Genome-wide associations of aortic distensibility suggest causality for aortic aneurysms and brain white matter hyperintensities

Author:

Francis Catherine M.ORCID,Futschik Matthias E.,Huang Jian,Bai WenjiaORCID,Sargurupremraj Muralidharan,Teumer AlexanderORCID,Breteler Monique M. B.ORCID,Petretto EnricoORCID,Ho Amanda S. R.ORCID,Amouyel PhilippeORCID,Engelter Stefan T.,Bülow Robin,Völker UweORCID,Völzke Henry,Dörr MarcusORCID,Imtiaz Mohammed-Aslam,Aziz N. AhmadORCID,Lohner ValerieORCID,Ware James S.ORCID,Debette StephanieORCID,Elliott PaulORCID,Dehghan AbbasORCID,Matthews Paul M.ORCID

Abstract

AbstractAortic dimensions and distensibility are key risk factors for aortic aneurysms and dissections, as well as for other cardiovascular and cerebrovascular diseases. We present genome-wide associations of ascending and descending aortic distensibility and area derived from cardiac magnetic resonance imaging (MRI) data of up to 32,590 Caucasian individuals in UK Biobank. We identify 102 loci (including 27 novel associations) tagging genes related to cardiovascular development, extracellular matrix production, smooth muscle cell contraction and heritable aortic diseases. Functional analyses highlight four signalling pathways associated with aortic distensibility (TGF-β, IGF, VEGF and PDGF). We identify distinct sex-specific associations with aortic traits. We develop co-expression networks associated with aortic traits and apply phenome-wide Mendelian randomization (MR-PheWAS), generating evidence for a causal role for aortic distensibility in development of aortic aneurysms. Multivariable MR suggests a causal relationship between aortic distensibility and cerebral white matter hyperintensities, mechanistically linking aortic traits and brain small vessel disease.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

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