Functional characterization of a nanobody-based glycoprotein VI-specific platelet agonist

IF 3.4 3区医学 Q2 HEMATOLOGY

Research and Practice in Thrombosis and Haemostasis Pub Date : 2024-10-01 DOI:10.1016/j.rpth.2024.102582

Minka Zivkovic , Elisabeth Pols - van Veen , Vossa van der Vegte , Silvie A.E. Sebastian , Annick S. de Moor , Suzanne J.A. Korporaal , Roger E.G. Schutgens , Rolf T. Urbanus

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Abstract

Background

Glycoprotein (GP)VI is a platelet-specific collagen receptor required for platelet activation during hemostasis. Platelet reactivity toward collagen is routinely assessed during diagnostic workup of platelet disorders. GPVI can be activated by inducing receptor clustering with suspensions of fibrillar collagen or synthetic cross-linked collagen-related peptide (CRP-XL). However, these suspensions are poorly standardized or difficult to produce. Nanobodies are small recombinant camelid-derived heavy-chain antibody variable regions. They are highly stable, specific, and ideal candidates for developing a stable GPVI agonist for diagnostic assays.

Objectives

Develop a stable nanobody-based GPVI agonist.

Methods

Nanobody D2 (NbD2) was produced as dimers and purified. Tetramers were generated via C-terminal fusion of dimers with click chemistry. Nanobody constructs were functionally characterized with light transmission aggregometry (LTA) in platelet-rich plasma and whole blood flow cytometry. Diagnostic performance was assessed in patients with inherited platelet function disorders with LTA and flow cytometry.

Results

NbD2 was specific for human platelet GPVI. Dimers did not result in platelet activation in LTA or flow cytometry settings and fully inhibited CRP-XL-induced P-selectin expression and fibrinogen binding in whole blood and attenuated collagen-induced platelet aggregation in platelet-rich plasma. However, NbD2 tetramers caused full platelet aggregation, as well as P-selectin expression and fibrinogen binding. NbD2 tetramers were able to discriminate between inherited platelet function disorder patients and healthy controls based on fibrinogen binding, similar to CRP-XL.

Conclusion

Nanobody tetramers to GPVI induce platelet activation and can be used to assess the GPVI pathway in diagnostic assays.

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基于纳米抗体的糖蛋白 VI 特异性血小板激动剂的功能表征

背景糖蛋白（GP）VI 是血小板特异性胶原蛋白受体，在止血过程中需要激活血小板。在血小板疾病的诊断过程中，血小板对胶原蛋白的反应性是常规评估项目。GPVI 可通过纤维胶原悬浮液或合成交联胶原相关肽（CRP-XL）诱导受体集聚而激活。然而，这些悬浮液的标准化程度较低或难以生产。纳米抗体是源自驼科动物的小型重组重链抗体可变区。纳米抗体具有高度稳定性和特异性，是开发用于诊断测试的稳定 GPVI 激动剂的理想候选物。方法将纳米抗体 D2（NbD2）制成二聚体并纯化。通过点击化学法在二聚体的 C 端融合生成四聚体。利用富血小板血浆透光聚集仪（LTA）和全血流式细胞仪对纳米抗体构建体进行了功能表征。结果NbD2对人类血小板GPVI具有特异性。二聚体在 LTA 或流式细胞仪中不会导致血小板活化，在全血中可完全抑制 CRP-XL 诱导的 P 选择素表达和纤维蛋白原结合，在富血小板血浆中可减轻胶原诱导的血小板聚集。然而，NbD2 四聚体会导致血小板完全聚集以及 P 选择素表达和纤维蛋白原结合。NbD2 四聚体能根据纤维蛋白原结合情况区分遗传性血小板功能障碍患者和健康对照组，这一点与 CRP-XL 类似。

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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