Discovery and systematic characterization of risk variants and genes for coronary artery disease in over a million participants

Biobank Japan; EPIC-CVD; The CARDIoGRAMplusC4D Consortium

doi:10.1038/s41588-022-01233-6

Discovery and systematic characterization of risk variants and genes for coronary artery disease in over a million participants

Biobank Japan, EPIC-CVD, The CARDIoGRAMplusC4D Consortium

Cardiovascular Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

The discovery of genetic loci associated with complex diseases has outpaced the elucidation of mechanisms of disease pathogenesis. Here we conducted a genome-wide association study (GWAS) for coronary artery disease (CAD) comprising 181,522 cases among 1,165,690 participants of predominantly European ancestry. We detected 241 associations, including 30 new loci. Cross-ancestry meta-analysis with a Japanese GWAS yielded 38 additional new loci. We prioritized likely causal variants using functionally informed fine-mapping, yielding 42 associations with less than five variants in the 95% credible set. Similarity-based clustering suggested roles for early developmental processes, cell cycle signaling and vascular cell migration and proliferation in the pathogenesis of CAD. We prioritized 220 candidate causal genes, combining eight complementary approaches, including 123 supported by three or more approaches. Using CRISPR–Cas9, we experimentally validated the effect of an enhancer in MYO9B, which appears to mediate CAD risk by regulating vascular cell motility. Our analysis identifies and systematically characterizes >250 risk loci for CAD to inform experimental interrogation of putative causal mechanisms for CAD.

Original language	English (US)
Pages (from-to)	1803-1815
Number of pages	13
Journal	Nature Genetics
Volume	54
Issue number	12
DOIs	https://doi.org/10.1038/s41588-022-01233-6
State	Published - Dec 2022

ASJC Scopus subject areas

Genetics

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10.1038/s41588-022-01233-6

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@article{d1f4c3004899400e91bad8055d21e8b9,

title = "Discovery and systematic characterization of risk variants and genes for coronary artery disease in over a million participants",

abstract = "The discovery of genetic loci associated with complex diseases has outpaced the elucidation of mechanisms of disease pathogenesis. Here we conducted a genome-wide association study (GWAS) for coronary artery disease (CAD) comprising 181,522 cases among 1,165,690 participants of predominantly European ancestry. We detected 241 associations, including 30 new loci. Cross-ancestry meta-analysis with a Japanese GWAS yielded 38 additional new loci. We prioritized likely causal variants using functionally informed fine-mapping, yielding 42 associations with less than five variants in the 95% credible set. Similarity-based clustering suggested roles for early developmental processes, cell cycle signaling and vascular cell migration and proliferation in the pathogenesis of CAD. We prioritized 220 candidate causal genes, combining eight complementary approaches, including 123 supported by three or more approaches. Using CRISPR–Cas9, we experimentally validated the effect of an enhancer in MYO9B, which appears to mediate CAD risk by regulating vascular cell motility. Our analysis identifies and systematically characterizes >250 risk loci for CAD to inform experimental interrogation of putative causal mechanisms for CAD.",

author = "{Biobank Japan} and EPIC-CVD and {The CARDIoGRAMplusC4D Consortium} and Aragam, {Krishna G.} and Tao Jiang and Anuj Goel and Stavroula Kanoni and Wolford, {Brooke N.} and Atri, {Deepak S.} and Weeks, {Elle M.} and Minxian Wang and George Hindy and Wei Zhou and Christopher Grace and Carolina Roselli and Marston, {Nicholas A.} and Kamanu, {Frederick K.} and Ida Surakka and Venegas, {Loreto Mu{\~n}oz} and Paul Sherliker and Satoshi Koyama and Kazuyoshi Ishigaki and {\AA}svold, {Bj{\o}rn O.} and Brown, {Michael R.} and Ben Brumpton and {de Vries}, {Paul S.} and Olga Giannakopoulou and Panagiota Giardoglou and Gudbjartsson, {Daniel F.} and Ulrich G{\"u}ldener and Haider, {Syed M.Ijlal} and Anna Helgadottir and Maysson Ibrahim and Adnan Kastrati and Thorsten Kessler and Theodosios Kyriakou and Tomasz Konopka and Ling Li and Lijiang Ma and Thomas Meitinger and S{\"o}ren Mucha and Matthias Munz and Federico Murgia and Nielsen, {Jonas B.} and N{\"o}then, {Markus M.} and Shichao Pang and Tobias Reinberger and Gavin Schnitzler and Damian Smedley and Gudmar Thorleifsson and {von Scheidt}, Moritz and Ulirsch, {Jacob C.} and Kullo, {Iftikhar J.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41588-022-01233-6",

language = "English (US)",

volume = "54",

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AU - Biobank Japan

AU - EPIC-CVD

AU - The CARDIoGRAMplusC4D Consortium

AU - Aragam, Krishna G.

AU - Jiang, Tao

AU - Goel, Anuj

AU - Kanoni, Stavroula

AU - Wolford, Brooke N.

AU - Atri, Deepak S.

AU - Weeks, Elle M.

AU - Wang, Minxian

AU - Hindy, George

AU - Zhou, Wei

AU - Grace, Christopher

AU - Roselli, Carolina

AU - Marston, Nicholas A.

AU - Kamanu, Frederick K.

AU - Surakka, Ida

AU - Venegas, Loreto Muñoz

AU - Sherliker, Paul

AU - Koyama, Satoshi

AU - Ishigaki, Kazuyoshi

AU - Åsvold, Bjørn O.

AU - Brown, Michael R.

AU - Brumpton, Ben

AU - de Vries, Paul S.

AU - Giannakopoulou, Olga

AU - Giardoglou, Panagiota

AU - Gudbjartsson, Daniel F.

AU - Güldener, Ulrich

AU - Haider, Syed M.Ijlal

AU - Helgadottir, Anna

AU - Ibrahim, Maysson

AU - Kastrati, Adnan

AU - Kessler, Thorsten

AU - Kyriakou, Theodosios

AU - Konopka, Tomasz

AU - Li, Ling

AU - Ma, Lijiang

AU - Meitinger, Thomas

AU - Mucha, Sören

AU - Munz, Matthias

AU - Murgia, Federico

AU - Nielsen, Jonas B.

AU - Nöthen, Markus M.

AU - Pang, Shichao

AU - Reinberger, Tobias

AU - Schnitzler, Gavin

AU - Smedley, Damian

AU - Thorleifsson, Gudmar

AU - von Scheidt, Moritz

AU - Ulirsch, Jacob C.

AU - Kullo, Iftikhar J.

PY - 2022/12

Y1 - 2022/12

N2 - The discovery of genetic loci associated with complex diseases has outpaced the elucidation of mechanisms of disease pathogenesis. Here we conducted a genome-wide association study (GWAS) for coronary artery disease (CAD) comprising 181,522 cases among 1,165,690 participants of predominantly European ancestry. We detected 241 associations, including 30 new loci. Cross-ancestry meta-analysis with a Japanese GWAS yielded 38 additional new loci. We prioritized likely causal variants using functionally informed fine-mapping, yielding 42 associations with less than five variants in the 95% credible set. Similarity-based clustering suggested roles for early developmental processes, cell cycle signaling and vascular cell migration and proliferation in the pathogenesis of CAD. We prioritized 220 candidate causal genes, combining eight complementary approaches, including 123 supported by three or more approaches. Using CRISPR–Cas9, we experimentally validated the effect of an enhancer in MYO9B, which appears to mediate CAD risk by regulating vascular cell motility. Our analysis identifies and systematically characterizes >250 risk loci for CAD to inform experimental interrogation of putative causal mechanisms for CAD.

AB - The discovery of genetic loci associated with complex diseases has outpaced the elucidation of mechanisms of disease pathogenesis. Here we conducted a genome-wide association study (GWAS) for coronary artery disease (CAD) comprising 181,522 cases among 1,165,690 participants of predominantly European ancestry. We detected 241 associations, including 30 new loci. Cross-ancestry meta-analysis with a Japanese GWAS yielded 38 additional new loci. We prioritized likely causal variants using functionally informed fine-mapping, yielding 42 associations with less than five variants in the 95% credible set. Similarity-based clustering suggested roles for early developmental processes, cell cycle signaling and vascular cell migration and proliferation in the pathogenesis of CAD. We prioritized 220 candidate causal genes, combining eight complementary approaches, including 123 supported by three or more approaches. Using CRISPR–Cas9, we experimentally validated the effect of an enhancer in MYO9B, which appears to mediate CAD risk by regulating vascular cell motility. Our analysis identifies and systematically characterizes >250 risk loci for CAD to inform experimental interrogation of putative causal mechanisms for CAD.

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JO - Nature Genetics

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ER -

Discovery and systematic characterization of risk variants and genes for coronary artery disease in over a million participants

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