Effect of Hypochlorite- and Peroxide-Induced Oxidation of Fibrinogen on the Fibrin Structure.

Using the methods of dynamic and elastic light scattering and confocal laser scanning microscopy, the damage in the spatial fibrin structure during peroxide- and hypochlorite-induced oxidation of fibrinogen was studied. Peroxide had a weak effect on the structural organization of fibrin, whereas hypochlorite caused the formation of abnormal fibrin with reduced individual fiber diameter and decreased porosity. Measurements of the size distributions of the native and oxidized fibrinogen revealed a decrease in the hydrodynamic size of the oxidized fibrinogen molecule with an increase in the concentration of oxidizers. These results indicate that the hydrophobicity of fibrinogen surface increased and its colloidal stability decreased. The possible role of oxidative sites in the assembly of structurally abnormal fibrin is analyzed.

Procoagulant Platelets: Mechanisms of Generation and Action.

During the past decades, it has been increasingly recognized that the major function of accelerating membrane-dependent reactions of blood coagulation is predominantly implemented by a subset of activated platelets. These procoagulant platelets (also called collagen- and thrombin-activated or COAT, coated, necrotic, although there could be subtle differences between these definitions) are uniquely characterized by both procoagulant activity and, at the same time, inactivated integrins and profibrinolytic properties. The mechanisms of their generation both in vitro and in situ have been increasingly becoming clear, suggesting unique and multidirectional roles in hemostasis and thrombosis. In this mini-review, we shall highlight the existing concepts and challenges in this field.

[Regulation of Membrane-Dependent Reactions of Blood Coagulation].

All major coagulation reactions do not occurs in blood plasma itself, these processes are actually two-dimensional reactions localized to thephospholipid membranes. Almost all blood cells, lipoproteins, and microparticles provide assembly of protein complexes. A central role among them are played by platelets and platelet-derived microparticles. On their membranes occurs the most important coagulation reactions such as activation of prothrombin by prothrombin complex, activation of factor X by complexes intrinsic and extrinsic tenase. This reactions are important for processes activation of the contact path coagulation, activation factor XI by thrombin, appearance of enzymatic activity of factor VIIa etc. This review is focused on the membrane-dependent reactions, here are discussed mechanisms and regulation these reactions and the possible prospects of the study.