This report describes a plasmatic, fast-acting, specific inhibitor (antiactivator) of tissue-type plasminogen activator (t-PA) and urokinase (UK). After addition of t-PA to human plasma, biexponential decay of activity occurred. The initial rapid inhibition of t-PA activity (half-life of approximately one minute) was correlated with the formation of a complex of a molecular weight of 110,000, suggesting a molecular weight in the order of 40,000 for the antiactivator. Diisopropylfluorophosphate (DFP)-inactivated t-PA did not form complexes with antiactivator. The second-order rate constant for the interaction of t-PA with antiactivator is in the order of 10(7) mol/L-1 sec-1. In plasma, UK added at low concentrations rapidly formed complexes of a mol wt of 95,000. Preincubation of the plasma with t-PA prevented complex formation of UK, and vice versa, suggesting that the same inhibitor inactivates both t-PA and UK. After exhaustion of the antiactivator, t-PA and UK formed complexes with alpha 2-antiplasmin and C1′-inhibitor at a low rate.
SummaryThe relative contribution of platelets to plasminogen activator inhibitor (PA-inhibitor) activity in blood was investigated. From the difference in PA-inhibitor levels in platelet-poor plasmas of 12 donors (3 ± 1 U/ml, mean ±95% confidence limits) and in the corresponding platelet-rich plasmas after induction of platelet aggregation by collagen, ADP or epinephrine (7 ± 1 U/ml), it may be concluded that a greater amount of PA-inhibitor in blood is associated with platelets than with plasma. In collagen-stimulated platelets maximal release of PA-inhibitor and of beta-thromboglobulin (β-TG) was attained within fifteen seconds, whereas in ADP-stimulated platelets the release of both factors was slower. In platelet-poor plasma no correlation was found between the level of PA-inhibitor and that of P-TG. Thus, the PA-inhibitor found in plasma is not derived from platelets that had been stimulated after blood collection. The rate of complex formation and the Mr of the principal complexes of radioiodinated tissue-type plasminogen activator (t-PA) or urokinase (UK), in platelet-poor plasma, in platelet-rich plasma after platelet aggregation or in an extract of washed platelets was the same. Moreover, complexes of UK or t-PA with plasmatic PA-inhibitor or with the PA-inhibitor(s) from platelets bound to immobilized antibodies against bovine endothelial cell-derived PA-inhibitor. These results show that the PA-inhibitors in plasma and in platelets are very similar or identical.
During pregnancy the plasma concentration of two different inhibitors of plasminogen activators (PAIs) increases. The only one found in the plasma of nonpregnant women (PAI1) is immunologically related to a PAI of endothelial cells; its plasma activity, as deduced from the inhibition of single-chain tissue-type plasminogen activator (t-PA), increased from 3.4 +/- 2.3 U/mL (mean +/- 95% confidence limits) in the plasma of nonpregnant women to 29 +/- 7 U/mL at term, and its antigen level, measured by a radioimmunoassay, increased from 54 +/- 17 ng/mL to 144 +/- 25 ng/mL. In pregnancy plasma a second PAI (PAI 2) related to a PAI found in placenta extracts was observed. Its level, quantified with a radioimmunoassay, increased from below the detection limit (approximately 10 ng/mL) in normal plasma to 260 ng/mL at term. One hour after delivery, PAI 1 activities and antigen decreased sharply, but the PAI 2 antigen levels remained constant. Three days later, the PAI 1 antigen levels had fallen to normal levels, but the PAI 2 antigen levels were still at least eightfold above the nonpregnant values. During pregnancy, the t-PA and prourokinase (u-PA) antigen concentrations increased 50% and 200%, respectively, whereas the plasminogen and alpha 2-antiplasmin levels remained constant. Despite the large variations in the levels of PAs and PAIs, the overall fibrinolytic activity as measured in diluted plasma by a radioiodinated fibrin plate assay did not change significantly. Just after delivery, a great increase in the t-PA antigen levels was observed. Three to five days after delivery most parameters of the fibrinolytic system were normal again. Our results demonstrate that during pregnancy and in the puerperium profound alterations of the fibrinolytic system occur that are characterized by increases in PAs and their inhibitors, but these alterations do not affect the overall fibrinolytic activity.
SummaryPlasma concentrations of tissue-type plasminogen activator (t-PA), urokinase (u-PA), plasminogen activator inhibitor 1 (PAI-1) and PAI-2 were studied in 53 patients with liver deficiency caused by chronic alcoholism (n = 40), viral hepatitis (n = 10) or malignant disease of the liver (n = 3) and compared to that of a control group (n = 20) of healthy subjects. u-PA and PAI-1 levels were significantly increased in all patients with chronic alcoholism, whereas high t-PA was only observed in combination with disturbed liver function tests or with liver cirrhosis (two and sixfold above control values, respectively). A good correlation was observed between t-PA and gamma glutamyl transferase (r = 0.615; p <0.001). In patients with infectious hepatitis or with malignant disease of the liver t-PA was normal whereas u-PA and PAI-1 were increased.PAI-2 levels were close to or below the detection limit (15 ng/ml) in the control group and in most patients. However, in two patients with alcohol induced cirrhosis PAI-2 levels were approximately 45 ng/ml and in one patient with hepatocarcinoma even 66 ng/ml. Thus, in liver disease, marked elevations of t-PA, u-PA and PAI-1 levels may occur, with increased PAI-1 as an early marker of liver defects and t-PA a marker of severe liver defects.
Abstract. Porcine tissue-type plasminogen activator (t-PA) increases the binding of 125I-glu-plasminogen to clots made from human plasma or purified fibrinogen in a time and t-PA concentration dependent fashion. The accumulation of plasminogen was faster and greater on noncrosslinked plasma clots than on clots which had been crosslinked by Factor XIIIa. Furthermore, the uptake of plasminogen to crosslinked fibrin clots occurred at a slower rate in the presence of a2-plasmin inhibitor (a2PI) than in its absence. The kinetics of the uptake of '251-plasminogen were analyzed using SDS-polyacrylamide gel electrophoresis and radioautography of solubilized plasma clots formed in the presence of t-PA. During the initial phase there was a decrease of clot-bound glu-plasminogen; simultaneously, there was a slight increase in clot-bound glu-plasmin and in plasmin complexed to a2PI that was crosslinked to a-chain polymers of fibrin. This was followed by a marked increase in clot-bound plasminogen having glutamic acid as NH2-terminal (glu-plasminogen) and gluplasmin. t-PA-induced enhancement of glu-plasminogen uptake appears to be mediated by plasmin but does not require the conversion of glu-plasminogen to plasminogen having lysine or methionine as NH2-terminal. The described mechanism assures an adequate supply of clot-bound plasmin, which is the enzyme ultimately involved in the degradation of fibrin.
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