利用小鼠模型阐明 von Willebrand 因子裂解突变体 Y1605A/M1606A 和 R1597W 的表型效应。

Use of a mouse model to elucidate the phenotypic effects of the von Willebrand factor cleavage mutants, Y1605A/M1606A and R1597W.

机构信息

Department of Pathology and Molecular Medicine, Queen's University, Kingston, Canada.

出版信息

J Thromb Haemost. 2012 May;10(5):940-50. doi: 10.1111/j.1538-7836.2012.04675.x.

DOI:10.1111/j.1538-7836.2012.04675.x

PMID:22372972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5962034/

Abstract

BACKGROUND

von Willebrand Factor (VWF) is tightly regulated by the metalloproteinase ADAMTS13, which cleaves VWF to reduce VWF multimer size and binding affinity for collagen and platelets.

OBJECTIVE

This study examines two VWF mutations, R1597W (enhanced cleavage) and Y1605A-M1606A (decreased cleavage), to determine their impact on VWF, in addition to ADAMTS13-mediated cleavage.

METHODS

In vitro mouse ADAMTS13 digestions were performed on recombinant proteins. VWF knockout mice received hydrodynamic injections of mouse Vwf cDNA, following which VWF antigen, multimer profile and VWF propeptide levels were determined. A ferric chloride injury model of thrombosis was also evaluated.

RESULTS

In vitro ADAMTS13 digestion of full-length mouse VWF required > 97-fold higher ADAMTS13 levels for Y1605A/M1606A, and 68% lower ADAMTS13 levels for R1597W compared with wild type. In vivo, R1597W had reduced VWF:Ag and both mutations exhibited increased VWF propeptide/VWF:Ag ratios. R1597W multimers show a lower molecular weight profile compared with wild type and Y1605A/M1606A mice. When co-injected with Adamts13 cDNA, Y1605A/M1606A multimers were larger compared with wild type, and R1597W showed only a single multimer band and decreased clearance via VWFpp/VWF:Ag ratio. R1597W was associated with reduced thrombus formation but normal platelet accumulation in a ferric chloride injury model while Y1605A/M1606A had a loss of occlusive thrombi but increased platelet accumulation compared with wild type.

CONCLUSIONS

This study demonstrates that mutations that alter ADAMTS13 cleavage also can affect VWF clearance, VWF antigen level, multimer structure and thrombotic potential in the VWF knockout hydrodynamic injection model.

摘要

背景

血管性血友病因子（VWF）受金属蛋白酶 ADAMTS13 的严格调控，ADAMTS13 可裂解 VWF，降低 VWF 多聚体大小，并降低 VWF 与胶原和血小板的结合亲和力。

目的

本研究检测了 VWF 的两种突变，即 R1597W（增强裂解）和 Y1605A-M1606A（降低裂解），以确定它们对 VWF 的影响，以及 ADAMTS13 介导的裂解。

方法

对重组蛋白进行体外小鼠 ADAMTS13 消化。在接受小鼠 Vwf cDNA hydrodynamic 注射后，对 VWF 敲除小鼠进行 VWF 抗原、多聚体谱和 VWF 前肽水平的检测。还评估了氯化铁诱导的血栓形成模型。

结果

全长小鼠 VWF 的体外 ADAMTS13 消化需要 Y1605A/M1606A 高出 97 倍的 ADAMTS13 水平，而 R1597W 则需要 68%低的 ADAMTS13 水平。在体内，R1597W 降低了 VWF：Ag，并且两种突变都表现出增加的 VWF 前肽/VWF：Ag 比值。与野生型相比，R1597W 多聚体显示出较低的分子量谱，而 Y1605A/M1606A 小鼠则显示出增加的 VWF 前肽/VWF：Ag 比值。当与 Adamts13 cDNA 共注射时，Y1605A/M1606A 多聚体与野生型相比更大，而 R1597W 仅显示单一多聚体带，并通过 VWFpp/VWF：Ag 比值降低清除率。在氯化铁损伤模型中，R1597W 与血栓形成减少但血小板聚集正常有关，而 Y1605A/M1606A 与野生型相比则失去闭塞性血栓但血小板聚集增加。

结论

本研究表明，改变 ADAMTS13 裂解的突变也会影响 VWF 清除率、VWF 抗原水平、多聚体结构和 VWF 敲除 hydrodynamic 注射模型中的血栓形成潜力。

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