Eleven genomic loci affect plasma levels of chronic inflammation marker soluble urokinase-type plasminogen activator receptor
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Published:2021-06-02
Issue:1
Volume:4
Page:
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ISSN:2399-3642
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Container-title:Communications Biology
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language:en
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Short-container-title:Commun Biol
Author:
Dowsett JosephORCID, Ferkingstad EgilORCID, Rasmussen Line Jee Hartmann, Thørner Lise Wegner, Magnússon Magnús K.ORCID, Sugden Karen, Thorleifsson Gudmar, Frigge MikeORCID, Burgdorf Kristoffer Sølvsten, Ostrowski Sisse RyeORCID, Sørensen Erik, Erikstrup ChristianORCID, Pedersen Ole BirgerORCID, Hansen Thomas FolkmannORCID, Banasik KarinaORCID, Brunak SørenORCID, Andersen Steffen, Jemec Gregor, Jennum Poul, Nielsen Rene Kasper, Nyegaard Mette, Paarup Helene Martina, Petersen Mikkel, Werge Thomas, Gudbjartsson Daniel, Stefansson Kari, Þorsteinsdóttir Unnur, Tragante ViniciusORCID, Lund Sigrun HelgaORCID, Stefansdottir Lilja, Gunnarson Bjarni, Poulton RichieORCID, Arseneault LouiseORCID, Caspi Avshalom, Moffitt Terrie E., Gudbjartsson DaníelORCID, Eugen-Olsen Jesper, Stefánsson Hreinn, Stefánsson KáriORCID, Ullum Henrik, , ,
Abstract
AbstractSoluble urokinase-type plasminogen activator receptor (suPAR) is a chronic inflammation marker associated with the development of a range of diseases, including cancer and cardiovascular disease. The genetics of suPAR remain unexplored but may shed light on the biology of the marker and its connection to outcomes. We report a heritability estimate of 60% for the variation in suPAR and performed a genome-wide association meta-analysis on suPAR levels measured in Iceland (N = 35,559) and in Denmark (N = 12,177). We identified 13 independently genome-wide significant sequence variants associated with suPAR across 11 distinct loci. Associated variants were found in and around genes encoding uPAR (PLAUR), its ligand uPA (PLAU), the kidney-disease-associated gene PLA2R1 as well as genes with relations to glycosylation, glycoprotein biosynthesis, and the immune response. These findings provide new insight into the causes of variation in suPAR plasma levels, which may clarify suPAR’s potential role in associated diseases, as well as the underlying mechanisms that give suPAR its prognostic value as a unique marker of chronic inflammation.
Funder
Det Frie Forskningsråd Aase og Ejnar Danielsens Fond Novo Nordisk Fonden The Danish Regions Lundbeckfonden The Innovative Medicines Initiative 2 Joint Undertaking Innovationsfonden
Publisher
Springer Science and Business Media LLC
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,Medicine (miscellaneous)
Reference88 articles.
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