Structure-resolved dynamics of type 2M von Willebrand disease

IF 5.5 2区医学 Q1 HEMATOLOGY

Journal of Thrombosis and Haemostasis Pub Date : 2025-04-01 DOI:10.1016/j.jtha.2024.12.026

Alexander Tischer, Laurie Moon-Tasson, Matthew Auton

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引用次数: 0

Abstract

Background

Genetically determined amino acid substitutions in the platelet adhesive A1 domain alter von Willebrand factor’s (VWF) platelet agglutination competence, resulting in both gain- (type 2B) and loss-of-function (type 2M) phenotypes of von Willebrand disease. Prior studies of variants in both phenotypes revealed defects in secondary structure that altered stability and folding of the domain. An intriguing observation was that loss of function arose from both misfolding of A1 and, in a few cases, hyperstabilization of the native structure.

Objectives

To fully understand the 2M phenotype, we thoroughly investigated the structure/function relationships of 15 additional type 2M variants and 2 polymorphisms in the A1 domain.

Methods

These variants were characterized using circular dichroism, fluorescence, calorimetry, hydrogen-deuterium exchange mass spectrometry, surface plasmon resonance, and platelet adhesion under shear flow.

Results

Six variants were natively folded, with 4 being hyperstabilized. Nine variants disordered A1, causing a loss in α-helical structure and unfolding enthalpy. GPIbα binding affinity and platelet adhesion dynamics were highly correlated to helical structure. Hydrogen-deuterium exchange resolved specific C-terminal secondary structure elements that differentially diminish the GPIbα binding affinity of A1. These localized structural perturbations were highly correlated to GPIbα binding affinity and shear-dependent platelet adhesion.

Conclusion

While hyperstabilized dynamics in A1 do impair stable platelet attachment to VWF under flow, variant-induced localized disorder in specific regions of the domain misfolds A1 and abrogates platelet adhesion. These 2 opposing conformational properties represent 2 structural classes of VWF that drive the loss-of-function phenotype that is type 2M von Willebrand disease.

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2M型血管性血友病的结构解析动力学。

背景：血小板粘附A1结构域的遗传决定的氨基酸取代改变血管性血友病因子的血小板凝集能力，导致血管性血友病的获得（2B型）和功能丧失（2M型）表型。先前对两种表型变异的研究揭示了二级结构的缺陷，改变了结构域的稳定性和折叠。一个有趣的观察结果是，功能丧失是由A1的错误折叠引起的，在少数情况下，是由原生结构的超稳定引起的。目的：为了充分了解2M表型，我们深入研究了另外15个2M型变异和A1结构域的两个多态性的结构/功能关系。方法：采用圆二色、荧光、量热、氢氘交换质谱、表面等离子体共振、剪切流下血小板粘附等方法对这些变异进行表征。结果：6个变异是自然折叠的，4个是超稳定的。9个变异导致A1紊乱，导致α-螺旋结构和展开焓的缺失。GPIbα结合亲和力和血小板粘附动力学与螺旋结构高度相关。氢氘交换分解了特异性的c端二级结构元素，这些元素差异地降低了A1的GPIbα结合亲和力。这些局部结构扰动与GPIbα结合亲和力和剪切依赖性血小板粘附高度相关。结论：虽然A1的超稳定动力学确实损害了血小板在流动状态下对VWF的稳定粘附，但变异诱导的特定区域的局部紊乱会错误折叠A1并消除血小板粘附。这两种相反的构象性质代表了驱动功能丧失表型的两种VWF结构类型，即2M型VWD。

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来源期刊

Journal of Thrombosis and Haemostasis 医学-外周血管病

CiteScore

24.30

自引率

3.80%

发文量

321

审稿时长

1 months

期刊介绍： The Journal of Thrombosis and Haemostasis (JTH) serves as the official journal of the International Society on Thrombosis and Haemostasis. It is dedicated to advancing science related to thrombosis, bleeding disorders, and vascular biology through the dissemination and exchange of information and ideas within the global research community. Types of Publications: The journal publishes a variety of content, including: Original research reports State-of-the-art reviews Brief reports Case reports Invited commentaries on publications in the Journal Forum articles Correspondence Announcements Scope of Contributions: Editors invite contributions from both fundamental and clinical domains. These include: Basic manuscripts on blood coagulation and fibrinolysis Studies on proteins and reactions related to thrombosis and haemostasis Research on blood platelets and their interactions with other biological systems, such as the vessel wall, blood cells, and invading organisms Clinical manuscripts covering various topics including venous thrombosis, arterial disease, hemophilia, bleeding disorders, and platelet diseases Clinical manuscripts may encompass etiology, diagnostics, prognosis, prevention, and treatment strategies.