Physicochemical Features of Thrombin Binding to Platelet Membrane

R. R. Kerimov, D. Yu. Nechipurenko, M. A. Panteleev
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Abstract

Thrombin is a key enzyme of the blood coagulation system, which has been actively studied since the beginning of the last century. The formation of thrombin from prothrombin in the vicinity of vessel injury leads not only to the formation of fibrin—an important structural component of the hemostatic clot—but also to the activation of platelets, endothelium and immune system cells. The binding of thrombin to the platelet surface is thought to play a critical role in the process of platelet activation and may also ensure the maintenance of a high concentration of thrombin within the thrombus due to the concentration of protease on the platelet surface. Nowadays, all major thrombin receptors on platelets have been thoroughly characterized: through various experimental methods, the physicochemical parameters of the corresponding intermolecular interactions have been established. Since the interaction of thrombin with platelets leads to their activation, which includes changes in the number of receptors as a result of granule secretion, the interpretation of the observed kinetic binding curves faces a number of difficulties. It is known that as a result of platelet activation some receptors are able to redistribute on the membrane and form dimers and clusters, which makes the kinetics of thrombin binding to platelets an extremely complex process dependent on many factors, such as activator concentrations, platelet state, and other local parameters of the system. This review aims to describe the current understanding of the interaction of thrombin with the platelet membrane and to outline important unresolved issues in this area of research. The review provides not only information on structural and kinetic features of thrombin binding to individual platelet membrane proteins, but also analyzes the relationship between the relevant interaction parameters and previously obtained data on the integral kinetics of protease binding to the platelet surface.

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凝血酶与血小板膜结合的物理化学特征
摘要凝血酶是血液凝固系统中的一种关键酶,自上世纪初以来,人们对它进行了积极的研究。凝血酶原在血管损伤附近形成凝血酶,不仅会导致纤维蛋白--止血凝块的重要结构成分--的形成,还会激活血小板、内皮细胞和免疫系统细胞。凝血酶与血小板表面的结合被认为在血小板活化过程中起着至关重要的作用,而且由于血小板表面蛋白酶的浓缩,还可确保血栓内凝血酶浓度的维持。如今,血小板上所有主要的凝血酶受体都已被彻底表征:通过各种实验方法,相应的分子间相互作用的理化参数已经确定。由于凝血酶与血小板的相互作用会导致血小板的活化,其中包括颗粒分泌导致受体数量的变化,因此对观察到的动力学结合曲线的解释面临许多困难。众所周知,血小板活化后,一些受体能够在膜上重新分布,形成二聚体和簇,这使得凝血酶与血小板结合的动力学过程极其复杂,取决于许多因素,如活化剂浓度、血小板状态和系统的其他局部参数。本综述旨在描述目前对凝血酶与血小板膜相互作用的理解,并概述这一研究领域尚未解决的重要问题。综述不仅提供了凝血酶与单个血小板膜蛋白结合的结构和动力学特征的信息,还分析了相关相互作用参数与之前获得的蛋白酶与血小板表面结合的整体动力学数据之间的关系。
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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
28
期刊介绍: Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology   is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.
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