Increased soluble urokinase plasminogen activator levels modulate monocyte function to promote atherosclerosis
Date
2022Author
Hindy, GeorgeTyrrell, Daniel J.
Vasbinder, Alexi
Wei, Changli
Presswalla, Feriel
Wang, Hui
Blakely, Pennelope
Ozel, Ayse Bilge
Graham, Sarah
Holton, Grace H.
Dowsett, Joseph
Fahed, Akl C.
Michael Amadi, Kingsley
Erne, Grace K.
Tekmulla, Annika
Ismail, Anis
Launius, Christopher
Sotoodehnia, Nona
Pankow, James S.
Thørner, Lise Wegner
Erikstrup, Christian
Pedersen, Ole Birger
Banasik, Karina
Brunak, Søren
Ullum, Henrik
Eugen-Olsen, Jesper
Ostrowski, Sisse Rye
Haas, Mary E.
Nielsen, Jonas B.
Lotta, Luca A.
Engström, Gunnar
Melander, Olle
Orho-Melander, Marju
Zhao, Lili
Murthy, Venkatesh L.
Pinsky, David J.
Willer, Cristen J.
Heckbert, Susan R.
Reiser, Jochen
Goldstein, Daniel R.
Desch, Karl C.
Hayek, Salim S.
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Metadata
Show full item recordAbstract
People with kidney disease are disproportionately affected by atherosclerosis for unclear reasons. Soluble urokinase plasminogen activator receptor (suPAR) is an immune-derived mediator of kidney disease, levels of which are strongly associated with cardiovascular outcomes. We assessed suPAR's pathogenic involvement in atherosclerosis using epidemiologic, genetic, and experimental approaches. We found serum suPAR levels to be predictive of coronary artery calcification and cardiovascular events in 5,406 participants without known coronary disease. In a genome-wide association meta-analysis including over 25,000 individuals, we identified a missense variant in the plasminogen activator, urokinase receptor (PLAUR) gene (rs4760), confirmed experimentally to lead to higher suPAR levels. Mendelian randomization analysis in the UK Biobank using rs4760 indicated a causal association between genetically predicted suPAR levels and atherosclerotic phenotypes. In an experimental model of atherosclerosis, proprotein convertase subtilisin/kexin-9 (Pcsk9) transfection in mice overexpressing suPAR (suPARTg) led to substantially increased atherosclerotic plaques with necrotic cores and macrophage infiltration compared with those in WT mice, despite similar cholesterol levels. Prior to induction of atherosclerosis, aortas of suPARTg mice excreted higher levels of CCL2 and had higher monocyte counts compared with WT aortas. Aortic and circulating suPARTg monocytes exhibited a proinflammatory profile and enhanced chemotaxis. These findings characterize suPAR as a pathogenic factor for atherosclerosis acting at least partially through modulation of monocyte function.
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