Samuel C. Dudley scite author profile

Atrial fibrillation (AF) affects over 33 million individuals worldwide1 and has a complex heritability.2 We conducted the largest meta-analysis of genome-wide association studies for AF to date, consisting of over half a million individuals including 65,446 with AF. In total, we identified 97 loci significantly associated with AF including 67 of which were novel in a combined-ancestry analysis, and 3 in a European specific analysis. We sought to identify AF-associated genes at the GWAS loci by performing RNA-sequencing and expression quantitative trait loci (eQTL) analyses in 101 left atrial samples, the most relevant tissue for AF. We also performed transcriptome-wide analyses that identified 57 AF-associated genes, 42 of which overlap with GWAS loci. The identified loci implicate genes enriched within cardiac developmental, electrophysiological, contractile and structural pathways. These results extend our understanding of the biological pathways underlying AF and may facilitate the development of therapeutics for AF.

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Genome-wide association and Mendelian randomisation analysis provide insights into the pathogenesis of heart failure

Shah¹,

Henry²,

Roselli³

et al. 2020

Nat Commun

636

481

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Heart failure (HF) is a leading cause of morbidity and mortality worldwide. A small proportion of HF cases are attributable to monogenic cardiomyopathies and existing genome-wide association studies (GWAS) have yielded only limited insights, leaving the observed heritability of HF largely unexplained. We report results from a GWAS meta-analysis of HF comprising 47,309 cases and 930,014 controls. Twelve independent variants at 11 genomic loci are associated with HF, all of which demonstrate one or more associations with coronary artery disease (CAD), atrial fibrillation, or reduced left ventricular function, suggesting shared genetic aetiology. Functional analysis of non-CAD-associated loci implicate genes involved in cardiac development (MYOZ1, SYNPO2L), protein homoeostasis (BAG3), and cellular senescence (CDKN1A). Mendelian randomisation analysis supports causal roles for several HF risk factors, and demonstrates CAD-independent effects for atrial fibrillation, body mass index, and hypertension. These findings extend our knowledge of the pathways underlying HF and may inform new therapeutic strategies.

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Mutation in Glycerol-3-Phosphate Dehydrogenase 1–Like Gene ( GPD1-L ) Decreases Cardiac Na ⁺ Current and Causes Inherited Arrhythmias

et al. 2007

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Samuel C. Dudley

Multi-ethnic genome-wide association study for atrial fibrillation

Genome-wide association and Mendelian randomisation analysis provide insights into the pathogenesis of heart failure

Mutation in Glycerol-3-Phosphate Dehydrogenase 1–Like Gene ( GPD1-L ) Decreases Cardiac Na ⁺ Current and Causes Inherited Arrhythmias

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Samuel C. Dudley

Multi-ethnic genome-wide association study for atrial fibrillation

Genome-wide association and Mendelian randomisation analysis provide insights into the pathogenesis of heart failure

Mutation in Glycerol-3-Phosphate Dehydrogenase 1–Like Gene ( GPD1-L ) Decreases Cardiac Na + Current and Causes Inherited Arrhythmias

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Product

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Mutation in Glycerol-3-Phosphate Dehydrogenase 1–Like Gene ( GPD1-L ) Decreases Cardiac Na ⁺ Current and Causes Inherited Arrhythmias