Probing rare von Willebrand disease–causing mutations in the D4 and C-domains of von Willebrand factor

IF 3.4 3区医学 Q2 HEMATOLOGY

Research and Practice in Thrombosis and Haemostasis Pub Date : 2025-05-01 DOI:10.1016/j.rpth.2025.102922

Golzar Mobayen , Sammy El-Mansi , Alain Chion , Thomas D. Nightingale , Thomas A.J. McKinnon

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Abstract

Background

von Willebrand disease (VWD) is characterized by absence or reduction of plasma von Willebrand factor (VWF) levels or reduced protein function. While the spectrum of causative VWD mutations is vast, there has been limited characterization of variants occurring within the D4-C6 domains of VWF that comprise the C-terminal portion of the molecule.

Objectives

In this study, we investigated the impact of 9 putative low-frequency VWD-causing variants on VWF function.

Methods

Variants were generated by site-directed mutagenesis and expressed in human embryonic kidney (HEK)293(T) cells and analyzed for expression, intracellular storage, and multimeric profile. The ability of Arg2379Cys to form dimers was assessed using an A2-CK fragment of VWF.

Results

Arg2379Cys, Ser2497Pro, and Cys2639Tyr had significantly reduced secretion from HEK293T cells, while the other mutations all failed to be secreted. While cotransfection with wild-type VWF appeared to rescue expression, cotransfection with a deletion A1 construct demonstrated that only the Gly2044Asp, Glu2343Val, Ser2497Pro, and Cys2693Tyr variants could be rescued. All the variants failed to form appreciable pseudo–Weibel-Palade bodies in HEK293 cells and showed abnormal multimers in cell lysates. The Arg2379Cys variant could be overexpressed by only formed monomers and some dimers. Analysis with a VWF-A2CK protein demonstrated that in the homozygous state Arg2379Cys behaves likes a type 2A variant, while it is likely to be a type 1 variant in the heterozygous state.

Conclusion

These data show that variants within the C-terminal region of VWF can dramatically impact proper VWF expression and can different impacts on VWF depending on homozygosity or heterozygosity.

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探讨罕见的血管性血友病致血管性血友病因子D4和c结构域突变

血管性血友病（VWD）以血浆血管性血友病因子（VWF）水平缺失或降低或蛋白功能降低为特征。虽然VWD致病突变的范围很广，但对VWF的D4-C6结构域（包括分子的c端部分）内发生的变异的描述有限。目的在本研究中，我们研究了9种可能引起vwd的低频变异对VWF功能的影响。方法通过位点定向诱变产生突变体，在人胚胎肾（HEK）293(T)细胞中表达，并分析其表达、细胞内储存和多聚体谱。Arg2379Cys形成二聚体的能力使用VWF的A2-CK片段进行评估。结果sarg2379cys、Ser2497Pro和Cys2639Tyr明显减少HEK293T细胞的分泌，而其他突变均不能分泌。虽然与野生型VWF共转染似乎可以挽救表达，但与缺失A1结构体共转染表明，只有Gly2044Asp、Glu2343Val、Ser2497Pro和Cys2693Tyr变体可以挽救表达。所有的变异在HEK293细胞中都不能形成明显的伪weibel - palade小体，并且在细胞裂解物中表现出异常的多聚体。Arg2379Cys变体仅通过形成的单体和一些二聚体过表达。与VWF-A2CK蛋白的分析表明，在纯合子状态下，Arg2379Cys的行为类似于2A型变异，而在杂合子状态下，它可能是1型变异。结论VWF c端变异可显著影响VWF的正常表达，且对VWF的影响随纯合性和杂合性的不同而不同。

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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