Integrative multi-omics analyses to identify the genetic and functional mechanisms underlying ovarian cancer risk regions

被引:3
|
作者
Dareng, Eileen O. [3 ]
Coetzee, Simon G. [1 ,2 ]
Tyrer, Jonathan P. [5 ]
Peng, Pei-Chen [1 ,2 ]
Rosenow, Will [4 ]
Chen, Stephanie [1 ,2 ,6 ]
Davis, Brian D. [1 ,2 ,6 ]
Dezem, Felipe Segato [1 ,2 ]
Seo, Ji-Heui [7 ,8 ]
Nameki, Robbin [9 ,10 ]
Reyes, Alberto L. [1 ,2 ]
Aben, Katja K. H. [11 ,12 ]
Anton-Culver, Hoda [13 ]
Antonenkova, Natalia N. [14 ]
Aravantinos, Gerasimos [15 ]
Bandera, Elisa V. [16 ]
Freeman, Laura E. Beane [17 ]
Beckmann, Matthias W. [18 ]
Beeghly-Fadiel, Alicia [19 ]
Benitez, Javier [20 ,21 ]
Bernardini, Marcus Q. [22 ]
Bjorge, Line [23 ,24 ]
Black, Amanda [25 ]
Bogdanova, Natalia V. [14 ,26 ,27 ]
Bolton, Kelly L. [28 ]
Brenton, James D. [29 ]
Budzilowska, Agnieszka [30 ]
Butzow, Ralf [31 ]
Cai, Hui [19 ]
Campbell, Ian [32 ,33 ]
Cannioto, Rikki [34 ]
Chang-Claude, Jenny [35 ,36 ]
Chanock, Stephen J. [17 ]
Chen, Kexin [37 ]
Chenevix-Trench, Georgia [38 ]
Chiew, Yoke-Eng [39 ]
Cook, Linda S. [41 ,42 ]
DeFazio, Anna [39 ,40 ,43 ]
Dennis, Joe [3 ]
Doherty, Jennifer A. [44 ]
Doerk, Thilo [27 ]
du Bois, Andreas [45 ,46 ]
Duerst, Matthias [47 ]
Eccles, Diana M. [48 ]
Ene, Gabrielle [22 ]
Fasching, Peter A. [18 ]
Flanagan, James M. [49 ]
Fortner, Renee T. [35 ]
Fostira, Florentia [50 ]
Gentry-Maharaj, Aleksandra [51 ]
机构
[1] Cedars Sinai Med Ctr, Cedars Sinai Genom Core, Los Angeles, CA 90048 USA
[2] Cedars Sinai Med Ctr, Ctr Bioinformat & Funct Genom, Los Angeles, CA 90048 USA
[3] Univ Cambridge, Dept Publ Hlth & Primary Care, Ctr Canc Genet Epidemiol, Cambridge, England
[4] Univ Virginia, Dept Publ Hlth Sci, Charlottesville, VA USA
[5] Univ Cambridge, Dept Oncol, Ctr Canc Genet Epidemiol, Cambridge, England
[6] Cedars Sinai Med Ctr, Appl Gen Computat & Translat Core, Los Angeles, CA 90048 USA
[7] Dana Farber Canc Inst, Dept Med Oncol, Boston, MA 02115 USA
[8] Dana Farber Canc Inst, Ctr Funct Canc Epigenet, Boston, MA 02115 USA
[9] Cedars Sinai Med Ctr, Samuel Oschin Comprehens Canc Inst, Womens Canc Program, Los Angeles, CA 90048 USA
[10] Cedars Sinai Med Ctr, Dept Obstet & Gynecol, Div Gynecol Oncol, Los Angeles, CA 90048 USA
[11] Radboud Univ Nijmegen, Radboud Inst Hlth Sci, Med Ctr, Nijmegen, Netherlands
[12] Netherlands Comprehens Canc Org, Utrecht, Netherlands
[13] Univ Calif Irvine, Genet Epidemiol Res Inst, Dept Med, Irvine, CA USA
[14] N N Alexandrov Res Inst Oncol & Med Radiol, Minsk, BELARUS
[15] Agii Anargiri Canc Hosp, Athens, Greece
[16] Rutgers Canc Inst New Jersey, Canc Prevent & Control Program, New Brunswick, NJ USA
[17] NCI, Dept Hlth & Human Serv, Div Canc Epidemiol & Genet, NIH, Bethesda, MD USA
[18] Friedrich Alexander Univ Erlangen Nuremberg, Univ Hosp Erlangen, Dept Gynecol & Obstet, Comprehens Canc Ctr Erlangen EMN, Erlangen, Germany
[19] Vanderbilt Univ, Div Epidemiol, Dept Med,Sch Med, Vanderbilt Epidemiol Ctr,Vanderbilt Ingram Canc C, Nashville, TN USA
[20] Spanish Natl Canc Res Ctr CNIO, Human Genet Grp, Madrid, Spain
[21] Inst Salud Carlos III, Ctr Biomed Network Res Rare Dis CIBERER, Madrid, Spain
[22] Univ Hlth Network, Princess Margaret Hosp, Div Gynecol Oncol, Toronto, ON, Canada
[23] Haukeland Hosp, Dept Obstet & Gynecol, Bergen, Norway
[24] Univ Bergen, Dept Clin Sci, Ctr Canc Biomarkers CCBIO, Bergen, Norway
[25] NCI, Div Canc Epidemiol & Genet, Bethesda, MD USA
[26] Hannover Med Sch, Dept Radiat Oncol, Hannover, Germany
[27] Hannover Med Sch, Gynaecol Res Unit, Hannover, Germany
[28] Washington Univ, Div Biol & Biomed Sci, St Louis, MO USA
[29] Univ Cambridge, Canc Res UK, Cambridge Inst, Cambridge, England
[30] Maria Sklodowska Curie Natl Res Inst Oncol, Dept Pathol & Lab Diagnost, Warsaw, Poland
[31] Univ Helsinki, Helsinki Univ Hosp, Dept Pathol, Helsinki, Finland
[32] Peter MacCallum Canc Ctr, Div Res, Canc Genet Lab, Melbourne, Vic, Australia
[33] Univ Melbourne, Sir Peter MacCallum Dept Oncol, Melbourne, Vic, Australia
[34] Roswell Pk Comprehens Canc Ctr, Div Canc Prevent & Populat Sci, Canc Pathol & Prevent, Buffalo, NY USA
[35] German Canc Res Ctr, Div Canc Epidemiol, Heidelberg, Germany
[36] Univ Med Ctr Hamburg Eppendorf, Univ Canc Ctr Hamburg UCCH, Canc Epidemiol Grp, Hamburg, Germany
[37] Tianjin Med Univ, Canc Inst & Hosp, Dept Epidemiol, Tianjin, Peoples R China
[38] QIMR Berghofer Med Res Inst, Dept Genet & Computat Biol, Brisbane, Qld, Australia
[39] Westmead Inst Med Res, Ctr Canc Res, Sydney, NSW, Australia
[40] Westmead Hosp, Dept Gynaecol Oncol, Sydney, NSW, Australia
[41] Univ Colorado, Sch Publ Hlth, Epidemiol, Aurora, CO USA
[42] Univ Calgary, Community Hlth Sci, Calgary, AB, Canada
[43] Univ Sydney, Canc Council NSW, Daffodil Ctr, Sydney, NSW, Australia
[44] Univ Utah, Huntsman Canc Inst, Dept Populat Hlth Sci, Salt Lake City, UT USA
[45] Dr Horst Schmidt Klin, Dept Gynecol & Gynecol Oncol, HSK, Wiesbaden, Wiesbaden, Germany
[46] Evangel Kliniken Essen Mitte KEM, Dept Gynecol & Gynecol Oncol, Essen, Germany
[47] Friedrich Schiller Univ, Dept Gynaecol, Jena Univ Hosp, Jena, Germany
[48] Univ Southampton, Fac Med, Southampton, Hants, England
[49] Imperial Coll London, Div Canc & Ovarian Canc Action Res Ctr, Dept Surg & Canc, London, England
[50] Natl Ctr Sci Res Demokritos, Mol Diagnost Lab, INRASTES, Athens, Greece
来源
AMERICAN JOURNAL OF HUMAN GENETICS | 2024年 / 111卷 / 06期
关键词
GENOME-WIDE ASSOCIATION; SUSCEPTIBILITY LOCI; PARTITIONING HERITABILITY; GERMLINE MUTATIONS; CELL-TYPES; BREAST; ENHANCERS; VARIANTS; IDENTIFICATION; METAANALYSIS;
D O I
10.1016/j.ajhg.2024.04.011
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
To identify credible causal risk variants (CCVs) associated with different histotypes of epithelial ovarian cancer (EOC), we performed genome-wide association analysis for 470,825 genotyped and 10,163,797 imputed SNPs in 25,981 EOC cases and 105,724 controls of European origin. We identified five histotype-specific EOC risk regions (p value <5 x 10(-8)) and confirmed previously reported associations for 27 risk regions. Conditional analyses identified an additional 11 signals independent of the primary signal at six risk regions (p value <10(-5)). Fine mapping identified 4,008 CCVs in these regions, of which 1,452 CCVs were located in ovarian cancer-related chromatin marks with significant enrichment in active enhancers, active promoters, and active regions for CCVs from each EOC histotype. Transcriptome-wide association and colocalization analyses across histotypes using tissue-specific and cross-tissue datasets identified 86 candidate susceptibility genes in known EOC risk regions and 32 genes in 23 additional genomic regions that may represent novel EOC risk loci (false discovery rate <0.05). Finally, by integrating genome-wide HiChIP interactome analysis with transcriptome-wide association study (TWAS), variant effect predictor, transcription factor ChIP-seq, and motifbreakR data, we identified candidate gene-CCV interactions at each locus. This included risk loci where TWAS identified one or more candidate susceptibility genes (e.g., HOXD-AS2, HOXD8, and HOXD3 at 2q31) and other loci where no candidate gene was identified (e.g., MYC and PVT1 at 8q24) by TWAS. In summary, this study describes a functional framework and provides a greater understanding of the biological significance of risk alleles and candidate gene targets at EOC susceptibility loci identified by a genome-wide association study.
引用
收藏
页码:1061 / 1083
页数:23
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