Mechanistic Pathways Underlying Genetic Predisposition to Atrial Fibrillation Are Associated With Different Cardiac Phenotypes and Cardioembolic Stroke Risk.

IF 6 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation: Genomic and Precision Medicine Pub Date : 2025-06-01 Epub Date: 2025-06-17 DOI:10.1161/CIRCGEN.124.004932

Parag R Gajendragadkar, Adam Von Ende, Federico Murgia, Alison Offer, C Fielder Camm, Rohan S Wijesurendra, Barbara Casadei, Jemma C Hopewell

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引用次数: 0

Abstract

Background: Genome-wide association studies have clustered candidate genes associated with atrial fibrillation (AF) into biological pathways reflecting different pathophysiological mechanisms. We investigated whether these pathways associate with distinct intermediate phenotypes and confer differing risks of cardioembolic stroke.

Methods: Three distinct subsets of AF-associated genetic variants, each representing a different mechanistic pathway, that is, the cardiac muscle function and integrity pathway (15 variants), the cardiac developmental pathway (25 variants), and the cardiac ion channels pathway (12 variants), were identified from previous AF genome-wide association studies. Using genetic epidemiological methods and large-scale datasets such as UK Biobank, deCODE, and GIGASTROKE, we investigated the associations of these pathways with AF-related cardiac intermediate phenotypes, which included electrocardiogram parameters (≈16 500 electrocardiograms), left atrial and ventricular size and function (≈36 000 cardiac magnetic resonance imaging scans), and relevant plasma biomarkers (N-terminal pro-B-type natriuretic peptide, ≈70 000 samples; high-sensitivity troponin I and T, ≈87 000 samples), as well as with subtypes of ischemic stroke (≈11 000 cases).

Results: Genetic variants representing distinct AF-related mechanistic pathways had significantly different effects on several AF-related phenotypes. In particular, the muscle pathway was associated with a longer PR interval (P for heterogeneity between pathways [P_het]=1×10^-10), lower left atrial emptying fraction (P_het=5×10^-5), and higher N-terminal pro-B-type natriuretic peptide (P_het=2×10^-3) per log-odds higher risk of AF compared with the developmental and ion-channel pathways. In contrast, the ion-channel pathway was associated with a lower risk of cardioembolic stroke (P_het=0.04 in European, and 7×10^-³ in multiancestry populations) compared with the other pathways.

Conclusions: Genetic variants representing specific mechanistic pathways for AF are associated with distinct intermediate cardiac phenotypes and a different risk of cardioembolic stroke. These findings provide a better understanding of the etiological heterogeneity underlying the development of AF and its downstream impact on disease and may offer a route to more targeted treatment strategies.

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心房颤动遗传易感性的机制途径与不同的心脏表型和心脏栓塞性卒中风险相关。

背景：全基因组关联研究将心房颤动（AF）相关的候选基因聚集到反映不同病理生理机制的生物学途径中。我们研究了这些途径是否与不同的中间表型相关，并赋予不同的心脏栓塞性卒中风险。方法：从先前的房颤全基因组关联研究中鉴定出房颤相关遗传变异的三个不同亚群，每个亚群代表不同的机制途径，即心肌功能和完整性途径（15个变体），心脏发育途径（25个变体）和心脏离子通道途径（12个变体）。利用遗传流行病学方法和大型数据集，如UK Biobank、deCODE和GIGASTROKE，我们研究了这些途径与心房纤颤相关的心脏中间表型的相关性，包括心电图参数（≈16 500张心电图）、左心房和心室大小和功能（≈36 000张心脏磁共振成像扫描），以及相关的血浆生物标志物(n端前b型利钠肽，≈7万份样本；高敏感性肌钙蛋白I和T，约87000例)，以及缺血性脑卒中亚型（约11000例）。结果：代表不同af相关机制途径的遗传变异对几种af相关表型有显著不同的影响。特别是，与发育途径和离子通道途径相比，肌肉途径与更长的PR间期（P表示途径之间的异质性[Phet]=1×10-10）、更低的左心房排空分数（Phet=5×10-5）和更高的n端前b型利钠肽（Phet=2×10-3）相关。相比之下，与其他途径相比，离子通道途径与心脏栓塞性中风的风险较低相关（欧洲人的Phet=0.04，多祖先人群的Phet= 7×10-3）。结论：代表房颤特定机制途径的遗传变异与不同的中间心脏表型和不同的心脏栓塞性卒中风险相关。这些发现有助于更好地了解房颤发展的病因异质性及其对疾病的下游影响，并可能为更有针对性的治疗策略提供途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation: Genomic and Precision Medicine Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

9.20

自引率

5.40%

发文量

144

期刊介绍： Circulation: Genomic and Precision Medicine is a distinguished journal dedicated to advancing the frontiers of cardiovascular genomics and precision medicine. It publishes a diverse array of original research articles that delve into the genetic and molecular underpinnings of cardiovascular diseases. The journal's scope is broad, encompassing studies from human subjects to laboratory models, and from in vitro experiments to computational simulations. Circulation: Genomic and Precision Medicine is committed to publishing studies that have direct relevance to human cardiovascular biology and disease, with the ultimate goal of improving patient care and outcomes. The journal serves as a platform for researchers to share their groundbreaking work, fostering collaboration and innovation in the field of cardiovascular genomics and precision medicine.