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血小板型血管性血友病:血小板 GPIbα β-转换区的局部紊乱导致与血管性血友病因子的高亲和力结合。

Platelet-type von Willebrand disease: Local disorder of the platelet GPIbα β-switch drives high-affinity binding to von Willebrand factor.

机构信息

Division of Hematology, Departments of Internal Medicine and Biochemistry and Molecular Biology, Mayo Clinic, Rochester, MN, USA.

出版信息

J Thromb Haemost. 2019 Dec;17(12):2022-2034. doi: 10.1111/jth.14597. Epub 2019 Sep 19.

DOI:10.1111/jth.14597
PMID:31448872
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11683816/
Abstract

BACKGROUND

Mutations in the β-switch of GPIbα cause gain-of-function in the platelet-type von Willebrand disease. Structures of free and A1-bound GPIbα suggest that the β-switch undergoes a conformational change from a coil to a β-hairpin.

OBJECTIVES

Platelet-type von Willebrand disease (VWD) mutations have been proposed to stabilize the β-switch by shifting the equilibrium in favor of the β-hairpin, a hypothesis predicated on the assumption that the complex crystal structure between A1 and GPIbα is the high-affinity state.

METHODS

Hydrogen-deuterium exchange mass spectrometry is employed to test this hypothesis using G233V, M239V, G233V/M239V, W230L, and D235Y disease variants of GPIbα. If true, the expectation is a decrease in hydrogen-deuterium exchange within the β-switch as a result of newly formed hydrogen bonds between the β-strands of the β-hairpin.

RESULTS

Hydrogen-exchange is enhanced, indicating that the β-switch favors the disordered loop conformation. Hydrogen-exchange is corroborated by differential scanning calorimetry, which confirms that these mutations destabilize GPIbα by allowing the β-switch to dissociate from the leucine-rich-repeat (LRR) domain. The stability of GPIbα and its A1 binding affinity, determined by surface plasmon resonance, are correlated to the extent of hydrogen exchange in the β-switch.

CONCLUSION

These studies demonstrate that GPIbα with a disordered loop is binding-competent and support a mechanism in which local disorder in the β-switch exposes the LRR-domain of GPIbα enabling high-affinity interactions with the A1 domain.

摘要

背景

GPIbα 的 β 转换区突变导致血小板型血管性血友病(VWD)的功能获得。自由态和 A1 结合态 GPIbα 的结构表明,β 转换区从无规卷曲构象向 β 发夹构象转变。

目的

血小板型 VWD 突变通过有利于 β 发夹形成的平衡来稳定 β 转换区,该假设基于 A1 与 GPIbα 之间的复杂晶体结构是高亲和力状态的假设。

方法

使用 G233V、M239V、G233V/M239V、W230L 和 D235Y 突变的 GPIbα,采用氢氘交换质谱来检验该假设。如果假设正确,预期是由于β发夹β 链之间形成新的氢键,β 转换区内的氢氘交换减少。

结果

氢氘交换增加,表明β 转换区倾向于无规环构象。氢氘交换得到差示扫描量热法的证实,该法证实这些突变通过允许β 转换区与富含亮氨酸重复(LRR)结构域解离,使 GPIbα 不稳定。GPIbα 的稳定性及其与 A1 的结合亲和力由表面等离子体共振确定,与β 转换区的氢氘交换程度相关。

结论

这些研究表明,具有无规环的 GPIbα 具有结合能力,并支持这样一种机制,即β 转换区的局部无序暴露 GPIbα 的 LRR 结构域,使其与 A1 结构域形成高亲和力相互作用。

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