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Literature DB >> 26486471

Genome-wide association studies identify genetic loci for low von Willebrand factor levels.

Janine van Loon¹, Abbas Dehghan², Tang Weihong³, Stella Trompet⁴, Wendy L McArdle⁵, Folkert W Asselbergs^6,7, Ming-Huei Chen⁸, Lorna M Lopez^9,10, Jennifer E Huffman¹¹, Frank W G Leebeek¹, Saonli Basu³, David J Stott¹², Ann Rumley¹³, Ron T Gansevoort¹⁴, Gail Davies^9,15, James J F Wilson¹¹, Jacqueline C M Witteman², Xiting Cao¹⁶, Anton J M de Craen¹⁷, Stephan J L Bakker¹⁴, Bruce M Psaty⁸, John M Starr^9,10, Albert Hofman², J Wouter Jukema⁴, Ian J Deary^9,15, Caroline Hayward¹¹, Pim van der Harst¹⁴, Gordon D O Lowe¹², Aaron R Folsom³, David P Strachan¹³, Nicolas Smith^18,19,20, Moniek P M de Maat¹, Christopher O'Donnell⁸.

Abstract

Low von Willebrand factor (VWF) levels are associated with bleeding symptoms and are a diagnostic criterion for von Willebrand disease, the most common inherited bleeding disorder. To date, it is unclear which genetic loci are associated with reduced VWF levels. Therefore, we conducted a meta-analysis of genome-wide association studies to identify genetic loci associated with low VWF levels. For this meta-analysis, we included 31 149 participants of European ancestry from 11 community-based studies. From all participants, VWF antigen (VWF:Ag) measurements and genome-wide single-nucleotide polymorphism (SNP) scans were available. Each study conducted analyses using logistic regression of SNPs on dichotomized VWF:Ag measures (lowest 5% for blood group O and non-O) with an additive genetic model adjusted for age and sex. An inverse-variance weighted meta-analysis was performed for VWF:Ag levels. A total of 97 SNPs exceeded the genome-wide significance threshold of 5 × 10(-8) and comprised five loci on four different chromosomes: 6q24 (smallest P-value 5.8 × 10(-10)), 9q34 (2.4 × 10(-64)), 12p13 (5.3 × 10(-22)), 12q23 (1.2 × 10(-8)) and 13q13 (2.6 × 10(-8)). All loci were within or close to genes, including STXBP5 (Syntaxin Binding Protein 5) (6q24), STAB5 (stabilin-5) (12q23), ABO (9q34), VWF (12p13) and UFM1 (ubiquitin-fold modifier 1) (13q13). Of these, UFM1 has not been previously associated with VWF:Ag levels. Four genes that were previously associated with VWF levels (VWF, ABO, STXBP5 and STAB2) were also associated with low VWF levels, and, in addition, we identified a new gene, UFM1, that is associated with low VWF levels. These findings point to novel mechanisms for the occurrence of low VWF levels.

Entities: Chemical

Mesh：

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Year: 2015 PMID： 26486471 PMCID： PMC5070882 DOI： 10.1038/ejhg.2015.222

Source DB: PubMed Journal: Eur J Hum Genet ISSN： 1018-4813 Impact factor: 4.246

44 in total

Review 1. Regulation of Weibel-Palade body exocytosis.

Authors: Charles J Lowenstein; Craig N Morrell; Munekazu Yamakuchi
Journal: Trends Cardiovasc Med Date: 2005-11 Impact factor: 6.677

2. Genetic determinants of plasma von Willebrand factor antigen levels: a target gene SNP and haplotype analysis of ARIC cohort.

Authors: Marco Campos; Wei Sun; Fuli Yu; Maja Barbalic; Weihong Tang; Lloyd E Chambless; Kenneth K Wu; Christie Ballantyne; Aaron R Folsom; Eric Boerwinkle; Jing-Fei Dong
Journal: Blood Date: 2011-02-22 Impact factor: 22.113

3. CLEC4M and STXBP5 gene variations contribute to von Willebrand factor level variation in von Willebrand disease.

Authors: Y V Sanders; J G van der Bom; A Isaacs; M H Cnossen; M P M de Maat; B A P Laros-van Gorkom; K Fijnvandraat; K Meijer; C M van Duijn; E P Mauser-Bunschoten; J Eikenboom; F W G Leebeek
Journal: J Thromb Haemost Date: 2015-05-09 Impact factor: 5.824

4. Variation in the von Willebrand factor gene is associated with von Willebrand factor levels and with the risk for cardiovascular disease.

Authors: Marianne C van Schie; Moniek P M de Maat; Aaron Isaacs; Cornelia M van Duijn; Jaap W Deckers; Diederik W J Dippel; Frank W G Leebeek
Journal: Blood Date: 2010-10-12 Impact factor: 22.113

Review 5. von Willebrand factor.

Authors: Z M Ruggeri; J Ware
Journal: FASEB J Date: 1993-02-01 Impact factor: 5.191

6. Linkage analysis identifies a locus for plasma von Willebrand factor undetected by genome-wide association.

Authors: Karl C Desch; Ayse B Ozel; David Siemieniak; Yossi Kalish; Jordan A Shavit; Courtney D Thornburg; Anjali A Sharathkumar; Caitlin P McHugh; Cathy C Laurie; Andrew Crenshaw; Daniel B Mirel; Yoonhee Kim; Cheryl D Cropp; Anne M Molloy; Peadar N Kirke; Joan E Bailey-Wilson; Alexander F Wilson; James L Mills; John M Scott; Lawrence C Brody; Jun Z Li; David Ginsburg
Journal: Proc Natl Acad Sci U S A Date: 2012-12-24 Impact factor: 11.205

7. Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) Consortium: Design of prospective meta-analyses of genome-wide association studies from 5 cohorts.

Authors: Bruce M Psaty; Christopher J O'Donnell; Vilmundur Gudnason; Kathryn L Lunetta; Aaron R Folsom; Jerome I Rotter; André G Uitterlinden; Tamara B Harris; Jacqueline C M Witteman; Eric Boerwinkle
Journal: Circ Cardiovasc Genet Date: 2009-02

8. Novel associations of multiple genetic loci with plasma levels of factor VII, factor VIII, and von Willebrand factor: The CHARGE (Cohorts for Heart and Aging Research in Genome Epidemiology) Consortium.

Authors: Nicholas L Smith; Ming-Huei Chen; Abbas Dehghan; David P Strachan; Saonli Basu; Nicole Soranzo; Caroline Hayward; Igor Rudan; Maria Sabater-Lleal; Joshua C Bis; Moniek P M de Maat; Ann Rumley; Xiaoxiao Kong; Qiong Yang; Frances M K Williams; Veronique Vitart; Harry Campbell; Anders Mälarstig; Kerri L Wiggins; Cornelia M Van Duijn; Wendy L McArdle; James S Pankow; Andrew D Johnson; Angela Silveira; Barbara McKnight; Andre G Uitterlinden; Nena Aleksic; James B Meigs; Annette Peters; Wolfgang Koenig; Mary Cushman; Sekar Kathiresan; Jerome I Rotter; Edwin G Bovill; Albert Hofman; Eric Boerwinkle; Geoffrey H Tofler; John F Peden; Bruce M Psaty; Frank Leebeek; Aaron R Folsom; Martin G Larson; Timothy D Spector; Alan F Wright; James F Wilson; Anders Hamsten; Thomas Lumley; Jacqueline C M Witteman; Weihong Tang; Christopher J O'Donnell
Journal: Circulation Date: 2010-03-15 Impact factor: 29.690

9. Lifecourse influences on health among British adults: effects of region of residence in childhood and adulthood.

Authors: David P Strachan; Alicja R Rudnicka; Chris Power; Peter Shepherd; Elizabeth Fuller; Adrian Davis; Ian Gibb; Meena Kumari; Ann Rumley; Gary J Macfarlane; Jugnoo Rahi; Bryan Rodgers; Stephen Stansfeld
Journal: Int J Epidemiol Date: 2007-01-25 Impact factor: 7.196

10. Novel association of ABO histo-blood group antigen with soluble ICAM-1: results of a genome-wide association study of 6,578 women.

Authors: Guillaume Paré; Daniel I Chasman; Mark Kellogg; Robert Y L Zee; Nader Rifai; Sunita Badola; Joseph P Miletich; Paul M Ridker
Journal: PLoS Genet Date: 2008-07-04 Impact factor: 5.917

20 in total

Review 1. Advances in the diagnosis and treatment of Von Willebrand disease.

Authors: Ruchika Sharma; Veronica H Flood
Journal: Blood Date: 2017-11-30 Impact factor: 22.113

2. The role of genetics in the pathogenesis and diagnosis of type 1 Von Willebrand disease.

Authors: Veronica H Flood; Jessica Garcia; Sandra L Haberichter
Journal: Curr Opin Hematol Date: 2019-09 Impact factor: 3.284

Review 3. Advances in the diagnosis and treatment of Von Willebrand disease.

Authors: Ruchika Sharma; Veronica H Flood
Journal: Hematology Am Soc Hematol Educ Program Date: 2017-12-08

4. The endothelial cell receptor stabilin-2 regulates VWF-FVIII complex half-life and immunogenicity.

Authors: Laura L Swystun; Jesse D Lai; Colleen Notley; Ilinca Georgescu; A Simonne Paine; Jeff Mewburn; Kate Nesbitt; Kai Schledzewski; Cyrill Géraud; Julia Kzhyshkowska; Sergij Goerdt; Wilma Hopman; Robert R Montgomery; Paula D James; David Lillicrap
Journal: J Clin Invest Date: 2018-08-20 Impact factor: 14.808