ADAMTS13富含半胱氨酸结构域在血管性血友病因子（VWF）结合及蛋白水解中的作用。

The role of the ADAMTS13 cysteine-rich domain in VWF binding and proteolysis.

作者信息

de Groot Rens, Lane David A, Crawley James T B

机构信息

Centre for Haematology, Faculty of Medicine, Imperial College London, Hammersmith Hospital Campus, London, United Kingdom.

出版信息

Blood. 2015 Mar 19;125(12):1968-75. doi: 10.1182/blood-2014-08-594556. Epub 2015 Jan 6.

DOI:10.1182/blood-2014-08-594556

PMID:25564400

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4366626/

Abstract

ADAMTS13 proteolytically regulates the platelet-tethering function of von Willebrand factor (VWF). ADAMTS13 function is dependent upon multiple exosites that specifically bind the unraveled VWF A2 domain and enable proteolysis. We carried out a comprehensive functional analysis of the ADAMTS13 cysteine-rich (Cys-rich) domain using engineered glycans, sequence swaps, and single point mutations in this domain. Mutagenesis of Cys-rich domain-charged residues had no major effect on ADAMTS13 function, and 5 out of 6 engineered glycans on the Cys-rich domain also had no effect on ADAMTS13 function. However, a glycan attached at position 476 appreciably reduced both VWF binding and proteolysis. Substitution of Cys-rich sequences for the corresponding regions in ADAMTS1 identified a hydrophobic pocket involving residues Gly471-Val474 as being of critical importance for both VWF binding and proteolysis. Substitution of hydrophobic VWF A2 domain residues to serine in a region (residues 1642-1659) previously postulated to interact with the Cys-rich domain revealed the functional importance of VWF residues Ile1642, Trp1644, Ile1649, Leu1650, and Ile1651. Furthermore, the functional deficit of the ADAMTS13 Cys-rich Gly471-Val474 variant was dependent on these same hydrophobic VWF residues, suggesting that these regions form complementary binding sites that directly interact to enhance the efficiency of the proteolytic reaction.

摘要

ADAMTS13通过蛋白水解作用调节血管性血友病因子（VWF）的血小板黏附功能。ADAMTS13的功能依赖于多个外部位点，这些位点特异性结合解旋的VWF A2结构域并实现蛋白水解。我们使用工程化聚糖、序列交换和该结构域中的单点突变对ADAMTS13富含半胱氨酸（Cys-rich）的结构域进行了全面的功能分析。对Cys-rich结构域带电荷残基进行诱变对ADAMTS13的功能没有重大影响，并且Cys-rich结构域上6个工程化聚糖中的5个对ADAMTS13的功能也没有影响。然而，连接在第476位的聚糖显著降低了VWF的结合和蛋白水解作用。用ADAMTS1中相应区域的Cys-rich序列进行替换，确定了一个涉及Gly471-Val474残基的疏水口袋，对VWF结合和蛋白水解都至关重要。在先前推测与Cys-rich结构域相互作用的区域（残基1642-1659）将VWF A2结构域的疏水残基替换为丝氨酸，揭示了VWF残基Ile1642、Trp1644、Ile1649、Leu1650和Ile1651的功能重要性。此外，ADAMTS13 Cys-rich Gly471-Val474变体的功能缺陷取决于这些相同的疏水VWF残基，这表明这些区域形成了互补结合位点，直接相互作用以提高蛋白水解反应的效率。

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