水蛭素
凝血酶
化学
抗血栓
硫酸化
生物化学
直接凝血酶抑制剂的发现与发展
凝结
药理学
抗凝剂
混凝级联
医学
血小板
免疫学
内科学
作者
Alina Volkova,Pavel I. Semenyuk
出处
期刊:Proteins
[Wiley]
日期:2023-10-20
被引量:3
摘要
Abstract Thrombin is one of the key enzymes of the blood coagulation system and a promising target for the development of anticoagulants. One of the most specific natural thrombin inhibitors is hirudin, contained in the salivary glands of medicinal leeches. The medicinal use of recombinant hirudin is limited because of the lack of sulfation on Tyr63, resulting in a 10‐fold decrease in activity compared to native (sulfated) hirudin. In the present work, a set of hirudin derivatives was tested for affinity to thrombin: phospho‐Tyr63, Tyr63(carboxymethyl)Phe, and Tyr63Glu mutants, which mimic Tyr63 sulfation and Gln65Glu mutant and lysine‐succinylated hirudin, which enhance the overall negative charge of hirudin, as well as sulfo‐hirudin and desulfo‐hirudin as references. Using steered molecular dynamics simulations with subsequent umbrella sampling, phospho‐hirudin was shown to exhibit the highest affinity to thrombin among all hirudin analogs, including native sulfo‐hirudin; succinylated hirudin was also prospective. Phospho‐hirudin exhibited the highest antithrombotic activity in in vitro assay in human plasma. Taking into account the modern methods for obtaining phospho‐hirudin and succinylated hirudin, they are prospective as anticoagulants in clinical practice.
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