Meta-analysis of genome-wide associations and polygenic risk prediction for atrial fibrillation in more than 180,000 cases

对超过18万例房颤病例进行全基因组关联和多基因风险预测的荟萃分析

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作者:Roselli,Carolina,Surakka,Ida,Olesen,Morten S,Sveinbjornsson,Gardar,Marston,Nicholas A,Choi,Seung Hoan,Holm,Hilma,Chaffin,Mark,Gudbjartsson,Daniel,Hill,Matthew C,Aegisdottir,Hildur,Albert,Christine M,Alonso,Alvaro,Anderson,Christopher D,Arking,Dan E,Arnar,David O,Barnard,John,Benjamin,Emelia J,Braunwald,Eugene,Brumpton,Ben,Campbell,Archie,Chami,Nathalie,Chasman,Daniel I,Cho,Kelly,Choi,Eue-Keun,Christophersen,Ingrid E,Chung,Mina K,Conen,David,Crijns,Harry J,Cutler,Michael J,Czuba,Tomasz,Damrauer,Scott M,Dichgans,Martin,Dörr,Marcus,Dudink,Elton,Duong,ThuyVy,Erikstrup,Christian,Esko,Tõnu,Fatkin,Diane,Faul,Jessica D,Ferreira,Manuel,Freitag,Daniel F,Ganesh,Santhi K,Gaziano,J Michael,Geelhoed,Bastiaan,Ghouse,Jonas,Gieger,Christian,Giulianini,Franco,Graham,Sarah E,Gudnason,Vilmundur,Guo,Xiuqing,Haggerty,Christopher,Hayward,Caroline,Heckbert,Susan R,Hveem,Kristian,Ito,Kaoru,Johnson,Renee,Jukema,J Wouter,Jurgens,Sean J,Kääb,Stefan,Kane,John P,Kany,Shinwan,Kardia,Sharon L R,Kavousi,Maryam,Khurshid,Shaan,Kamanu,Frederick K,Kirchhof,Paulus,Kleber,Marcus E,Knight,Stacey,Komuro,Issei,Krieger,Jose E,Launer,Lenore J,Li,Dadong,Lin,Honghuang,Lin,Henry J,Loos,Ruth J F,Lotta,Luca,Lubitz,Steven A,Lunetta,Kathryn L,Macfarlane,Peter W,Magnusson,Patrik K E,Malik,Rainer,Mantineo,Helene,Marcus,Gregory M,März,Winfried,McManus,David D,Melander,Olle,Melloni,Giorgio E M,Meyre,Pascal B,Miyazawa,Kazuo,Mohanty,Sanghamitra,Monfort,Laia M,Müller-Nurasyid,Martina,Nafissi,Navid A,Natale,Andrea,Nazarian,Saman,Ostrowski,Sisse R,Pak,Hui-Nam,Pang,Shichao,Pedersen,Ole B,Pedersen,Nancy L,Pereira,Alexandre C,Pirruccello,James P,Preuss,Michael,Psaty,Bruce M,Pullinger,Clive R,Rader,Daniel J,Rämö,Joel T,Ridker,Paul M,Rienstra,Michiel,Risch,Lorenz,Roden,Dan M,Rotter,Jerome I,Sabatine,Marc S,Schunkert,Heribert,Shah,Svati H,Shim,Jaemin,Shoemaker,M Benjamin,Simonson,Bridget,Sinner,Moritz F,Smit,Roelof A J,Smith,Jennifer A,Smith,Nicholas L,Smith,J Gustav,Soliman,Elsayed Z,Sørensen,Erik,Sotoodehnia,Nona,Strbian,Daniel,Stricker,Bruno H,Teder-Laving,Maris,Sun,Yan V,Thériault,Sébastien,Thorolfsdottir,Rosa B,Thorsteinsdottir,Unnur,Tveit,Arnljot,van der Harst,Pim,van Meurs,Joyce,Wang,Biqi,Weiss,Stefan,Wells,Quinn S,Weng,Lu-Chen,Wilson,Peter W,Xiao,Ling,Yang,Pil-Sung,Yao,Jie,Yoneda,Zachary T,Zeller,Tanja,Zeng,Lingyao,Zhao,Wei,Zhou,Xiang,Zöllner,Sebastian,Ruff,Christian T,Bundgaard,Henning,Willer,Cristen,Stefansson,Kari,Ellinor,Patrick T
期刊:Nature Genetics影响因子:
时间:2025起止号:2025 Mar;57(3):539-547
doi:10.1038/s41588-024-02072-3

Abstract

Atrial fibrillation (AF) is the most common heart rhythm abnormality and is a leading cause of heart failure and stroke. This large-scale meta-analysis of genome-wide association studies increased the power to detect single-nucleotide variant associations and found more than 350 AF-associated genetic loci. We identified candidate genes related to muscle contractility, cardiac muscle development and cell-cell communication at 139 loci. Furthermore, we assayed chromatin accessibility using assay for transposase-accessible chromatin with sequencing and histone H3 lysine 4 trimethylation in stem cell-derived atrial cardiomyocytes. We observed a marked increase in chromatin accessibility for our sentinel variants and prioritized genes in atrial cardiomyocytes. Finally, a polygenic risk score (PRS) based on our updated effect estimates improved AF risk prediction compared to the CHARGE-AF clinical risk score and a previously reported PRS for AF. The doubling of known risk loci will facilitate a greater understanding of the pathways underlying AF.

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