Polygenic Background and Penetrance of Pathogenic Variants in Hypertrophic and Dilated Cardiomyopathies.

medRxiv : the preprint server for health sciences Pub Date : 2025-06-22 DOI:10.1101/2025.06.20.25329138

Sarah A Abramowitz, Lily Hoffman-Andrews, David Zhang, Renae Judy, Thomas P Cappola, Sharlene M Day, Nosheen Reza, Anjali T Owens, Scott M Damrauer, Michael G Levin

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引用次数: 0

Abstract

Importance: Polygenic background modifies variant penetrance in hypertrophic (HCM) and dilated (DCM) cardiomyopathy, diseases with opposing morphologic characteristics and inversely related genetic pathways. Whether polygenic susceptibility for one disease protects against monogenic risk for the other remains unexplored.

Objective: To characterize if polygenic background bidirectionally modifies pathogenicity of established rare variants associated with HCM and DCM.

Design: Cross-sectional study.

Setting: The Penn Medicine BioBank (PMBB).

Participants: Volunteers enrolled in PMBB with available electronic health record and genotyping data.

Exposures: Normalized polygenic scores (PGS) for HCM and DCM, as well as carrier status of pathogenic variants in established HCM or DCM genes.

Main outcomes: HCM and DCM defined using electronic health record diagnosis and procedure code, as well as echocardiogram measurements derived from medical records.

Results: This study included 49,434 PMBB participants. An increased HCM PGS was associated with significantly increased left ventricular ejection fraction (LVEF), decreased left ventricular internal diameter at end-diastole (LVIDd), and increased interventricular septal thickness (IVS) (p<0.001). An increased DCM PGS was significantly (p<0.001) associated with decreased LVEF and increased LVIDd, but was not associated with IVS. A one standard deviation increase in HCM PGS was associated with increased risk of HCM (OR 1.8; 95% CI 1.6-2.0; p=9.6×10^-25) and decreased risk of DCM (OR 0.69; 95% CI 0.64-0.74; p=4.3×10^-22). A one standard deviation increase in DCM PGS was associated with an increased risk of DCM (OR 1.6; 95% CI 1.5-1.7; p=1.7×10^-40) and decreased risk of HCM (OR 0.69; 95% CI 0.63-0.76; p=3.0×10^Ȓ13). Monogenic and polygenic risk terms had significant, independent effects when combined in models of disease status and echocardiographic measurements; the additional inclusion of either an HCM or DCM PGS improved the discrimination of models of HCM and DCM that included age, sex, and monogenic variant status (>95% probability of difference in AUROC).

Conclusions and relevance: HCM and DCM risk are markedly modified by polygenic background which exists on an overlapping spectrum. Consideration of polygenic background may offer clinical value through improving understanding and prediction of these inherited cardiomyopathies.

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肥厚型和扩张型心肌病致病变异的多基因背景和外显率。

重要性：多基因背景改变了肥厚性（HCM）和扩张性（DCM）心肌病的变异外显率，这两种疾病具有相反的形态特征和负相关的遗传途径。一种疾病的多基因易感性是否能防止另一种疾病的单基因风险仍未得到研究。目的：探讨多基因背景是否会双向改变与HCM和DCM相关的罕见变异的致病性。设计：横断面研究。环境：宾夕法尼亚大学医学生物银行（PMBB）。参与者：在PMBB注册的志愿者，有可用的电子健康记录和基因分型数据。暴露：HCM和DCM的标准化多基因评分（PGS），以及HCM或DCM基因中致病变异的携带者状态。主要结果：使用电子健康记录诊断和程序代码定义HCM和DCM，以及来自医疗记录的超声心动图测量。结果：本研究纳入了49,434名PMBB参与者。HCM PGS升高与左室射血分数（LVEF）显著升高、左室舒张末期内径（LVIDd）降低、室间隔厚度（IVS）增加（p-25）和DCM风险降低(OR 0.69；95% ci 0.64-0.74；P =4.3x10 -22)。DCM PGS增加一个标准差与DCM风险增加相关(OR 1.6；95% ci 1.5-1.7；p=1.7x10 -40)和HCM风险降低(OR 0.69；95% ci 0.63-0.76；P =3.0x10 -13)。单基因和多基因风险项在疾病状态模型和超声心动图测量中具有显著的独立影响；额外纳入HCM或DCM PGS可改善HCM和DCM模型的区分，包括年龄、性别和单基因变异状态（AUROC差异概率为95%）。结论及意义：HCM和DCM的风险明显受多基因背景的影响，多基因背景存在于重叠谱上。考虑多基因背景可以通过提高对这些遗传性心肌病的理解和预测提供临床价值。问题：多基因背景如何改变肥厚性和扩张性心肌病的风险？发现：HCM和DCM的多基因评分与两种疾病相关的临床和超声心动图测量相关，并反向改变致病变异的外显率。意义：多基因背景有助于HCM和DCM的易感性，并且存在于重叠谱上。

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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