[Role of plasminogen/plasmin in functional activity of blood cells].

The article deals with the data concerning structural peculiarities of plasminogen/plasmin molecule, which define the specificity of intermolecular interactions and provide the variety of its biological functions. The main principles of the modern classification of plasminogen receptors and factors, which modulate their expression, have been presented. We have considered the mechanisms regulating both plasmin formation and activity on the surface of cells, fibrin and proteins of extracellular matrix. The data of previous investigators and our own results, concerning the influence of plasminogen/plasmin on platelet aggregation induced by different agonists, have been summarized. The participation of plasminogen/plasmin in atherogenesis and angiogenesis mediated by endotheliocyte receptors has been discussed. Special attention was given to plasminogen/plasmin proinflammatory function, which is realized by regulatory processes of activation, secretion, migration and apoptosis of monocytes and macrophages.

[Effect of streptokinase on the interaction of alpha-2-antiplasmin with different sites of plasmin molecule]. / Vliianie streptokinazy na vzaimodeistvie alfa-2-antiplazmina s razlichnymi uchastkami molekuly plazmina.

Interaction of streptokinase and alpha-2-antiplasmin with plasmin and plasminogen fragments was compared. Binding sites on the enzyme become half-saturated, streptokinase and alpha-2-antiplasmin concentration being 8.5 and 30 nM, respectively. 6-Aminohexanoic acid in concentration of 20 mM reduces the adsorption of streptokinase and and alpha-2-antiplasmin by 20 and 60%, respectively. From all the investigated fragments, streptokinase shows the greatest affinity for mini-plasminogen and alpha-2-antiplasmin for kringles 1-3. Both proteins in the presence of 20 mM 6-aminohexanoic acid do not bind with kringle domains. Arginine dose 0.1 M does not influence streptokinase adsorption on mini-plasminogen and decreases the value of alpha-2-antiplasmin binding with mini-plasminogen by 50%. The data obtained indicate that plasminogen molecule has the sites of the highest affinity for streptokinase on the serine-proteinase domain, however for alpha-2-antiplasmin it is in the kringles 1-3. Streptokinase with equimolar quantity in respect of alpha-2-antiplasmin inhibits the adsorption of alpha-2-antiplasmin on the plasmin by 70% and in the presence of 6-aminohexanoic acid it is inhibited completely. Addition of streptokinase also increases the influence of increasing concentration of the acid. Inhibiting influence of streptokinase decreases, and that of 6-aminohexanoic acid increases, when plasmin is modified with diisopropylfluorophosphate in its active centre. At the same time maximum inhibition of streptokinase adsorption on the plasmin at different concentrations of alpha-2-antiplasmin and 6-aminohexanoic acid accounts for only 20%. We suppose that in the process of complex formation streptokinase competes with alpha-2-antiplasmin for the binding sites on the catalytic domain of the plasmin. Partial or complete blocking of the plasmin active centre contact zone by streptokinase effectively protects it from inhibition by alpha-2-antiplasmin.

[Modifying effect of antiplasminogen monoclonal antibody IV-1c on human plasmin catalytic properties]. / Modifitsiruiushchee deistvie antiplazminogenovogo monoklonal'nogo antitela IV-1c na kataliticheskie svoistva plazmina cheloveka.

Antiplasminogen monoclonal antibody IV-1c (IV-1c) binds to Val 709-Gly 718 site of plasminogen (Pg) protease domain, which is far removed from the active site. Pg-IV-1c complex formation induces catalytic activity in proenzymes active site. Influence of IV-1c binding to plasmin (Pm) on Pm catalytic properties has not been investigated yet. Data on catalytic properties of Pm in equimolar Pm-IV-1c complex are presented. It was found that Pm and mini-Pm amidolytic and caseinolytic activity was twice as high as in Pm-IV-1c and mini-Pm-IV-1c complexes. 20 mM 6-AHA and 100 mM arginine did not influence this rise. The increase of amidolytic activity is connected with reduction of K(m) of S 2251 hydrolysis reaction for Pm and mini-Pm from 0.125 and 0.43 to 0.05 and 0.23 mM, correspondingly. Kcat remains almost the same. Fibrinolytic and fibrinogenolytic activity of Pm in Pm-IV-1c complex decreased to 20% of initial value alpha 2-Antiplasmin inhibited Pm activity in complex Pm-IV-1c by 80%. Pm-IV-1c complex did not activate free Pg, but activated equimolar Pg-IV-1c complex. Affinity of IV-1c to Pm and Pg was the same as C50 approximately 1.5 nM. Binding of Pm with IV-1c in a complex: a) leads to increase of Pm active site affinity to LMW substrates; b) causes steric hindrances for fibrin/fibrinogen access to Pm active site; c) proceeds with the same affinity for Pm and Pg, that indicates to invariable Val 709-Gly 718 site conformation after Pg transition in Pm.