[Activation of key proenzymes of the blood coagulation system by the fibrin E fragment]. / Aktyvatsiia kliuchovykh profermentiv systemy zsidannia krovi frahmentom E fibrynu.

Plasminogen and prothrombin are key proenzymes of fibrinolytic and clotting system. It is known that they can be activated by indirect activators streptokinase and staphylocoagulase. In this paper it is shown that fibrin E fragment purified from DD-E complex induced catalytic activity in plasminogen and clotting activity in prothrombin. Streptokinase increased 2 times the rate of catalytic activity induction by E fragment in prothrombin. It's possibly that process is one of the factors providing for rethrombosis after thrombolytic therapy of myocardial infarction.

[Degradation of streptokinase and the catalytic properties of the plasmin-streptokinase complex]. / Dehradatsiia streptrokinazy ta katalitichi vlastyvosti plazmin-streptokinaznoho kompleksu.

Streptokinase (SK) interacts with human plasminogen (Pg) or plasmin (Pm) with formation of Pg-SK or Pm-SK complex. Pm-SK complex manifests a fibrinolytic, amidolytic and Pg activator activity. SK in complex with Pm isn't stable and so capable to be hydrolysed rapidly. We investigated a correlation between molecular form of SK and catalytic properties of equimolar Pm-SK complex during preincubation at 20 degrees C. It was found out that amidolytic activity of Pm-SK complex was not changing for 5 hours and decreased to the initial Pm value after 24 hours. During this time alpha 2-antiplasmin (alpha 2-AP) has any effect on amidolytic activity of the complex. Fibrinolytic activity of Pm-SK complex makes up 20% of the initial Pm value and wasn't changing within the investigated period. Pg activator activity was decreasing rapidly to 30-40% of the initial one within few minutes from the moment of Pm-SK complex formation. It was 10-20% of that initial after 24 hours. The decrease in Pg activator activity of Pm-SK complex correlated with the initial very rapid conversion of 47 kDa SK to 36 kDa SK within few minutes and following more slow conversion of SK in 31, 25 and 15 kDa fragments after 5 hours. alpha 2-AP didn't influence on the Pg activator activity of Pm-SK complex but eliminated its fibrinolytic activity completely. It was supposed that alpha 2-AP inhibited fibrinolytic activity of Pm-SK complex similarly to 6-aminohexanoic acid by preventing Pm-SK complex binding to fibrin polymer.

[Features of the interaction between alpha2-antiplasmin and plasminogen/plasmin]. / Osoblyvosti vzaémodiï alpha2-antyplazminu z plazminohenom/plazminom.

The kinetic of plasmin, Va1442-plasmin, Lys530-plasmin inhibition reaction by alpha 2-antiplasmin as well as interaction of the inhibitor with different derivatives of the plasminogen and its fragments were studied. It was shown that plasmin, mini- and micro-plasmin activity decreased by 97, 88 and 85%, respectively, for equimolar ratio 1:1 of the inhibitor. The value of the inhibition reached its maximum in 1-2, 5-10 and 10-15 min, respectively. The constants of the complex formation rate were 1.4 x 10(6); 1.7 x 10(5) and 6.2 x 10(4) M-1s-1 for the plasmin, mini- and micro-plasmin with alpha 2-antiplasmin, respectively. Both 10(-2) M 6-aminohexanoic acid and 10(-1) M arginine reduced the complex formation rate between plasmin, mini-plasmin and alpha 2-antiplasmin to the value of the rate reaction between micro-plasmin and inhibitor. alpha 2-Antiplasmin bound with all investigated derivatives and fragments of plasminogen. The amount of inhibitor decreased in the series: plasmin, kringle 1-3, kringle 4, mini-plasminogen, micro-plasminogen. The kringle 1-4 and kringle 5 were determined to control the rate of reaction between enzyme and inhibitor, being not necessary for the inhibition. The comparison of the inhibitor interaction with DPP-plasmin, mini-plasminogen and micro-plasminogen displayed the possibility of the additional region existence in catalytic domain. This region participated in the complex with alpha 2-antiplasmin formation. It is supposed that the multisite interaction between plasmin and alpha 2-antiplasmin provides for the specificity and efficiency the inhibitor action.

[Plasminogen activation by antiplasminogen monoclonal antibody IV-1C. Properties and mechanism of reaction]. / Aktyvatsiia plazminhenu antyplazminohenovym monoklonal;nym antytilom IV-1c. Vlastyvosti ta mekhanizm reaktsiï

In review the results of investigation of plasminogen(Pg) activation by antiplasminogen monoclonal antibody IV-1c have been presented. Antigenic determinant of IV-1c was localized in Val709-Gly718 site of Pg protease domain. IV-1c completely inhibited the Pg activation by streptokinase, but increased the rate of Pg activation by t-PA and urokinase. Catalytic properties of plasmin in complex with IV-1c were studied. It was found that IV-1c induced catalytic activity in Pg-IV-1c complex. It was shown that Pg and IV-1c interacts in complex by two-centre mechanism: IV-1c binds with Pg by paratope and by N-terminal lysine of gamma-chain and Pg binds to IV-1c by one of the lysine binding sites and by V709-G718 site of protease domain. The influence of pH, temperature, 1.5 mM Ca2+, Mg2+, Sr2+, Ba2+, Co2+, Ni2+ cations and 10 mM Cl-, F-, Ac-, SO4(2-), HPO4(2-) anions on lag and fast phases of Pg activation by VI-1c was investigated. It was revealed that Val709-Gly718 site was determining in Pg activation by IV-1c and streptokinase.

[Laboratory diagnosis of the status of the hemostasis system]. / Laboratorna diahnostyka stanu systemy hemostazu.

Activators of fibrinogen, prothrombin and protein C isolated from venoms of Agkistrodon halys halys and Echis multisquamatus may be used as a tool both for thrombosis investigations in the model systems and for diagnostic in the clinical practice. The complex of diagnostic tests developed on the base of these activators allows to characterize the haemostatic system at different pathologies and as well as to determine the unbalance between separate components of haemostasis. The tests are approved on plasma of patients with heart diseases, ulcers, nephrites, hestoses etc. The tests are sensitive, informative, easy to use and do not require an additional equipment. They have no analogues in Ukraine.

[Features of plasminogen activation in a complex with antiplasminogen monoclonal antibody IV-1C]. / Osoblyvosti aktyvatsiï plazminohena v kompleksi z antyplazminohenovim monoklonal'nym antytilom IV-1C.

Antiplasminogen monoclonal antibody IV-1c (IV-1c) with antigenic determinant in V709-G718 site of plasminogen (Pg) protease domain (Druzhina N.N. et al. 1996.) can induce catalytic activity in Pg moiety of the complex. Catalytic activity appeared in Pg-IV-1c complex after approximately 2 h lag-period. Rate of Lys-Pg activation was higher then that of Glu-Pg. Amidolytic activity of Pg-SK equimolar complex was completely inhibited by IV-1c at 2:1 = Pg:IV-1c molar ratio. At constant Glu-Pg concentration increasing of the IV-1c concentration to equimolar of Pg accelerated Pg activation. Subsequent increase of IV-1c concentration inhibited the Pg activation sharply. Increasing of Glu-Pg concentration at constant IV-1c one did not inhibit Glu-Pg activation in Pg-IV-1c complex. The rate dependence of Pg activation from Glu-Pg-IV-1c complex concentration curve had bell-shaped form with maximum at 500 nM. Electrophoretic analysis of components of Glu-Pg-IV-1c complex showed that Lys-Pg and Lys-Pm were not observed at 100 nM complex concentration for 6 h period of reaction. At 680 nM concentration Glu-Pg-IV-1c complex these forms appeared in initial moments of reaction activation after lag-period. Kinetic scheme and peculiarities of Pg activation reaction in Pg-IV-1c complex are discussed.

[Plasminogen binding with decapeptide and polypeptide fragments of streptokinase]. / Zv'iazuvannia plazminohena z dekapeptydnymy ta polipeptydnymy frahmentamy sterptokinazy.

The plasminogen binding with streptokinase decapeptides, modeling the primary structure of molecule, and chymotryptic fragments of streptokinase have been investigated. The immunoenzymatic assay has shown that plasminogen binds to all streptokinase fragments with the decreasing affinity in the set of fragments: 36 > 30 > 17 > 7 > 11 kDa. Location of the binding sites in streptokinase primary structure was performed using the immobilized decapeptides on plastic pins adopted to IEA. In the presence of 10 mM 6-aminohexanoic acid 11 sites for human Glu- and mini-plasminogens, pig and bovine plasminogens binding have been found. They were of the same location for human, bovine and pig plasminogens. 3 sites were located in plasminogen alpha-domain--T43-A72, N113-T126, Q133-V158, 5 sites in beta-domain--T163-L188, A203-S222, Q239-I264, Y275-L294, T315-L340, and 3 sites in gamma-domain--T361-R362, N377-E392, T397-N410. Participation of linear part of streptokinase polypeptide chain in plasminogen--streptokinase complex formation is suggested.