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Shared genetic architecture contributes to risk of major cardiovascular diseases

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  • Jun Qiao

    (Southern University of Science and Technology
    Shenzhen People’s Hospital (The First Affiliated Hospital of Southern University of Science and Technology)
    Joint Laboratory of Guangdong-Hong Kong Universities for Vascular Homeostasis and Diseases)

  • Lei Jiang

    (Southern Medical University)

  • Liuyang Cai

    (Southern University of Science and Technology
    Shenzhen People’s Hospital (The First Affiliated Hospital of Southern University of Science and Technology)
    Joint Laboratory of Guangdong-Hong Kong Universities for Vascular Homeostasis and Diseases)

  • Minjing Chang

    (Southern University of Science and Technology)

  • Can Wang

    (Shanxi Medical University)

  • Rong Zhao

    (South China University of Technology)

  • Shan Song

    (Peking University First Hospital)

  • Yuhui Zhao

    (Shanxi Precision Medical Engineering Research Center for Rheumatology)

  • Miaoran Chen

    (Shanxi Precision Medical Engineering Research Center for Rheumatology)

  • Shifang Ding

    (Southern Medical University
    Wuhan Clinical Medicine College of Southern Medical University)

  • Ning Tan

    (Southern Medical University)

  • Pengcheng He

    (Southern Medical University)

  • Sakthivel Sadayappan

    (Cincinnati)

  • Jinguo Xu

    (First Affiliated Hospital of Anhui Medical University)

  • Siim Pauklin

    (Headington)

  • Zhengbing Liu

    (Southern Medical University
    Nanjing University)

  • Yuliang Feng

    (Southern University of Science and Technology
    Shenzhen People’s Hospital (The First Affiliated Hospital of Southern University of Science and Technology)
    Joint Laboratory of Guangdong-Hong Kong Universities for Vascular Homeostasis and Diseases)

Abstract

The extensive co-occurrence of cardiovascular diseases (CVDs), as evidenced by epidemiological studies, is supported by positive genetic correlations identified in comprehensive genetic investigations, suggesting a shared genetic basis. However, the precise genetic mechanisms underlying these associations remain elusive. By assessing genetic correlations, genetic overlap, and causal connections, we aim to shed light on common genetic underpinnings among major CVDs. Employing multi-trait analysis, we pursue diverse strategies to unveil shared genetic elements, encompassing SNPs, genes, gene sets, and functional categories with pleiotropic implications. Our study systematically quantifies genetic overlap beyond genome-wide genetic correlations across CVDs, while identifying a putative causal relationship between coronary artery disease (CAD) and heart failure (HF). We then pinpointed 38 genomic loci with pleiotropic influence across CVDs, of which the most influential pleiotropic locus is located at the LPA gene. Notably, 12 loci present high evidence of multi-trait colocalization and display congruent directional effects. Examination of genes and gene sets linked to these loci unveiled robust associations with circulatory system development processes. Intriguingly, distinct patterns predominantly driven by atrial fibrillation, coronary artery disease, and venous thromboembolism underscore the significant disparities between clinically defined CVD classifications and underlying shared biological mechanisms, according to functional annotation findings.

Suggested Citation

  • Jun Qiao & Lei Jiang & Liuyang Cai & Minjing Chang & Can Wang & Rong Zhao & Shan Song & Yuhui Zhao & Miaoran Chen & Shifang Ding & Ning Tan & Pengcheng He & Sakthivel Sadayappan & Jinguo Xu & Siim Pau, 2025. "Shared genetic architecture contributes to risk of major cardiovascular diseases," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62419-0
    DOI: 10.1038/s41467-025-62419-0
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