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Hemostasis Thrombosis and Vascular Biology: Platelet-VWF complexes are preferred substrates of ADAMTS13 under fluid shear stress

机译：止血血栓形成和血管生物学：在流体剪切应力作用下血小板-VWF复合物是ADAMTS13的优选底物

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Endothelial cells secrete prothrombotic ultralarge von Willebrand factor (VWF) multimers, and the metalloprotease ADAMTS13 cleaves them into smaller, less dangerous multimers. This reaction is stimulated by tensile force applied to the VWF substrate, which may occur on cell surfaces or in the circulating blood. The cleavage of soluble VWF by ADAMTS13 was accelerated dramatically by a combination of platelets and fluid shear stress applied in a cone-plate viscometer. Platelet-dependent cleavage of VWF was blocked by an anti-GPIbα monoclonal antibody or by a recombinant soluble fragment of GPIbα that prevents platelet-VWF binding. Multimeric gel analysis showed that shear and platelet-dependent cleavage consumed large VWF multimers. Therefore, ADAMTS13 preferentially acts on platelet-VWF complexes under fluid shear stress. This reaction is likely to account for a majority of VWF proteolysis after secretion and to determine the steady-state size distribution of circulating VWF multimers in vivo.

机译：内皮细胞分泌促血栓性超大型血管性假性血友病因子（VWF）多聚体，金属蛋白酶ADAMTS13将其裂解为较小的，危险性较小的多聚体。施加在VWF基底上的拉力会激发该反应，该拉力可能发生在细胞表面或循环血液中。通过在锥板粘度计上施加血小板和流体剪切应力的组合，ADAMTS13对可溶性VWF的裂解显着加快。 VWF的血小板依赖性切割被抗GPIbα单克隆抗体或阻止血小板-VWF结合的GPIbα重组可溶性片段阻断。多聚体凝胶分析表明，剪切和血小板依赖性裂解消耗了大的VWF多聚体。因此，ADAMTS13在流体剪切应力下优先作用于血小板-VWF复合物。该反应很可能占分泌后VWF蛋白水解的大部分，并确定体内循环VWF多聚体的稳态大小分布。

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期刊名称 Blood
作者
Kyuhwan Shim; Patricia J. Anderson; Elodee A. Tuley; Erin Wiswall; J. Evan Sadler;
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作者单位

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年(卷),期 -1(111),2
年度 -1
页码 651–657
总页数 52
原文格式 PDF
正文语种
中图分类血液学检验;
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1. Platelet-VWF complexes are preferred substrates of ADAMTS13 under fluid shear stress. [J] . Shim K, Anderson PJ, Tuley EA, Blood: The Journal of the American Society of Hematology . 2008,第2期

机译：血小板-VWF复合物是在流体剪切应力下ADAMTS13的优选底物。
2. Von Willebrand factor, shear stress, and ADAMTS13 in hemostasis and thrombosis [J] . TsaiH.-M. ASAIO journal . 2012,第2期

机译：Von Willebrand因子，切应力和ADAMTS13在止血和血栓形成中的作用
3. Protease-activated receptors in hemostasis, thrombosis and vascular biology. [J] . Coughlin SR Journal of thrombosis and haemostasis: JTH . 2005,第8期

机译：蛋白酶激活的受体在止血，血栓形成和血管生物学中的作用。
4. Online quantitative phase imaging of vascular endothelial cells under fluid shear stress utilizing digital holographic microscopy [C] . Maria Odenthal-Schnittler, Hans Joachim Schnittler, Bjoern Kemper Quantitative phase imaging II . 2016

机译：利用数字全息显微镜对流体剪切应力作用下的血管内皮细胞进行在线定量相成像
5. Regulation of protein structure and function under fluid shear: Role of Von Willebrand factor in thrombosis and hemostasis. [D] . Singh, Indrajeet. 2009

机译：流体剪切作用下蛋白质结构和功能的调节：Von Willebrand因子在血栓形成和止血中的作用。
6. Hemostasis Thrombosis and Vascular Biology: Extensive contacts between ADAMTS13 exosites and von Willebrand factor domain A2 contribute to substrate specificity [O] . Weiqiang Gao, Patricia J. Anderson, J. Evan Sadler -1

机译：止血血栓形成和血管生物学：ADAMTS13外膜与von Willebrand因子域A2之间的广泛接触有助于底物特异性
7. Platelet-VWF complexes are preferred substrates of ADAMTS13 under fluid shear stress [O] . Shim, Kyuhwan, Anderson, Patricia J., Tuley, Elodee A., 2008

机译：血小板-VWF复合物是流体剪切应力下ADAMTS13的优选底物

Hemostasis Thrombosis and Vascular Biology: Platelet-VWF complexes are preferred substrates of ADAMTS13 under fluid shear stress

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