静脉曲张
孟德尔随机化
全基因组关联研究
医学
生命银行
疾病
遗传建筑学
生物信息学
内科学
生物
遗传学
外科
遗传变异
基因
单核苷酸多态性
基因型
数量性状位点
作者
Michael G. Levin,Jennifer E. Huffman,Anurag Verma,Kyle A. Sullivan,Alexis Rodriguez,David Kainer,Michael R. Garvin,Matthew Lane,Mikaela Cashman,Jason Miller,Hyejung Won,Binglan Li,Yuan Luo,Gail P. Jarvik,Hákon Hákonarson,Elizabeth A. Jasper,Alexander G. Bick,Philip S. Tsao,Marylyn D. Ritchie,Daniel Jacobson
标识
DOI:10.1038/s44161-022-00196-5
摘要
Varicose veins represent a common cause of cardiovascular morbidity, with limited available medical therapies. Although varicose veins are heritable and epidemiologic studies have identified several candidate varicose vein risk factors, the molecular and genetic basis remains uncertain. Here we analyzed the contribution of common genetic variants to varicose veins using data from the Veterans Affairs Million Veteran Program and four other large biobanks. Among 49,765 individuals with varicose veins and 1,334,301 disease-free controls, we identified 139 risk loci. We identified genetic overlap between varicose veins, other vascular diseases and dozens of anthropometric factors. Using Mendelian randomization, we prioritized therapeutic targets via integration of proteomic and transcriptomic data. Finally, topological enrichment analyses confirmed the biologic roles of endothelial shear flow disruption, inflammation, vascular remodeling and angiogenesis. These findings may facilitate future efforts to develop nonsurgical therapies for varicose veins. By conducting a large multi-ancestry GWAS of varicose veins followed by bioinformatics analyses, Levin et al. identified new and recurrent causal variants, traits with shared genetic mechanisms, and putative causal risk factors of the disease, revealing its polygenic architecture and genetic overlap with arterial and venous disease and identifying potential therapeutic targets.
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