血小板
血小板活化
医学
血栓形成
细胞生物学
细胞骨架
受体
肌动蛋白细胞骨架
肌动蛋白
凝血酶
血小板因子4
热休克蛋白27
外围设备
血小板粘附
血小板聚集
嗅觉感受器
蛋白酶激活受体
作者
Anu Aggarwal,Vara Prasad V. N. Josyula,Nancy Wang,Moua Yang,Young Jun Shim,Quinn P. Kennedy,Reina Samuel,Naseer Sangwan,Suman Guntupalli,Matthew Godwin,Huijun Edelyn Park,Mariya Ali,Courtney Jennings,Bhairavi Rajasekar,Alliefair Scalise,Anthony Sloan,Justin D. Lathia,Jessica Grondolsky,Sarah M. Schumacher,Shaun R. Stauffer
出处
期刊:Circulation
[Lippincott Williams & Wilkins]
日期:2026-04-07
标识
DOI:10.1161/circulationaha.125.078927
摘要
BACKGROUND: Despite antiplatelet therapy, some patients remain at high ischemic risk because of drug nonresponsiveness or high residual platelet reactivity). We aimed to target an orphan platelet GPCR (G protein-coupled receptor) from the OR (olfactory receptor) family as a novel antithrombotic strategy. METHODS: Using an engineered reporter cell line expressing human OR2L13, an orphan GPCR implicated in limiting platelet reactivity, we conducted a high-throughput screen of 8000 nonodorant bioactive compounds with counterscreen validation. Subsequent studies assessed platelet function in healthy subjects and patients with coronary artery and peripheral artery disease. Phospho-proteomics revealed key signaling pathways, whereas ex vivo and in vivo assays evaluated the impact of a lead compound on platelet signaling, biomechanics, and thrombosis in both arterial and venous vasculature. RESULTS: =0.0007). CONCLUSIONS: We describe and characterize the first nonolfactory probe for the purpose of inhibiting platelet activation and thrombosis through downstream HSP27 in a comprehensive investigation using a first-of-its-kind platelet inhibitor targeting an orphan platelet GPCR.
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