhang, Evan A. Boyle, Elaine A. Ostrander, Liesel M. FitzGerald, Li Hsu, Danielle M. Karyadi, Janet L. Stanford, and Akash Kumar

Subjects

Male, Oncology, medicine.medical_specialty, Genotype, Epidemiology, Population, Mutation, Missense, Biology, Article, Germline, Prostate cancer, Germline mutation, Risk Factors, Internal medicine, medicine, Humans, Missense mutation, Genetic Predisposition to Disease, education, Germ-Line Mutation, Aged, Genetics, education.field_of_study, Membrane Glycoproteins, Butyrophilins, Case-control study, Prostatic Neoplasms, Cancer, Middle Aged, medicine.disease, Case-Control Studies

Abstract

Background: Rare, inherited mutations account for 5% to 10% of all prostate cancer cases. However, to date, few causative mutations have been identified. Methods: To identify rare mutations for prostate cancer, we conducted whole-exome sequencing (WES) in multiple kindreds (n = 91) from 19 hereditary prostate cancer (HPC) families characterized by aggressive or early-onset phenotypes. Candidate variants (n = 130) identified through family- and bioinformatics-based filtering of WES data were then genotyped in an independent set of 270 HPC families (n = 819 prostate cancer cases; n = 496 unaffected relatives) for replication. Two variants with supportive evidence were subsequently genotyped in a population-based case–control study (n = 1,155 incident prostate cancer cases; n = 1,060 age-matched controls) for further confirmation. All participants were men of European ancestry. Results: The strongest evidence was for two germline missense variants in the butyrophilin-like 2 (BTNL2) gene (rs41441651, p.Asp336Asn and rs28362675, p.Gly454Cys) that segregated with affection status in two of the WES families. In the independent set of 270 HPC families, 1.5% (rs41441651; P = 0.0032) and 1.2% (rs28362675; P = 0.0070) of affected men, but no unaffected men, carried a variant. Both variants were associated with elevated prostate cancer risk in the population-based study (rs41441651: OR, 2.7; 95% CI, 1.27–5.87; P = 0.010; rs28362675: OR, 2.5; 95% CI, 1.16–5.46; P = 0.019). Conclusions: Results indicate that rare BTNL2 variants play a role in susceptibility to both familial and sporadic prostate cancer. Impact: Results implicate BTNL2 as a novel prostate cancer susceptibility gene. Cancer Epidemiol Biomarkers Prev; 22(9); 1520–8. ©2013 AACR.

Published

2013

6. Identification of 23 new prostate cancer susceptibility loci using the iCOGS custom genotyping array

Author

Artitaya Lophatananon, W. Ryan Diver, Stig E. Bojesen, Roman Corral, Fredrick R. Schumacher, Stephen J. Chanock, Shannon K. McDonnell, Graham G. Giles, Craig C. Teerlink, Douglas F. Easton, Cezary Cybulski, Brian E. Henderson, Judith A. Clements, Ali Amin Al Olama, Francois Bacot, David P. Dearnaley, Elio Riboli, Peter Klarskov, Daniel Vincent, Rosemary A. Wilkinson, Danielle M. Karyadi, Michelle Guy, Vincent Khoo, Christopher A. Haiman, Afshan Siddiq, M. Andreas Røder, Amit Joshi, Jong Y. Park, Walther Vogel, Henrik Grönberg, Angela Cox, Rudolf Kaaks, Nora Pashayan, Timothy J. Key, C. R. J. Woodhouse, Jarmo Virtamo, Meredith Yeager, Malgorzata Tymrakiewicz, Sune F. Nielsen, Richard B. Hayes, Johanna Schleutker, Gianluca Severi, Robert Huddart, Wei Zheng, Thomas A. Sellers, Melanie Maranian, Shahana Ahmed, David E. Neal, Daniel Leongamornlert, Zsofia Kote-Jarai, Tiina Wahlfors, Loic Le Marchand, Kay-Tee Khaw, Tokhir Dadaev, Lisa A. Cannon-Albright, Janet L. Stanford, William J. Blot, Andy C. H. Lee, Freddie C. Hamdy, Siqun L. Zheng, Rosalind A. Eeles, Alison M. Dunning, Mariana C. Stern, Melissa C. Southey, Don M. Conroy, Kenneth Muir, Ahva Shahabi, Alan Horwich, Gerald L. Andriole, Antje E. Rinckleb, Srilakshmi Srinivasan, Tim Dudderidge, Joe Dennis, Radka Kaneva, Vanio Mitev, Angela Morgan, Sue A. Ingles, Adam S. Kibel, Markus Aly, Koveela Govindasami, Maya Ghoussaini, Jenny L Donovan, Manuel R. Teixeira, Emma J. Sawyer, Sara Lindström, Jiangfeng Xu, Maren Weischer, Ed Dicks, Jyotsna Batra, S Jugurnauth-Little, Hui-Yi Lin, Suzanne Kolb, Lisa B. Signorello, Dallas R. English, Antonis C. Antoniou, Federico Canzian, Anssi Auvinen, Mia M. Gaudet, Paula Paulo, Paul D.P. Pharoah, Heiko Müller, Qiuyin Cai, Børge G. Nordestgaard, Esther M. John, Sonja I. Berndt, D J Schaid, Daniele Campa, Chris Ogden, Colin Cooper, Craig Luccarini, Jan Lubinski, Elaine A. Ostrander, Ruth C. Travis, Dominika Wokołorczyk, John L. Hopper, Sofia Maia, Sara Benlloch, Chris Parker, Erika M. Kwon, Nicholas van As, Caroline Baynes, C. Slavov, Teuvo L.J. Tammela, Ethan M. Lange, Daniel C. Tessier, David J. Hunter, Dietrich Rothenbacher, Robert A. Stephenson, Liesel M. FitzGerald, Christiane Maier, Hermann Brenner, Kathleen A. Cooney, Graham A. Colditz, Felicity Lose, Edward J. Saunders, Demetrius Albanes, Stephen N. Thibodeau, Fredrik Wiklund, Amanda B. Spurdle, Jan Adolfsson, Susan M. Gapstur, Peter Kraft, Bettina F. Drake, and Alan Thompson

Subjects

Male, genetic association, genotype, Genome-wide association study, Bioinformatics, genetic risk, developed country, Prostate cancer, 0302 clinical medicine, Risk Factors, Genotype, Cooperative Behavior, breast cancer, cancer prognosis, cancer susceptibility, cell adhesion, cell cycle arrest, chromosome 14, chromosome 2, double stranded DNA break, embryo development, extracellular matrix, gene frequency, gene linkage disequilibrium, genetic predisposition, Gleason score, heterozygote, human, intron, priority journal, promoter region, prostate cancer, quality control, regulator gene, Oligonucleotide Array Sequence Analysis, 0303 health sciences, education.field_of_study, 3. Good health, 030220 oncology & carcinogenesis, Population, Single-nucleotide polymorphism, Biology, ta3111, Polymorphism, Single Nucleotide, 03 medical and health sciences, Meta-Analysis as Topic, Genetics, medicine, Humans, Genetic Predisposition to Disease, education, Genotyping, 030304 developmental biology, Case-control study, Cancer, Prostatic Neoplasms, medicine.disease, ta3122, Genetic Loci, Case-Control Studies, Genome-Wide Association Study

Abstract

Prostate cancer is the most frequently diagnosed cancer in males in developed countries. To identify common prostate cancer susceptibility alleles, we genotyped 211,155 SNPs on a custom Illumina array (iCOGS) in blood DNA from 25,074 prostate cancer cases and 24,272 controls from the international PRACTICAL Consortium. Twenty-three new prostate cancer susceptibility loci were identified at genome-wide significance (P < 5 × 10(-8)). More than 70 prostate cancer susceptibility loci, explaining ∼30% of the familial risk for this disease, have now been identified. On the basis of combined risks conferred by the new and previously known risk loci, the top 1% of the risk distribution has a 4.7-fold higher risk than the average of the population being profiled. These results will facilitate population risk stratification for clinical studies.

Published

2016

7. HOXB13mutations in a population-based, case-control study of prostate cancer

Author

Tiffany Smith, Janet L. Stanford, Danielle M. Karyadi, Elaine A. Ostrander, Erika M. Kwon, Suzanne Kolb, and Marni Stott-Miller

Subjects

Oncology, Gynecology, medicine.medical_specialty, Mutation, education.field_of_study, Urology, Population, Case-control study, Biology, Malignancy, medicine.disease, medicine.disease_cause, Prostate cancer, Polymorphism (computer science), Internal medicine, medicine, Genetic predisposition, Prostate neoplasm, education

Abstract

BACKGROUND Prostate cancer (PC) is the most frequently diagnosed non-skin malignancy in men in the Western world, yet few disease-associated mutations have been found. Recently, a low frequency recurring mutation in the HOXB13 gene was reported among both hereditary PC families and men from the general population.

Published

2012

8. Identification of seven new prostate cancer susceptibility loci through a genome-wide association study

Author

Jo Fen Liu, Timothy R. Rebbeck, Brian E. Henderson, Vincent Khoo, Lynne T. O'Brien, Anna M. Ray, Klara Stefflova, Ethan M. Lange, Joanne L. Dickinson, Shannon K. McDonnell, Sarah J Lewis, Amit Joshi, Thilo Dörk, Jyotsna Batra, Yong-Jie Lu, Manuel Luedeke, Rosemary A. Wilkinson, Michelle Guy, C. R. J. Woodhouse, David E. Neal, Christopher A. Haiman, Gianluca Severi, Liesel M. FitzGerald, Audrey Ardern-Jones, Douglas F. Easton, Erika M. Kwon, Colin Cooper, Dallas R. English, Kathleen A. Cooney, Daniel Leongamornlert, Graham G. Giles, Loic Le Marchand, Laurence N. Kolonel, C. Slavov, Daniel J. Schaid, Ahva Shahabi, Suzanne K. Chambers, Teuvo L.J. Tammela, Jong Y. Park, Johanna Schleutker, Robert Huddart, Melissa C. Southey, Sue A. Ingles, Tim Christmas, Judith A. Clements, Mary-Anne Kedda, Malgorzata Tymrakiewicz, David P. Dearnaley, Radka Kaneva, Edward J. Saunders, Thomas A. Sellers, Janet L. Stanford, Anssi Auvinen, Alan Thompson, Jonathan J. Morrison, Guangwen Cao, Amanda L. Hall, Humera Khan, Pierre Hutter, Stephen M. Edwards, Esther M. John, Emma J. Sawyer, Angela Cox, Lisa A. Cannon-Albright, Tiina Wahlfors, Pierre O. Chappuis, Stephen N. Thibodeau, Freddie C. Hamdy, Elaine A. Ostrander, Hong Wei Zhang, Nicholas Van As, John L. Hopper, Walther Vogel, Amanda B. Spurdle, Jürgen Serth, Joanne F. Aitken, Chris Ogden, Atanaska Mitkova, Felicity Lose, Zsofia Kote-Jarai, Elizabeth Page, Christiane Maier, Joseph S. Koopmeiners, William D. Foulkes, Kenneth Muir, Alan Horwich, Danielle M. Karyadi, Chris Parker, Briony Patterson, Julio M. Pow-Sang, Robert A. Gardiner, Ali Amin Al Olama, Mariana C. Stern, Roman Corral, Maurice P. Zeegers, Andrea M. Polanowski, Artitaya Lophatananon, Rosalind A. Eeles, Andreas Meyer, J. M. Farnham, Jenny L Donovan, Complexe Genetica, Populatie Genetica, and RS: NUTRIM - R4 - Gene-environment interaction

Subjects

Genetics, Male, Genotype, Genome, Human, Cancer, Prostatic Neoplasms, Genome-wide association study, Single-nucleotide polymorphism, Locus (genetics), Biology, medicine.disease, urologic and male genital diseases, Polymorphism, Single Nucleotide, Article, Prostate cancer, medicine.anatomical_structure, Prostate, medicine, Chromosomes, Human, Humans, Disease Susceptibility, Allele, Genome-Wide Association Study

Abstract

Prostate cancer (PrCa) is the most frequently diagnosed cancer in males in developed countries. To identify common PrCa susceptibility alleles, we previously conducted a genome-wide association study in which 541,129 SNPs were genotyped in 1,854 PrCa cases with clinically detected disease and in 1,894 controls. We have now extended the study to evaluate promising associations in a second stage in which we genotyped 43,671 SNPs in 3,650 PrCa cases and 3,940 controls and in a third stage involving an additional 16,229 cases and 14,821 controls from 21 studies. In addition to replicating previous associations, we identified seven new prostate cancer susceptibility loci on chromosomes 2, 4, 8, 11 and 22 (with P = 1.6 x 10(-8) to P = 2.7 x 10(-33)).

Published

2009

9. Association of Megalin Genetic Polymorphisms with Prostate Cancer Risk and Prognosis

Author

Janet L. Stanford, Erika M. Kwon, Elaine A. Ostrander, Sarah K. Holt, Peter S. Nelson, and Danielle M. Karyadi

Subjects

Adult, Male, Oncology, Cancer Research, medicine.medical_specialty, Genotype, Single-nucleotide polymorphism, Disease, Polymorphism, Single Nucleotide, Article, Androgen deprivation therapy, Prostate cancer, Sex hormone-binding globulin, Gene Frequency, Recurrence, Risk Factors, Prostate, Internal medicine, Humans, Medicine, Genetic Predisposition to Disease, biology, business.industry, Case-control study, Prostatic Neoplasms, Cancer, Middle Aged, Prognosis, medicine.disease, Low Density Lipoprotein Receptor-Related Protein-2, medicine.anatomical_structure, Endocrinology, Case-Control Studies, Disease Progression, biology.protein, business

Abstract

Purpose: Megalin, an endocytic receptor expressed by prostate epithelial cells, can internalize biologically active androgens bound to sex hormone binding globulin. Genetic variation within megalin could potentially influence levels of steroid hormone uptake. Experimental Design: Forty haplotype-tagging single-nucleotide polymorphisms (htSNP) were analyzed in a population-based, case-control study of 553 Caucasian men who were diagnosed with prostate cancer between the ages of 40 and 64 years from the Seattle-Puget Sound region and 534 control men. Prostate cancer risk was estimated using adjusted unconditional logistic regression for both individual SNPs and haplotypes. Risks of disease recurrence/progression and prostate-specific cancer mortality were estimated using Cox proportional hazards regression. Results: We found no strong evidence of altered risk of developing prostate cancer for any of the htSNPs when they were assessed individually or in haplotypes. However, three htSNPs were significantly associated with both disease recurrence/progression and mortality. Risk of recurrence/progression alone was also associated with five additional htSNPs, and six other htSNPS showed evidence of modification by primary androgen deprivation therapy. Two additional htSNPs were significantly associated with altered risk of death from prostate cancer. Conclusions: Preliminary results suggest that common genetic variation within the megalin gene could alter both risk of recurrence/progression and prostate-specific cancer mortality. In addition, androgen deprivation therapy effectiveness may be modified by the activity of this gene. To our knowledge, this is the first study that has examined polymorphisms within the megalin gene for associations with prostate cancer risk and outcomes.

Published

2008

10. Fine mapping of familial prostate cancer families narrows the interval for a susceptibility locus on chromosome 22q12.3 to 1.36 Mb

Author

Laura McIntosh, Bo Johanneson, Danielle M. Karyadi, Scott J. Hebbring, Daniel J. Schaid, Shannon K. McDonnell, Miia Suuriniemi, Kerry Deutsch, Liang Wang, Elaine A. Ostrander, Erika M. Kwon, Janet L. Stanford, and Stephen N. Thibodeau

Subjects

Male, Genetics, Genetic heterogeneity, Chromosomes, Human, Pair 22, Haplotype, Prostatic Neoplasms, Cancer, Locus (genetics), Biology, medicine.disease, Human genetics, Pedigree, Familial prostate cancer, Prostate cancer, Gene mapping, medicine, Humans, Genetic Predisposition to Disease, Lod Score, Genetics (clinical)

Abstract

Genetic studies suggest that hereditary prostate cancer is a genetically heterogeneous disease with multiple contributing loci. Studies of high-risk prostate cancer families selected for aggressive disease, analysis of large multigenerational families, and a meta-analysis from the International Consortium for Prostate Cancer Genetics (ICPCG), all highlight chromosome 22q12.3 as a susceptibility locus with strong statistical significance. Recently, two publications have narrowed the 22q12.3 locus to a 2.18 Mb interval using 54 high-risk families from the ICPCG collaboration, as defined by three recombination events on either side of the locus. In this paper, we present the results from fine mapping studies at 22q12.3 using both haplotype and recombination data from 42 high-risk families contributed from the Mayo Clinic and the Prostate Cancer Genetic Research Study (PROGRESS) mapping studies. No clear consensus interval is present when all families are used. However, in the subset of 14 families with/=5 affected men per family, a 2.53-Mb shared consensus segment that overlaps with the previously published interval is identified. Combining these results with data from the earlier ICPCG study reduces the three-recombination interval at 22q12.3 to approximately 1.36 Mb.

Published

2007

11. Genome-wide linkage scan of prostate cancer Gleason score and confirmation of chromosome 19q

Author

Marta Janer, Daniel J. Schaid, Laura McIntosh, Erin E. Carlson, Janet L. Stanford, Miia Suuriniemi, Lee Hood, Danielle M. Karyadi, Elaine A. Ostrander, Shannon K. McDonnell, and Kerry Deutsch

Subjects

Adult, Male, Oncology, medicine.medical_specialty, Quantitative Trait Loci, Quantitative trait locus, Biology, Prostate cancer, Genetic linkage, Prostate, Internal medicine, Chromosome 19, Genetics, medicine, Humans, Genetics (clinical), Aged, Linkage (software), Genome, Human, Genetic heterogeneity, Chromosome Mapping, Prostatic Neoplasms, Middle Aged, medicine.disease, Pedigree, medicine.anatomical_structure, Microsatellite, Female, Chromosomes, Human, Pair 19, Microsatellite Repeats

Abstract

Despite evidence that prostate cancer has a genetic etiology, it has been extremely difficult to confirm genetic linkage results across studies, emphasizing the large extent of genetic heterogeneity associated with this disease. Because prostate cancer is common--approximately one in six men will be diagnosed with prostate cancer in their life--genetic linkage studies are likely plagued by phenocopies (i.e., men with prostate cancer due to environmental or lifestyle factors), weakly penetrant alleles, or a combination of both, making it difficult to replicate linkage findings. One way to account for heterogeneous causes is to use clinical information that is related to the aggressiveness of disease as an endpoint for linkage analyses. Gleason grade is a measure of prostate tumor differentiation, with higher grades associated with more aggressive disease. This semi-quantitative score has been used as a quantitative trait for linkage analysis in several prior studies. Our aim was to determine if prior linkage reports of Gleason grade to specific loci could be replicated, and to ascertain if new regions of linkage could be found. Gleason scores were available for 391 affected sib pairs from 183 hereditary prostate cancer pedigrees as part of the PROGRESS study. Analyzing Gleason score as a quantitative trait, and using microsatellite markers, suggestive evidence for linkage (P-value

Published

2007

12. Biallelic BRCA2 Mutations Shape the Somatic Mutational Landscape of Aggressive Prostate Tumors

Author

Janet L. Stanford, Danielle M. Karyadi, Lori S. Tillmans, Brian W. Davis, Brennan Decker, Elaine A. Ostrander, Eric Karlins, and Stephen N. Thibodeau

Subjects

0301 basic medicine, Male, Somatic cell, Biology, medicine.disease_cause, Germline, Article, 03 medical and health sciences, Prostate cancer, Germline mutation, Genetics, medicine, Humans, Genetics(clinical), Allele, Indel, Genetics (clinical), Alleles, Aged, BRCA2 Protein, Mutation, High-Throughput Nucleotide Sequencing, Prostatic Neoplasms, Middle Aged, medicine.disease, Prognosis, 030104 developmental biology, Lymphatic Metastasis, Biomarker (medicine)

Abstract

To identify clinically important molecular subtypes of prostate cancer (PCa), we characterized the somatic landscape of aggressive tumors via deep, whole-genome sequencing. In our discovery set of ten tumor/normal subject pairs with Gleason scores of 8–10 at diagnosis, coordinated analysis of germline and somatic variants, including single-nucleotide variants, indels, and structural variants, revealed biallelic BRCA2 disruptions in a subset of samples. Compared to the other samples, the PCa BRCA2-deficient tumors exhibited a complex and highly specific mutation signature, featuring a 2.88-fold increased somatic mutation rate, depletion of context-specific C>T substitutions, and an enrichment for deletions, especially those longer than 10 bp. We next performed a BRCA2 deficiency-targeted reanalysis of 150 metastatic PCa tumors, and each of the 18 BRCA2-mutated samples recapitulated the BRCA2 deficiency-associated mutation signature, underscoring the potent influence of these lesions on somatic mutagenesis and tumor evolution. Among all 21 individuals with BRCA2-deficient tumors, only about half carried deleterious germline alleles. Importantly, the somatic mutation signature in tumors with one germline and one somatic risk allele was indistinguishable from those with purely somatic mutations. Our observations clearly demonstrate that BRCA2-disrupted tumors represent a unique and clinically relevant molecular subtype of aggressive PCa, highlighting both the promise and utility of this mutation signature as a prognostic and treatment-selection biomarker. Further, any test designed to leverage BRCA2 status as a biomarker for PCa must consider both germline and somatic mutations and all types of deleterious mutations.

Published

2015

13. Comparison against 186 canid whole genome sequences reveals survival strategies of an ancient clonally transmissible canine tumor

Author

Heidi G. Parker, Tosso Leeb, Adrienne H. Long, Erica S. Chapman, Jeffery M. Trent, Rebecca Reiman, Vidhya Jagannathan, Elaine A. Ostrander, Danielle M. Karyadi, Cord Drögemüller, Maud Rimbault, Matthew J. Huentelman, Brian W. Davis, Jason J. Corneveaux, Eric Karlins, Robert K. Wayne, and Brennan Decker

Subjects

Somatic cell, Apoptosis, 610 Medicine & health, Biology, Collagen Type XI, Canine transmissible venereal tumor, medicine.disease_cause, Autoantigens, Genome, Myotonin-Protein Kinase, Dogs, Cell Line, Tumor, Genetic variation, Genetics, medicine, Animals, Guanine Nucleotide Exchange Factors, Cell Lineage, Dog Diseases, Allele, Gene, Genetic Association Studies, Phylogeny, Genetics (clinical), Venereal Tumors, Veterinary, Principal Component Analysis, Research, Microfilament Proteins, Genetic Variation, Sequence Analysis, DNA, medicine.disease, CARD Signaling Adaptor Proteins, DNA-Binding Proteins, Immunosurveillance, Mutation, 590 Animals (Zoology), 570 Life sciences, biology, Carcinogenesis, Cell Adhesion Molecules, Heparan Sulfate Proteoglycans

Abstract

Canine transmissible venereal tumor (CTVT) is a parasitic cancer clone that has propagated for thousands of years via sexual transfer of malignant cells. Little is understood about the mechanisms that converted an ancient tumor into the world's oldest known continuously propagating somatic cell lineage. We created the largest existing catalog of canine genome-wide variation and compared it against two CTVT genome sequences, thereby separating alleles derived from the founder's genome from somatic mutations that must drive clonal transmissibility. We show that CTVT has undergone continuous adaptation to its transmissible allograft niche, with overlapping mutations at every step of immunosurveillance, particularly self-antigen presentation and apoptosis. We also identified chronologically early somatic mutations in oncogenesis- and immune-related genes that may represent key initiators of clonal transmissibility. Thus, we provide the first insights into the specific genomic aberrations that underlie CTVT's dogged perseverance in canids around the world.

Published

2015

14. A copy number variant at the KITLG locus likely confers risk for canine squamous cell carcinoma of the digit

Author

Danielle M. Karyadi, Robert K. Wayne, Brennan Decker, Eric Karlins, Gretchen Carpintero-Ramirez, Heidi G. Parker, Bridgett M. vonHoldt, and Elaine A. Ostrander

Subjects

Cancer Research, Linkage disequilibrium, lcsh:QH426-470, Gene Dosage, Locus (genetics), Genome-wide association study, Biology, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Chromosome 15, Dogs, Cancer Genetics, Genome-Wide Association Studies, Genetics, Animals, Humans, SNP, Genetic Predisposition to Disease, Copy-number variation, Allele, Molecular Biology, Alleles, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, Stem Cell Factor, Haplotype, Chromosome Mapping, Genomics, Comparative Genomics, lcsh:Genetics, Enhancer Elements, Genetic, Haplotypes, Trigger Finger Disorder, Genetics of Disease, Mutation, Carcinoma, Squamous Cell, Research Article, Genome-Wide Association Study

Abstract

The domestic dog is a robust model for studying the genetics of complex disease susceptibility. The strategies used to develop and propagate modern breeds have resulted in an elevated risk for specific diseases in particular breeds. One example is that of Standard Poodles (STPOs), who have increased risk for squamous cell carcinoma of the digit (SCCD), a locally aggressive cancer that causes lytic bone lesions, sometimes with multiple toe recurrence. However, only STPOs of dark coat color are at high risk; light colored STPOs are almost entirely unaffected, suggesting that interactions between multiple pathways are necessary for oncogenesis. We performed a genome-wide association study (GWAS) on STPOs, comparing 31 SCCD cases to 34 unrelated black STPO controls. The peak SNP on canine chromosome 15 was statistically significant at the genome-wide level (Praw = 1.60×10−7; Pgenome = 0.0066). Additional mapping resolved the region to the KIT Ligand (KITLG) locus. Comparison of STPO cases to other at-risk breeds narrowed the locus to a 144.9-Kb region. Haplotype mapping among 84 STPO cases identified a minimal region of 28.3 Kb. A copy number variant (CNV) containing predicted enhancer elements was found to be strongly associated with SCCD in STPOs (P = 1.72×10−8). Light colored STPOs carry the CNV risk alleles at the same frequency as black STPOs, but are not susceptible to SCCD. A GWAS comparing 24 black and 24 light colored STPOs highlighted only the MC1R locus as significantly different between the two datasets, suggesting that a compensatory mutation within the MC1R locus likely protects light colored STPOs from disease. Our findings highlight a role for KITLG in SCCD susceptibility, as well as demonstrate that interactions between the KITLG and MC1R loci are potentially required for SCCD oncogenesis. These findings highlight how studies of breed-limited diseases are useful for disentangling multigene disorders., Author Summary Domesticated dogs offer a unique mechanism for disentangling complex genetic traits, such as cancer. Over 300 breeds exist worldwide, each selected for particular morphologic and behavioral traits. Unfortunately the breeding programs used to generate such diversity are associated with breed-specific increase in disease. Squamous cell carcinoma of the digit (SCCD) is a locally aggressive cancer that causes lytic bone lesions and, occasionally, death. Among the breeds with the highest risk is the Standard Poodle (STPO), where the disease is found only in dark-coated dogs. We show that the KITLG locus is highly associated with SCCD and that a 5.7-Kb copy number variant is likely causative for the disease when in an expanded form. Interestingly, light-colored STPO carry the putative causal variant at the same frequency as black STPOs, but are protected from SCCD. We show this is likely due to a compensatory mutation in the well-known coat color locus, MC1R. This work demonstrates the utility of dog breeds for understanding the genetic causes of complex diseases of interest to both human and animal health.

Published

2013

15. A meta-analysis of genome-wide association studies to identify prostate cancer susceptibility loci associated with aggressive and non-aggressive disease

Author

Cao G-W., Joanne L. Dickinson, Gianluca Severi, Tokhir Dadaev, Alan Horwich, S. Lindstrom, Sonja I. Berndt, Jong Y. Park, Shannon K. McDonnell, Lin H-Y., Amit Joshi, Daniel Leongamornlert, Johanna Schleutker, Robert Huddart, Zhang H-W., Ruth Frikke-Schmidt, Melissa C. Southey, Amanda B. Spurdle, Jan Adolfsson, Michael Gaziano, David G. Cox, Elio Riboli, Erika M. Kwon, Jyotsna Batra, K. Govindasami, Amanda L. Hall, Karina Dalsgaard Sørensen, S. Benlloch, E. Saunders, Vanio Mitev, Paula Kujala, Chris Ogden, Peter Kraft, Anssi Auvinen, S. J. Chanock, Vincent Khoo, Kathleen Herkommer, Michael Borre, C. Slavov, Rosalind A. Eeles, Heiko Müller, Lisa A. Cannon-Albright, D J Schaid, David E. Neal, Doug Easton, Tammela Tlj., W. R. Diver, E J Sawyer, Martin Andreas Røder, Afshan Siddiq, Jianfeng Xu, Michelle Guy, Andreas Meyer, Joanne F. Aitken, Shintaro Narita, Michael J. Thun, Malgorzata Tymrakiewicz, James R. Marthick, Torben F. Ørntoft, Lynne T. O'Brien, Edward Giovannucci, R A Wilkinson, Fredrick R. Schumacher, Mariana C. Stern, Zsofia Kote-Jarai, Antje E. Rinckleb, Ahva Shahabi, Jarmo Virtamo, T A Sellers, Christiane Maier, C.R.J. Woodhouse, Pedro Vaz Pinto, Sue A. Ingles, Cezary Cybulski, Jenny L Donovan, Anna M. Ray, Henrik Grönberg, Markus Aly, Kenneth Muir, Suzanne K. Chambers, Tim Dudderidge, Danielle M. Karyadi, Judith A. Clements, Briony Patterson, Susan M. Gapstur, Manuel Luedeke, Demetrius Albanes, Federico Canzian, B. E. Henderson, Elaine A. Ostrander, Thilo Dörk, John L. Hopper, Fredrik Wiklund, Lu Y-J., Timothy J. Key, Meredith Yeager, Robert A. Stephenson, Liesel M. FitzGerald, Robert A. Gardiner, Ali Amin Al Olama, Manuel R. Teixeira, Rudolph Kaaks, David P. Dearnaley, Hermann Brenner, Kathleen A. Cooney, Maren Weischer, Jan Lubinski, Angela Cox, Aritaya Lophatonanon, Ruth C. Travis, Jürgen Serth, Suzanne Kolb, David J. Hunter, Stig E. Bojesen, Felicity Lose, Jonathan J. Morrison, Dominika Wokołorczyk, W. Vogel, W. Isaacs, Freddie C. Hamdy, Siqun L. Zheng, N. van As, A. Thompson, N. Mahmud, Dallas R. English, S. N. Thibodeau, Roman Corral, Janet L. Stanford, Colin Cooper, Norihiko Tsuchiya, Gerald L. Andriole, T. Wahlfors, D Campa, Craig C. Teerlink, Kimmo Taari, Tomonori Habuchi, Esther M. John, Chris Parker, Richard B. Hayes, Dietrich Rothenbacher, João Vasco Santos, Børge G. Nordestgaard, Radka Kaneva, Peter Klarskov, Christopher A. Haiman, Loic Le Marchand, and Graham G. Giles

Subjects

Oncology, Male, genetic association, genotype, Genome-wide association study, urologic and male genital diseases, 0302 clinical medicine, single nucleotide polymorphism, genetic variability, Odds Ratio, Genetics (clinical), Genetics, family history, 0303 health sciences, Association Studies Articles, chromosome 19, General Medicine, cancer susceptibility, prostate cancer, 3. Good health, priority journal, cancer prognosis, cancer staging, gene frequency, gene locus, gene replication, human, meta analysis, 030220 oncology & carcinogenesis, Disease Progression, Medical genetics, medicine.medical_specialty, Quantitative Trait Loci, Single-nucleotide polymorphism, Biology, ta3111, Polymorphism, Single Nucleotide, 03 medical and health sciences, Internal medicine, medicine, Humans, Genetic Predisposition to Disease, Allele, Molecular Biology, Genotyping, 030304 developmental biology, Genetic association, Case-control study, Prostatic Neoplasms, Reproducibility of Results, Odds ratio, ta3122, Case-Control Studies, Genome-Wide Association Study

Abstract

Genome-wide association studies (GWAS) have identified multiple common genetic variants associated with an increased risk of prostate cancer (PrCa), but these explain less than one-third of the heritability. To identify further susceptibility alleles, we conducted a meta-analysis of four GWAS including 5953 cases of aggressive PrCa and 11 463 controls (men without PrCa). We computed association tests for approximately 2.6 million SNPs and followed up the most significant SNPs by genotyping 49 121 samples in 29 studies through the international PRACTICAL and BPC3 consortia. We not only confirmed the association of a PrCa susceptibility locus, rs11672691 on chromosome 19, but also showed an association with aggressive PrCa [odds ratio = 1.12 (95% confidence interval 1.03-1.21), P = 1.4 × 10(-8)]. This report describes a genetic variant which is associated with aggressive PrCa, which is a type of PrCa associated with a poorer prognosis.

Published

2013

16. Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families

Author

Douglas F. Easton, Cheryl D. Cropp, Alice S. Whittemore, Latchezar Dimitrov, Michelle Guy, Danielle M. Karyadi, Monica Emanuelsson, Sarah D. Isaacs, Kathleen A. Cooney, Johanna Schleutker, Rosalind A. Eeles, Olivier Cussenot, Lovise Maehle, Erica J. Childs, William B. Isaacs, Dallas R. English, Scott J. Hebbring, Daniel J. Schaid, Isaac J. Powell, William D. Foulkes, Pål Møller, Josef Hoegel, Teuvo L.J. Tammela, Gianluca Severi, Ingrid Oakley-Girvan, James M. Farnham, Patrick C. Walsh, Lisa A. Cannon-Albright, John D. Carpten, Antoine Valeri, Janet L. Stanford, Geraldine Cancel-Tassin, Michael D. Badzioch, Ethan M. Lange, Asha George, Elaine A. Ostrander, Laura McIntosh, John L. Hopper, Steve Edwards, Joan E. Bailey-Wilson, Stephen N. Thibodeau, Fredrik Wiklund, Jianfeng Xu, Christiane Maier, Sylvia Bochum, Chih-Lin Hsieh, Shannon K. McDonnell, Kerry Deutsch, Nicola J. Camp, Graham G. Giles, Kathleen E. Wiley, and Henrik Grönberg

Subjects

Male, lcsh:Internal medicine, lcsh:QH426-470, Genetic Linkage, Genome-wide association study, Biology, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Genetic linkage, Intensive care, medicine, Genetics, Humans, Genetics(clinical), Genetik, lcsh:RC31-1245, Genetics (clinical), Alleles, 030304 developmental biology, Linkage (software), 0303 health sciences, Chromosomes, Human, X, Genetic heterogeneity, Prostatic Neoplasms, medicine.disease, Penetrance, 3. Good health, lcsh:Genetics, 030220 oncology & carcinogenesis, Microsatellite, Research Article, Genome-Wide Association Study, Microsatellite Repeats

Abstract

Background Genetic variants are likely to contribute to a portion of prostate cancer risk. Full elucidation of the genetic etiology of prostate cancer is difficult because of incomplete penetrance and genetic and phenotypic heterogeneity. Current evidence suggests that genetic linkage to prostate cancer has been found on several chromosomes including the X; however, identification of causative genes has been elusive. Methods Parametric and non-parametric linkage analyses were performed using 26 microsatellite markers in each of 11 groups of multiple-case prostate cancer families from the International Consortium for Prostate Cancer Genetics (ICPCG). Meta-analyses of the resultant family-specific linkage statistics across the entire 1,323 families and in several predefined subsets were then performed. Results Meta-analyses of linkage statistics resulted in a maximum parametric heterogeneity lod score (HLOD) of 1.28, and an allele-sharing lod score (LOD) of 2.0 in favor of linkage to Xq27-q28 at 138 cM. In subset analyses, families with average age at onset less than 65 years exhibited a maximum HLOD of 1.8 (at 138 cM) versus a maximum regional HLOD of only 0.32 in families with average age at onset of 65 years or older. Surprisingly, the subset of families with only 2–3 affected men and some evidence of male-to-male transmission of prostate cancer gave the strongest evidence of linkage to the region (HLOD = 3.24, 134 cM). For this subset, the HLOD was slightly increased (HLOD = 3.47 at 134 cM) when families used in the original published report of linkage to Xq27-28 were excluded. Conclusions Although there was not strong support for linkage to the Xq27-28 region in the complete set of families, the subset of families with earlier age at onset exhibited more evidence of linkage than families with later onset of disease. A subset of families with 2–3 affected individuals and with some evidence of male to male disease transmission showed stronger linkage signals. Our results suggest that the genetic basis for prostate cancer in our families is much more complex than a single susceptibility locus on the X chromosome, and that future explorations of the Xq27-28 region should focus on the subset of families identified here with the strongest evidence of linkage to this region.

Published

2012

17. Seven novel prostate cancer susceptibility loci identified by a multi-stage genome-wide association study

Author

Liesel M. FitzGerald, Zhang H-W., Gianluca Severi, Tokhir Dadaev, W. R. Diver, Olama Aaa., Shintaro Narita, Michael J. Thun, Brian E. Henderson, Hermann Brenner, Kathleen A. Cooney, Elio Riboli, Aritaya Lophatonanon, Gerald L. Andriole, T. Wahlfors, S. N. Thibodeau, Esther M. John, Joanne L. Dickinson, Ruth C. Travis, Timothy J. Christmas, Cezary Cybulski, Antje E. Rinckleb, Danielle M. Karyadi, Daniele Campa, Dominika Wokołorczyk, Michelle Guy, Anne Tybjærg-Hansen, Susan M. Gapstur, David J. Hunter, Briony Patterson, Demetrius Albanes, Rosalind A. Eeles, Alan Horwich, Jarmo Virtamo, Janet L. Stanford, David E. Neal, Andreas Meyer, Timothy J. Key, Meredith Yeager, Roman Corral, Elaine A. Ostrander, Malgorzata Tymrakiewicz, Fredrik Wiklund, Amanda B. Spurdle, Torben F. Ørntoft, Daniel Leongamornlert, Douglas F. Easton, John L. Hopper, Colin Cooper, Suzanne K. Chambers, Dietrich Rothenbacher, A Ray, R A Wilkinson, Peter Kraft, Norihiko Tsuchiya, G.G. Giles, Jenny L Donovan, Sonja I. Berndt, Zsofia Kote-Jarai, Chris Ogden, Peter Klarskov, Christopher A. Haiman, Vanio Mitev, Jonathan J. Morrison, D J Schaid, Freddie C. Hamdy, Martin Andreas Røder, Jan Lubinski, T A Sellers, Stephen J. Chanock, Loic Le Marchand, Christiane Maier, Thilo Dörk, Lisa A. Cannon-Albright, Lu Y-J., Federico Canzian, N. van As, A. Thompson, Heiko Müller, James R. Marthick, Sara Benlloch, Mariana C. Stern, Radka Kaneva, Jong Y. Park, Jürgen Serth, Joanne F. Aitken, Ed Saunders, Johanna Schleutker, Robert Huddart, Tammela Tlj., E J Sawyer, Sue A. Ingles, Markus Aly, Melissa C. Southey, Børge G. Nordestgaard, Felicity Lose, N. Mahmud, Richard B. Hayes, Fredrick R. Schumacher, Chris Parker, Paul D.P. Pharoah, J. M. Farnham, Tomonori Habuchi, Sara Lindström, Maren Weischer, Judith A. Clements, Suzanne Kolb, C.R.J. Woodhouse, Dallas R. English, Kenneth Muir, Angela Cox, Erika M. Kwon, C. Slavov, Shannon K. McDonnell, Lin H-Y., Amanda L. Hall, Karina Dalsgaard Sørensen, Gardiner Raf., Michael Borre, Amit Joshi, Stig E. Bojesen, Jyotsna Batra, Cao G-W., W. Vogel, Vincent Khoo, Lynne T. O'Brien, Henrik Grönberg, A Shahabi, Rudolph Kaaks, David P. Dearnaley, and Robert A. Stephenson

Subjects

Oncology, Adult, Male, medicine.medical_specialty, Genotype, Genome-wide association study, Single-nucleotide polymorphism, Biology, urologic and male genital diseases, Polymorphism, Single Nucleotide, Article, Cohort Studies, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Internal medicine, Genetics, medicine, SNP, Chromosomes, Human, Humans, Genotyping, Telomerase, 030304 developmental biology, Aged, Randomized Controlled Trials as Topic, Aged, 80 and over, 0303 health sciences, Genome, Human, Haplotype, Cancer, Prostatic Neoplasms, Middle Aged, medicine.disease, 3. Good health, 030220 oncology & carcinogenesis, Case-Control Studies, Immunology, Disease Susceptibility, Genome-Wide Association Study

Abstract

Prostate cancer (PrCa) is the most frequently diagnosed male cancer in developed countries. We conducted a multi-stage genome-wide association study for PrCa and previously reported the results of the first two stages, which identified 16 PrCa susceptibility loci. We report here the results of stage 3, in which we evaluated 1,536 SNPs in 4,574 individuals with prostate cancer (cases) and 4,164 controls. We followed up ten new association signals through genotyping in 51,311 samples in 30 studies from the Prostate Cancer Association Group to Investigate Cancer Associated Alterations in the Genome (PRACTICAL) consortium. In addition to replicating previously reported loci, we identified seven new prostate cancer susceptibility loci on chromosomes 2p11, 3q23, 3q26, 5p12, 6p21, 12q13 and Xq12 (P = 4.0 × 10-8 to P = 2.7 × 10-24). We also identified a SNP in TERT more strongly associated with PrCa than that previously reported. More than 40 PrCa susceptibility loci, explaining 425% of the familial risk in this disease, have now been identified. © 2011 Nature America, Inc. All rights reserved.

Published

2011

18. Family-based association analysis of 42 hereditary prostate cancer families identifies the Apolipoprotein L3 region on chromosome 22q12 as a risk locus

Author

Bo Johanneson, Janet L. Stanford, Danielle M. Karyadi, Elaine A. Ostrander, Daniel J. Schaid, Shannon K. McDonnell, Lori S. Tillmans, Stephen N. Thibodeau, Kerry Deutsch, Laura McIntosh, Pascale Quignon, Liesel M. FitzGerald, Gabrielle Williams, Shaun M. Riska, Gregory Johnson, Cancer Genetics Branch, National Institute of Health (NIH)-National Human Genome Research Institute (NHGRI), Division of Biostatistics, Department of Health Sciences Research, Mayo Clinic College of Medicine, Division of Public Health Sciences, Fred Hutchinson Cancer Research Center [Seattle] (FHCRC), Institute for Systems Biology, Department of Laboratory Medicine and Department of Pathology, Department of Epidemiology, University of Washington [Seattle], and De Villemeur, Hervé

Subjects

Male, Linkage disequilibrium, Chromosomes, Human, Pair 22, Population, [SDV.CAN]Life Sciences [q-bio]/Cancer, Pedigree chart, Single-nucleotide polymorphism, Locus (genetics), Electrophoretic Mobility Shift Assay, [SDV.GEN] Life Sciences [q-bio]/Genetics, Biology, Polymorphism, Single Nucleotide, White People, 03 medical and health sciences, 0302 clinical medicine, [SDV.CAN] Life Sciences [q-bio]/Cancer, Genetic linkage, Risk Factors, Genetics, SNP, Humans, Family, Genetic Predisposition to Disease, education, Molecular Biology, Genetics (clinical), Genetic Association Studies, 030304 developmental biology, Aged, [SDV.GEN]Life Sciences [q-bio]/Genetics, 0303 health sciences, education.field_of_study, Association Studies Articles, Prostatic Neoplasms, General Medicine, TATA Box, Pedigree, Apolipoproteins, Genetic marker, Genetic Loci, 030220 oncology & carcinogenesis, Female

Abstract

International audience; Multiple genome-wide scans for hereditary prostate cancer (HPC) have identified susceptibility loci on nearly every chromosome. However, few results have been replicated with statistical significance. One exception is chromosome 22q, for which five independent linkage studies yielded strong evidence for a susceptibility locus in HPC families. Previously, we refined this region to a 2.53 Mb interval, using recombination mapping in 42 linked pedigrees. We now refine this locus to a 15 kb interval, spanning Apolipoprotein L3 (APOL3), using family-based association analyses of 150 total prostate cancer (PC) cases from two independent family collections with 506 unrelated population controls. Analysis of the two independent sets of PC cases highlighted single nucleotide polymorphisms (SNPs) within the APOL3 locus showing the strongest associations with HPC risk, with the most robust results observed when all 150 cases were combined. Analysis of 15 tagSNPs across the 5' end of the locus identified six SNPs with P-values < or =2 × 10(-4). The two independent sets of HPC cases highlight the same 15 kb interval at the 5' end of the APOL3 gene and provide strong evidence that SNPs within this 15 kb interval, or in strong linkage disequilibrium with it, contribute to HPC risk. Further analyses of this locus in an independent population-based, case-control study revealed an association between an SNP within the APOL3 locus and PC risk, which was not confirmed in the Cancer Genetic Markers of Susceptibility data set. This study further characterizes the 22q locus in HPC risk and suggests that the role of this region in sporadic PC warrants additional studies.

Published

2010

19. Identification and characterization of novel SNPs in CHEK2 in Ashkenazi Jewish men with prostate cancer

Author

David J. Novak, Lee Hood, Kenneth Offit, Tomas Kirchhoff, Kathleen A. Cooney, William B. Isaacs, Tarek A. Bismar, Peter S. Nelson, Long Q. Chen, Ahmet Yilmaz, Elaine A. Ostrander, Marc Tischkowitz, Nancy Hamel, Kirsten White, William D. Foulkes, Danielle M. Karyadi, Sean V. Tavtigian, Suzanne Kolb, Janet L. Stanford, Steven A. Narod, and Raquel Aloyz

Subjects

Male, Cancer Research, Population, Single-nucleotide polymorphism, Saccharomyces cerevisiae, Biology, Protein Serine-Threonine Kinases, Polymorphism, Single Nucleotide, Article, Prostate cancer, Exon, Gene Frequency, medicine, Missense mutation, Humans, Genetic Predisposition to Disease, education, skin and connective tissue diseases, Allele frequency, CHEK2, Aged, Genetics, education.field_of_study, Cancer, Prostatic Neoplasms, medicine.disease, Methyl Methanesulfonate, Checkpoint Kinase 2, Oncology, Jews, Mutation

Abstract

Checkpoint kinase 2 (CHEK2) is a protein involved in arresting cell cycle in response to DNA damage. To investigate whether it plays an important role in the development of prostate cancer (PRCA) in the Ashkenazi Jewish (AJ) population, we sequenced CHEK2 in 75 AJ individuals with prostate, breast, or no cancer (n=25 each). We identified seven coding SNPs (five are novel) that changed the amino-acid sequence, resulting in R3W, E394F, Y424H, S428F, D438Y, P509S, and P509L. We determined the frequency of each variant in 76 AJ families collected by members of the International Consortium for Prostate Cancer Genetics (ICPCG) where >or=2 men were affected by PRCA. Only one variant, Y424H in exon 11, was identified in more than two families. Exon 11 was then screened in nine additional AJ ICPCG families (a total of 85 families). The Y424H variant occurred in nine affected cases from four different families; however, it did not completely segregate with the disease. We performed bioinformatics analysis, which showed that Y424H is a non-conservative missense substitution that falls at a position that is invariant in vertebrate CHEK2 orthologs. Both SIFT and Align-GVGD predict that Y424H is a loss of function mutation. However, the frequency of Y424H was not significantly different between unselected AJ cases from Montreal/Memorial Sloan Kettering Cancer Centre (MSKCC) and AJ controls from Israel/MSKCC (OR 1.18, 95%CI: 0.34-4.61, p=.99). Moreover, functional assays using Saccharomyces cerevisiae revealed that the Y424H substitution did not alter function of CHEK2 protein. Although we cannot rule out a subtle influence of the CHEK2 variants on PRCA risk, these results suggest that germline CHEK2 mutations have a minor role in, if any, PRCA susceptibility in AJ men.

Published

2008

20. Genetic Factors: Finding Cancer Susceptibility Genes

Author

Elaine A. Ostrander and Danielle M. Karyadi

Subjects

Genetics, Cancer susceptibility, Biology, Gene

Published

2008

21. Abstract 1536: Whole genome sequencing of high-grade treatment-naïve prostate tumors

Author

Brian W. Davis, Danielle M. Karyadi, Brennan Decker, Stephen N. Thibodeau, Lori S. Tillmans, Eric Karlins, and Elaine A. Ostrander

Subjects

Oncology, Whole genome sequencing, Cancer Research, medicine.medical_specialty, Cancer, Biology, medicine.disease, medicine.disease_cause, Bioinformatics, Somatic evolution in cancer, Metastasis, Prostate cancer, medicine.anatomical_structure, Prostate, Internal medicine, Genotype, medicine, Carcinogenesis

Abstract

Prostate cancer (PCa) will impact one in six American men and many low-risk men endure therapy, while other men die of PCa. Optimal treatment selection depends on distinguishing indolent tumors from those that will cause prostate cancer specific mortality (PCSM). To date, sequencing of prostate tumor DNA has highlighted the fact that prostate tumors develop differently than other cancers. Instead of recurrent protein-altering mutations, many prostate tumors harbor “closed chain” structural rearrangements that may mediate tumor evolution. However, we do not yet understand which somatic mutations are involved in aggressive disease and PCSM. To address this crucial question, we are using whole genome sequencing to pinpoint somatic genetic features in tumor/normal paired samples from four PCSM and six non-PCSM patients with treatment-naïve, Gleason 8+ tumors. Tumor and normal DNA were sequenced to a mean coverage of 95.3X and 48.3X, respectively. Tumor DNA purity ranged from 49%-79% and tumor ploidy ranged from 1.96 to 2.22. To define the genomic landscape of aggressive PCa, we will compare our findings with published studies and genotype high-priority candidates in at least 50 additional low- and high-grade tumors. We will also compare somatic mutations in PCSM versus non-PCSM cases and use network analysis to identify pathways that may be involved in progression and metastasis. Finally, we will characterize the clonal evolution of PCa tumors using deep digital sequencing to distinguish mutations that were present in the original tumor clone from subclonal mutations that arose after oncogenesis. In this way, we aim to identify potential oncogenic drivers and candidate mediators of progression and metastasis. Ultimately, we aim to 1) Uncover somatic mutations that are specific to aggressive tumors 2) Determine whether PCSM tumors have unique genetic features, and 3) Understand the role of clonal evolution in oncogenesis and progression. As more tumors are sequenced, this approach may yield valuable markers for diagnosis, prognosis and treatment selection. Note: This abstract was not presented at the meeting. Citation Format: Brennan J. Decker, Danielle M. Karyadi, Eric Karlins, Brian W. Davis, Lori S. Tillmans, Stephen N. Thibodeau, Elaine A. Ostrander. Whole genome sequencing of high-grade treatment-naïve prostate tumors. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 1536. doi:10.1158/1538-7445.AM2014-1536

Published

2014

22. Abstract 1854: In search of the founder haplotype on 7q11-21 in 18 Jewish prostate cancer families from the PROGRESS study

Author

Elaine A. Ostrander, Danielle M. Karyadi, Hau Hung, Laura McIntosh, Eric Karlins, Peter S. Nelson, Rick Wells, and Janet L. Stanford

Subjects

Genetics, Chromosome 7 (human), Cancer Research, Oncology, Genetic linkage, Mutation (genetic algorithm), Haplotype, Single-nucleotide polymorphism, Copy-number variation, Biology, Haplotype estimation, Founder effect

Abstract

Previously, a combined genome-wide linkage analysis of 36 Jewish prostate cancer (PC) families from the PROGRESS study and Johns Hopkins University identified a region of significant linkage on chromosome 7q11-21. Since the families are all from a single founder population, we hypothesized that the susceptibility mutation is most likely surrounded by a founder haplotype, which would occur more frequently in chromosomes shared by affected men versus other chromosomes in the families. In order to develop a genetic map that was informative enough to identify the founder haplotype, 4852 SNPs were genotyped within the 77.2 Mb three recombination region on chromosome 7. Haplotypes shared amongst all affecteds within a family are termed “case haplotypes” while the remaining haplotypes segregating in each familiy are the “control haplotypes.” We identified haplotype patterns larger than 400 kb that are found more frequently among the case haplotypes compared to the control set. Multiple haplotypes have p-values less than 0.01, but only one region spans several overlapping hits. Although this region only contains 17 RefSeq genes, the area is duplicated several times making identification of the causal variant challenging. We analyzed the region for copy number variations (CNVs) that could theoretically segregate with PC in these families as the long duplicated segment is known to promote large insertions and deletions within the region of interest. To do this, we designed a custom NimbleGen CGH array to cover 2.35 Mb that spanned the entire at-risk haplotype plus an additional 1.55 Mb. No duplication or deletion greater than 100 bp was found to segregate with the PC-associated haplotype. Direct sequencing of the haplotype is challenging due to the multiple duplicate copies in the genome. All of the nonduplicated exons within the PC associated haplotype were sequenced. Of the duplicated exons, we were able to sequence 44 out of 60 using mismatched primers. Thus far, no polymorphism has been identified which segregates only with the at-risk haplotype. We recognize that the susceptibility mutation might affect enhancers or repressors and we are currently sequencing the nonduplicated areas, both upstream and downstream, of genes in the region. Once the susceptibility mutation is identified, we will screen for the mutation in the remaining 18 Hopkins families that participated in the initial linkage study, as well as the remaining 289 PROGRESS families. We will look for the mutation to segregate with disease in these families as a statistical confirmation of the result. If the mutation proves difficult to identify, we will analyze the PC associated haplotype in these same families to confirm it is likely to be the founder haplotype surrounding the mutation. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 1854.

Published

2010