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Query: EC:3.4.21.73 (
urokinase-type plasminogen activator
)
10,685
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In a previous study, it was shown that fibrin fragment
E-2
selectively promotes the activation of plasminogen by pro-
urokinase
(pro-UK) [Liu, J., & Gurewich, V. (1991) J. Clin. Invest. 88, 2012-2017]. In this study, the kinetics of this promotion by fragment
E-2
was studied. Alanine-158-rpro-UK (A-pro-UK), a recombinant plasmin-resistant mutant, was used in order to avoid interference by UK generation during the reaction. In some experiments, pro-UK was substituted in order to validate the mutant as a surrogate. In the presence of a range of concentrations (0-20 microM) of fragment
E-2
, a linear promotion of the catalytic efficiency of A-pro-UK against native Glu-plasminogen was seen which was 245.5-fold at the highest concentration of fragment
E-2
and 450-fold at the highest ratio of
E-2
/plasminogen used. The promotion was largely a function of an increase in kcat, since fragment
E-2
induced a less than 10-fold reduction in KM (8.50-1.40 microM). In contrast to this ligand, epsilon-aminocaproic acid (EACA) induced a biphasic promotion of the activation of Glu-plasminogen which was only 18-fold at maximum. Fragment
E-2
did not promote the activation of Lys-plasminogen, but the catalytic efficiency of A-pro-UK was 19.7-fold greater against the open Lys-form than against the closed Glu- form of plasminogen. Fragment
E-2
had no effect on the amidolytic activity of A-pro-UK or pro-UK, suggesting that the promotion of their activities was indirect and related to a fragment
E-2
-induced conformational change in Glu-plasminogen.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Fragment E-2 from fibrin substantially enhances pro-urokinase-induced Glu-plasminogen activation. A kinetic study using the plasmin-resistant mutant pro-urokinase Ala-158-rpro-UK. 138 27
Plasminogen activation by single-chain
urokinase-type plasminogen activator
or pro-
urokinase
(pro-UK) is accompanied by the generation of two-chain
urokinase
(UK) by plasmin which provides a positive feedback. In the present study, the time course of the activation of Glu-plasminogen and of Lys-plasminogen (10 microM) by pro-UK (1.0 nM) was studied. In the presence of native plasminogen (Glu-plasminogen), three distinct phases with different rates of plasmin generation were observed. The initial phase was slow and corresponded to the intrinsic activity of pro-UK as reflected by the activity of a plasmin-resistant mutant (Lys158----Ala). This was followed by a second phase which had the most rapid rate. The third phase had a plasminogen activation rate which was significantly slower than the second and paralleled the rate of activation by UK (1.0 nM). The second phase coincided with the time at which there was only about 50% conversion of pro-UK to UK, whereas the final phase coincided with essentially complete conversion. In the presence of fibrin fragment
E-2
(20 microM), previously shown to strongly promote plasminogen activation by pro-UK, the identical phenomenon was observed, but at one-tenth the concentration of pro-UK. The most rapid rate of plasmin generation again coincided with transitional (25-60%) pro-UK to UK conversion. To further examine this phenomenon, the rate of pro-UK to UK conversion was controlled by using kallikrein in the presence of a plasmin inhibitor. In this experiment, the activation of Glu-plasminogen bound to solid-phase fibrin was measured. A similar three-phase sequence was observed, the highest rate of plasmin generation coinciding with about 45% conversion of pro-UK to UK. A mechanism for this transitional state phenomenon was postulated based on the established significantly higher affinity of pro-UK than of UK for Glu-plasminogen. This exceptional property for a proenzyme may enable a transient activity to be generated during the transition from pro-UK to UK corresponding to the more favorable KM of pro-UK and the kcat of UK. This hypothesis was supported by the results from experiments in which Lys-plasminogen was substituted for the Glu form. No transitional state activity was observed, consistent with the relatively high KM of pro-UK against Lys-plasminogen.
...
PMID:A transitional state of pro-urokinase that has a higher catalytic efficiency against glu-plasminogen than urokinase. 163 75
Plasmin generation by equimolar concentrations of tissue plasminogen activator (t-PA), pro-
urokinase
(pro-UK), and
urokinase
(UK), and a twofold higher concentration of a plasmin-resistant mutant rpro-UK (Ala-158-pro-UK) was measured on a microtiter plate reader. The promoting effects on this reaction of equimolar concentrations of fibrinogen, soluble fibrin (Desafib), CNBr fragment FCB-2 (an analogue of fragment D), or purified fragment
E-2
were compared. Plasmin generation by t-PA was moderately promoted by fibrinogen, substantially promoted by Desafib and FCB-2, but not at all promoted by fragment
E-2
. By contrast, plasmin generation by pro-UK or by Ala-158-pro-UK was not promoted either by fibrinogen, Desafib, or FCB-2, but was significantly promoted by fragment
E-2
. Plasmin generation by UK was not significantly promoted by any of the fibrin(ogen) preparations. Treatment of fragment
E-2
by carboxypeptidase-B (CPB), eliminated its promotion of pro-UK and Ala-158-pro-UK-induced plasmin generation. Pretreatment of FCB-2 with plasmin slightly potentiated its promotion of t-PA activity. This effect of plasmin pretreatment of FCB-2 was reversed by CPB treatment. Plasmin pretreatment of FCB-2 did not induce any promotion of activity in pro-UK or Ala-158-pro-UK. The findings show that the intrinsic activity of pro-UK and the activity of t-PA are promoted by different regions of the fibrin(ogen) molecule. The latter is stimulated primarily by a determinant in the fragment D region, which is available in intact fibrin. By contrast, plasminogen activation by the intrinsic activity of pro-UK was stimulated exclusively by fragment
E-2
, which is unavailable in intact fibrin. The findings are believed relevant to fibrinolysis and support the concept that t-PA and pro-UK are complementary, sequential, and synergistic in their actions.
...
PMID:A comparative study of the promotion of tissue plasminogen activator and pro-urokinase-induced plasminogen activation by fragments D and E-2 of fibrin. 183 71
Thrombin hydrolyzes the Arg156-Phe157 bond in pro-
urokinase
(pro-UK), two residues from the activation site, generating a two-chain form (thromb-UK) believed to have little activity and that is resistant to plasmin activation. The kinetic constants for thromb-UK against synthetic substrate (S2444) were found to be essentially identical to pro-UK. Against native plasminogen, thromb-UK had a lower Michaelis constant (KM) and a higher (2-fold) catalytic efficiency. However, this difference with pro-UK was nullified by carboxypeptidase B (CpB) treatment of thromb-UK to remove the C-terminal arginine on the A-chain. Plasminogen activation by thromb-UK was substantially promoted by fibrin fragment
E-2
but not by other fibrin derivatives, a phenomenon previously observed with pro-UK. Similarly, clot lysis by thromb-UK was promoted by tissue plasminogen activator because their combined effect was synergistic. Fibrinogenolysis in plasma occurred at 80-fold the concentration of thromb-UK as pro-UK, reflecting the 90-fold greater plasmin resistance of thromb-UK. Addition of a CpB inhibitor to the plasma enhanced fibrinogenolysis by thromb-UK and pro-UK by approximately 16%, consistent with the promotion of both forms by certain C-terminal lysines. In conclusion, CpB-thromb-UK corresponds functionally to a plasmin resistant form of pro-UK, indicating that the catalytic site of the single-chain pro-UK is unaffected by thrombin cleavage. The effect of CpB indicates that the C-terminal Arg of thromb-UK slightly enhances its affinity for plasminogen. Thromb-UK has potential plasminogen-activating activity at surfaces where C-terminal lysines, functionally comparable to fragment
E-2
, are found.
...
PMID:The kinetics of plasminogen activation by thrombin-cleaved pro-urokinase and promotion of its activity by fibrin fragment E-2 and by tissue plasminogen activator. 842 4
