Circulating Cardiovascular Proteomic Associations With Genetics and Disease.

IF 5.5 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation: Genomic and Precision Medicine Pub Date : 2025-10-07 DOI:10.1161/CIRCGEN.124.005005

Kathryn A McGurk, Lara Curran, Arunashis Sau, Fu Siong Ng, Brian Halliday, James S Ware, Declan P O'Regan

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引用次数: 0

Abstract

Background: The analysis of the circulating proteome can identify translational modifiers and biomarkers of disease expressivity and severity at a given time point. Here, we explore the relationships between protein measures implicated in cardiovascular disease and whether they mediate causal relationships between cardiovascular risk factors and disease development.

Methods: To understand the relationships between circulating biomarkers and genetic variants, medications, anthropometric traits, lifestyle factors, imaging-derived measures, and diagnoses of cardiovascular disease, we undertook in-depth analyses of measures of 9 plasma proteins with a priori roles in genetic and structural cardiovascular disease or treatment pathways (ACE2 [angiotensin-converting enzyme 2], ACTA2 [actin alpha 2], ACTN4 [actinin alpha 4], BAG3 [BAG cochaperone 3], BNP [B-type natriuretic peptide], CDKN1A [cyclin-dependent kinase inhibitor 1A], NOTCH1 [neurogenic locus notch homolog protein 1], NT-proBNP [N-terminal pro-B-type natriuretic peptide], and TNNI3 [troponin I]) from the Pharma Proteomics Project of the UK Biobank cohort (over 45 000 participants sampled at recruitment).

Results: We identified significant variability in circulating proteins with age, sex, ancestry, alcohol intake, smoking, and medication intake. Phenome-wide association studies highlighted the range of cardiovascular clinical features with relationships to protein levels. Genome-wide genetic association studies identified variants near GCKR, APOE, and SERPINA1, that modified multiple circulating protein levels (BAG3, CDKN1A, and NOTCH1). NT-proBNP and BNP levels associated with variants in BAG3. ACE2 levels were increased with a diagnosis of hypertension or diabetes, particularly in females, and were influenced by variants in genes associated with diabetes (HNF1A and HNF4A). Two-sample Mendelian randomization identified ACE2 as protective for systolic blood pressure and type-2 diabetes.

Conclusions: From a panel of circulating proteins, the results from this observational study provide evidence that ACE2 is causally protective for hypertension and diabetes. This suggests that ACE2 treatment may provide additional protection from these cardiovascular diseases. This study provides an improved understanding of the circulating pathways depicting cardiovascular disease dynamics.

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循环心血管蛋白质组学与遗传和疾病的关联。

背景：对循环蛋白质组的分析可以识别特定时间点疾病表达性和严重程度的翻译修饰因子和生物标志物。在这里，我们探讨了涉及心血管疾病的蛋白质测量之间的关系，以及它们是否介导心血管危险因素与疾病发展之间的因果关系。方法:为了了解循环生物标志物与遗传变异、药物、人体测量特征、生活方式因素、影像学指标和心血管疾病诊断之间的关系，我们对9种血浆蛋白（ACE2[血管紧张素转换酶2]、ACTA2[肌动蛋白α 2]、ACTN4[肌动蛋白α 4]、BAG3 [BAG伴侣蛋白3]）的测量进行了深入分析，这些蛋白在遗传和结构性心血管疾病或治疗途径中具有先验作用。BNP [b型利钠肽]，CDKN1A[周期蛋白依赖性激酶抑制剂1A]， NOTCH1[神经源性位点缺口同源蛋白1]，NT-proBNP [n端前b型利钠肽]和TNNI3[肌钙蛋白I])来自英国生物银行队列（招募时抽样超过45,000名参与者）的药物蛋白质组学项目。结果：我们确定了循环蛋白在年龄、性别、血统、饮酒、吸烟和药物摄入方面的显著差异。全现象关联研究强调了心血管临床特征与蛋白质水平的关系。全基因组遗传关联研究发现了GCKR、APOE和SERPINA1附近的变异，这些变异可以改变多种循环蛋白水平（BAG3、CDKN1A和NOTCH1）。NT-proBNP和BNP水平与BAG3变异相关。ACE2水平随着高血压或糖尿病的诊断而升高，尤其是在女性中，并受到与糖尿病相关基因变异（HNF1A和HNF4A）的影响。双样本孟德尔随机化发现ACE2对收缩压和2型糖尿病有保护作用。结论：从一组循环蛋白中，这项观察性研究的结果提供了ACE2对高血压和糖尿病具有因果保护作用的证据。这表明ACE2治疗可能对这些心血管疾病提供额外的保护。这项研究提供了一个更好的理解循环途径描绘心血管疾病的动力学。

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.