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Genome-Wide Association Study of Peripheral Artery Disease.
van Zuydam, Natalie R; Stiby, Alexander; Abdalla, Moustafa; Austin, Erin; Dahlström, Emma H; McLachlan, Stela; Vlachopoulou, Efthymia; Ahlqvist, Emma; Di Liao, Chen; Sandholm, Niina; Forsblom, Carol; Mahajan, Anubha; Robertson, Neil R; Rayner, N William; Lindholm, Eero; Sinisalo, Juha; Perola, Markus; Kallio, Milla; Weiss, Emily; Price, Jackie; Paterson, Andrew; Klein, Barbara; Salomaa, Veikko; Palmer, Colin N A; Groop, Per-Henrik; Groop, Leif; McCarthy, Mark I; de Andrade, Mariza; Morris, Andrew P; Hopewell, Jemma C; Colhoun, Helen M; Kullo, Iftikhar J.
Affiliation
  • van Zuydam NR; Department of Immunology, Genetics and Pathology, Science for Life Laboratory, Uppsala University, Sweden (N.R.v.Z.).
  • Stiby A; Wellcome Centre for Human Genetics, Nuffield Department of Medicine (N.R.v.Z., M.A., A.M., N.R.R., N.W.R., M.I.M., A.P.M.), University of Oxford, United Kingdom.
  • Abdalla M; Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine (N.R.v.Z., A.M., N.R.R., N.W.R., M.I.M.), University of Oxford, United Kingdom.
  • Austin E; Clinical Trial Service Unit and Epidemiological Studies Unit, Nuffield Department of Population Health (A.S., J.C.H.), University of Oxford, United Kingdom.
  • Dahlström EH; Wellcome Centre for Human Genetics, Nuffield Department of Medicine (N.R.v.Z., M.A., A.M., N.R.R., N.W.R., M.I.M., A.P.M.), University of Oxford, United Kingdom.
  • McLachlan S; Department of Cardiovascular Medicine and the Gonda Vascular Center, Mayo Clinic, Rochester, MN (E. Austin, M.d.A., I.J.K.).
  • Vlachopoulou E; Folkhälsan Institute of Genetics, Folkhälsan Research Center, Helsinki, Finland (E.H.D., N.S., C.F., P.-H.G.).
  • Ahlqvist E; Abdominal Center, Nephrology (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Di Liao C; Helsinki University Hospital, Research Program for Clinical and Molecular Metabolism, Faculty of Medicine (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Sandholm N; Usher Institute of Population Health Sciences and Informatics, The University of Edinburgh, United Kingdom (S.M., E.W., J.P.).
  • Forsblom C; Department of Medicine, Helsinki University Central Hospital (E.V.), University of Helsinki, Finland.
  • Mahajan A; Genomics, Diabetes and Endocrinology, Lund University Diabetes Centre, Malmö, Sweden (E. Ahlqvist, E.L., L.G.).
  • Robertson NR; Dalla Lana School of Public Health, University of Toronto, ON, Canada (C.D.L., A.P.).
  • Rayner NW; Genetics & Genome Biology, SickKids, Toronto, ON, Canada (C.D.L., A.P.).
  • Lindholm E; Folkhälsan Institute of Genetics, Folkhälsan Research Center, Helsinki, Finland (E.H.D., N.S., C.F., P.-H.G.).
  • Sinisalo J; Abdominal Center, Nephrology (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Perola M; Helsinki University Hospital, Research Program for Clinical and Molecular Metabolism, Faculty of Medicine (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Kallio M; Folkhälsan Institute of Genetics, Folkhälsan Research Center, Helsinki, Finland (E.H.D., N.S., C.F., P.-H.G.).
  • Weiss E; Abdominal Center, Nephrology (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Price J; Helsinki University Hospital, Research Program for Clinical and Molecular Metabolism, Faculty of Medicine (E.H.D., N.S., C.F., P.-H.G.), University of Helsinki, Finland.
  • Paterson A; Wellcome Centre for Human Genetics, Nuffield Department of Medicine (N.R.v.Z., M.A., A.M., N.R.R., N.W.R., M.I.M., A.P.M.), University of Oxford, United Kingdom.
  • Klein B; Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine (N.R.v.Z., A.M., N.R.R., N.W.R., M.I.M.), University of Oxford, United Kingdom.
  • Salomaa V; Now with Genentech, South San Francisco, CA (A.M., M.I.M.).
  • Palmer CNA; Wellcome Centre for Human Genetics, Nuffield Department of Medicine (N.R.v.Z., M.A., A.M., N.R.R., N.W.R., M.I.M., A.P.M.), University of Oxford, United Kingdom.
  • Groop PH; Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine (N.R.v.Z., A.M., N.R.R., N.W.R., M.I.M.), University of Oxford, United Kingdom.
  • Groop L; Wellcome Centre for Human Genetics, Nuffield Department of Medicine (N.R.v.Z., M.A., A.M., N.R.R., N.W.R., M.I.M., A.P.M.), University of Oxford, United Kingdom.
  • McCarthy MI; Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine (N.R.v.Z., A.M., N.R.R., N.W.R., M.I.M.), University of Oxford, United Kingdom.
  • de Andrade M; Department of Human Genetics, Wellcome Trust Sanger Institute, Hinxton, Cambridgeshire, United Kingdom (N.W.R.).
  • Morris AP; Genomics, Diabetes and Endocrinology, Lund University Diabetes Centre, Malmö, Sweden (E. Ahlqvist, E.L., L.G.).
  • Hopewell JC; Heart and Lung Center (J.S.), University of Helsinki, Finland.
  • Colhoun HM; Institute for Molecular Medicine Finland (FIMM) (M.P., L.G.), University of Helsinki, Finland.
  • Kullo IJ; Finnish Institute for Health and Welfare, Helsinki, Finland (M.P., V.S.).
Circ Genom Precis Med ; 14(5): e002862, 2021 10.
Article in En | MEDLINE | ID: mdl-34601942
ABSTRACT

BACKGROUND:

Peripheral artery disease (PAD) affects >200 million people worldwide and is associated with high mortality and morbidity. We sought to identify genomic variants associated with PAD overall and in the contexts of diabetes and smoking status.

METHODS:

We identified genetic variants associated with PAD and then meta-analyzed with published summary statistics from the Million Veterans Program and UK Biobank to replicate their findings. Next, we ran stratified genome-wide association analysis in ever smokers, never smokers, individuals with diabetes, and individuals with no history of diabetes and corresponding interaction analyses, to identify variants that modify the risk of PAD by diabetic or smoking status.

RESULTS:

We identified 5 genome-wide significant (Passociation ≤5×10-8) associations with PAD in 449 548 (Ncases=12 086) individuals of European ancestry near LPA (lipoprotein [a]), CDKN2BAS1 (CDKN2B antisense RNA 1), SH2B3 (SH2B adaptor protein 3) - PTPN11 (protein tyrosine phosphatase non-receptor type 11), HDAC9 (histone deacetylase 9), and CHRNA3 (cholinergic receptor nicotinic alpha 3 subunit) loci (which overlapped previously reported associations). Meta-analysis with variants previously associated with PAD showed that 18 of 19 published variants remained genome-wide significant. In individuals with diabetes, rs116405693 at the CCSER1 (coiled-coil serine rich protein 1) locus was associated with PAD (odds ratio [95% CI], 1.51 [1.32-1.74], Pdiabetes=2.5×10-9, Pinteractionwithdiabetes=5.3×10-7). Furthermore, in smokers, rs12910984 at the CHRNA3 locus was associated with PAD (odds ratio [95% CI], 1.15 [1.11-1.19], Psmokers=9.3×10-10, Pinteractionwithsmoking=3.9×10-5).

CONCLUSIONS:

Our analyses confirm the published genetic associations with PAD and identify novel variants that may influence susceptibility to PAD in the context of diabetes or smoking status.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Genetic Predisposition to Disease / Polymorphism, Single Nucleotide / Peripheral Arterial Disease Type of study: Prognostic_studies / Risk_factors_studies Limits: Female / Humans / Male Language: En Journal: Circ Genom Precis Med Year: 2021 Document type: Article
Fulltext
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Genetic Predisposition to Disease / Polymorphism, Single Nucleotide / Peripheral Arterial Disease Type of study: Prognostic_studies / Risk_factors_studies Limits: Female / Humans / Male Language: En Journal: Circ Genom Precis Med Year: 2021 Document type: Article