Genome-wide association study meta-analysis provides insights into the etiology of heart failure and its subtypes
Henry, Albert Mo, Xiaodong Finan, Chris Chaffin, Mark D Speed, Doug Issa, Hanane Denaxas, Spiros Ware, James S Zheng, Sean L Malarstig, Anders
Henry, Albert
Mo, Xiaodong
Finan, Chris
Chaffin, Mark D
Speed, Doug
Issa, Hanane
Denaxas, Spiros
Ware, James S
Zheng, Sean L
Malarstig, Anders
Series / Report no.
Open Access
Type
Journal Article
Meta-Analysis
Article
Meta-Analysis
Article
Language
en
Date of publication
2025-03-04
Year of publication
Research Projects
Organizational Units
Journal Issue
Title
Genome-wide association study meta-analysis provides insights into the etiology of heart failure and its subtypes
Translated Title
Published in
Nat Genet 2025; 57(4):815-828
Abstract
Heart failure (HF) is a major contributor to global morbidity and mortality. While distinct clinical subtypes, defined by etiology and left ventricular ejection fraction, are well recognized, their genetic determinants remain inadequately understood. In this study, we report a genome-wide association study of HF and its subtypes in a sample of 1.9 million individuals. A total of 153,174 individuals had HF, of whom 44,012 had a nonischemic etiology (ni-HF). A subset of patients with ni-HF were stratified based on left ventricular systolic function, where data were available, identifying 5,406 individuals with reduced ejection fraction and 3,841 with preserved ejection fraction. We identify 66 genetic loci associated with HF and its subtypes, 37 of which have not previously been reported. Using functionally informed gene prioritization methods, we predict effector genes for each identified locus, and map these to etiologic disease clusters through phenome-wide association analysis, network analysis and colocalization. Through heritability enrichment analysis, we highlight the role of extracardiac tissues in disease etiology. We then examine the differential associations of upstream risk factors with HF subtypes using Mendelian randomization. These findings extend our understanding of the mechanisms underlying HF etiology and may inform future approaches to prevention and treatment.