EC:3.4.21.73 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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 this study the contribution of activation of the contact system to activation of the fibrinolytic system in vivo was investigated in healthy volunteers and in factor XII deficient patients. The plasminogen activating activity in plasma from healthy volunteers after infusion of desamino D-arginine vasopressin (DDAVP) was only partially blocked (for 77%) with specific antibodies to tissue-type plasminogen activator and urokinase type plasminogen activator. The residual activity could be quenched by a monoclonal antibody that inhibits factor XII activity and was not present in patients with a factor XII deficiency. The formation of plasmin upon the DDAVP stimulus as reflected by circulating plasmin-alpha 2-antiplasmin complexes was lower in factor XII deficient patients than in healthy volunteers. Activation of the contact system occurred after DDAVP infusion in healthy volunteers and was absent in factor XII deficient patients. These results indicate that DDAVP induces a plasminogen activating activity that is partially dependent on activation of the contact system and that contributes to the overall fibrinolytic activity as indicated by the formation of plasmin-alpha 2-antiplasmin complexes. This fibrinolytic activity is impaired in factor XII deficient patients which may explain the occurrence of thromboembolic complications in these patients.
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PMID:Reduction of contact activation related fibrinolytic activity in factor XII deficient patients. Further evidence for the role of the contact system in fibrinolysis in vivo. 183 21

The desamino-d-arginine vasopressin (DDAVP) induced enhancement of endogenous fibrinolysis is generally attributed to the release of tissue-type plasminogen activator (t-PA) from the vessel wall. The observation of concurrent release of urokinase-type plasminogen activator (u-PA), which eventually might cooperate in the enhanced fibrinolytic activity, has not been reported thus far. In a preliminary study in two healthy human volunteers we found a 1.8-fold increase of urokinase-antigen (UK-antigen) and a 1.7-fold increase of plasmin-activatable pro-urokinase (pro-UK) activity to DDAVP intravenously. The plasma-peak levels coincided with the maximal t-PA level. These responses following infusion of DDAVP were subsequently confirmed in a randomized double blind cross-over study in six human volunteers. We conclude that u-PA is released by DDAVP concurrently with t-PA and that it is presumably from the same origin as t-PA i.e. endothelial cells. u-PA and t-PA may therefore cooperate in the enhanced fibrinolytic activity upon DDAVP infusion.
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PMID:DDAVP induces systemic release of urokinase-type plasminogen activator. 251 Mar 48

Plasminogen can be activated by intrinsic activators that circulate in plasma in a precursor form, by extrinsic activator originating from tissues or the vessel wall and by the exogenous activators, urokinase and streptokinase. Tissue activator and vascular activator are probably identical. Dialysis of plasma against pH 4.0 buffer causes denaturation of the plasmin inhibitors, alpha 2-antiplasmin and C1-inhibitor, while alpha 2-macroglobulin is left intact. Incubation of pH 4.0-pretreated plasma with urokinase or streptokinase at pH 7.5 led to activation of plasminogen and prorenin. Incubation of a plasma fraction, which contained plasminogen and prorenin but no alpha 2-antiplasmin and renin, with highly purified tissue plasminogen activator also led to activation of prorenin. The vasopressin analogue, 1-desamino-8-D-arginine vasopressin (DDAVP), is a potent stimulant for the release of extrinsic activator into the bloodstream. After infusion of DDAVP, 0.4 micrograms/kg, into normal subjects, parallel increments in plasma fibrinolytic activity and renin were observed. Infusion of DDAVP into patients with type IV hyperlipoproteinaemia had little effect on plasma fibrinolytic activity and the response of plasma renin was also subnormal. These observations warrant further studies on a possible role for plasminogen activators in prorenin activation in vivo.
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PMID:Activation of plasma prorenin by plasminogen activators in vitro and increase in plasma renin after stimulation of fibrinolytic activity in vivo. 675 94

Although the vasopressin analogue desamino-d-arginine vasopressin (DDAVP) induces a very well characterized increase in factor VIII (FVIII), von Willebrand factor (vWF), tissue plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA), the mechanism(s) by which DDAVP enhances the plasma levels of these proteins is poorly understood. Some clinical evidence suggests that certain patients repeatedly treated with DDAVP at closely spaced intervals become progressively unresponsive (tachyphylaxis). In order to investigate the effect of repeated DDAVP infusion on the behaviour of FVIII, vWF, t-PA and u-PA, we infused three different doses of DDAVP (0.3 microgram/Kg) to six healthy volunteers (19-26 years old, mean 22) at 12-hour intervals. Blood samples were collected immediately before and after DDAVP. The second and third infusion of DDAVP induced a low response of FVIII and vWF. In contrast, t-PA and u-PA exhibited a consistent response after each DDAVP infusion. If the progressive decrease of FVIII and vFW response observed in healthy subjects after repeated doses of DDAVP at 12-hour intervals is extended to haemophiliacs and von Willebrand's patients, the usefulness of desmopressin may be limited when these proteins must be raised therapeutically for a prolonged period of time. Finally, our results suggest that the mechanism for regulating the release of vWF and plasminogen activators in the conditions of our study are not dependent.
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PMID:Repeated infusions of DDAVP induce low response of FVIII and vWF but not of plasminogen activators. 832 82

[deamino-Cys(l),d-Arg(8)]-vasopressin (dDAVP), known to be an arginine vasopressin (AVP) V(2) receptor agonist, is an agent that increases fibrinolytic activity levels in plasma after its infusion into the human body. However, mechanisms underlying an increase and exact localization of the extrarenal dDAVP-responsive V(2) receptor remain unclarified. Two AVP receptors, V(1a) and V(2), and a related oxytocin (OT) receptor were found to be expressed in human lymphocytes. Furthermore, we found an increase of fibrinolytic activity in the medium of peripheral lymphocytes obtained from human volunteers less than 20 min after dDAVP infusion. The increased activity was also detected in the medium after incubating the lymphocytes in the presence of dDAVP in vitro, being highest at 20 min after the incubation. In accord with the increased fibrinolytic activity, the levels of urokinase-type plasminogen activator (uPA) in the medium were also increased. However, there was no significant difference of plasminogen activator inhibitor-1 (PAI-1), pro-uPA, and tissue-type plasminogen activator (tPA) concentrations in the medium between dDAVP treatment and control. When lymphocytes were preincubated with a V(2) receptor antagonist [Adamantaneacetyl(1),O-Et-d-Tyr(2),Val(4),Aminobutyryl(6),Arg(8,9)]-vasopressin, the dDAVP-induced uPA increase was diminished. In contrast, preincubation with a V(1) receptor antagonist, [beta-Mercapto-beta,beta-cyclopentamethylenepropionyl(1),O-Me-Tyr(2),Arg(8)]-vasopressin, prior to dDAVP treatment resulted in a greater increase of the uPA concentration in the medium than with the dDAVP treatment alone. Thus it was suggested that dDAVP may induce uPA release from human lymphocytes via V(2) receptor-mediated reaction, and also via cross-talk between V(1) and V(2) receptors.
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PMID:Induction of uPA release in human peripheral blood lymphocytes by [deamino-Cysl,D-Arg8]-vasopressin (dDAVP). 1519 31

The hypothalamo-neurohypophysial system (HNS), synthesizing arginine vasopressin (AVP) and oxytocin (OXT), is well known to show structural plasticity during chronic physiological stimulation such as salt loading and lactation. In the present study, we undertook in the HNS to study localization and activity-dependent changes in the expression of matrix-degrading enzymes such as tissue plasminogen activator (tPA) and matrix metalloprotease-3 (MMP-3). Double labeling confocal microscopy demonstrated that the immunoreactivity of tPA was localized at AVP-positive dendrites in the supraoptic nucleus (SON) and AVP-positive terminals in the neurohypophysis (NH). The immunoreactivity of tPA was also seen at astrocytic processes in the HNS. Likewise, the immunoreactivity of MMP-3 was observed at AVP-positive dendrites and terminals. High magnification observation further revealed punctate distribution of tPA and MMP-3 immunoreactivity at dendrites and terminals, suggesting that they are localized at neurosecretory granules. Salt loading, known as the chronic stimulation to cause the structural plasticity, increased protein and mRNA levels of tPA in the SON but reduced protein levels of it in the NH. The chronic stimulation also increased protein levels of urokinase plasminogen activator in the SON, but the stimulation did not change protein levels of MMP-3 in the SON and NH. Depolarizing agent KCl released tPA from isolated neurosecretosomes, and this depolarization-dependent release was abolished by verapamil, a Ca(2+) channel blocker. These results demonstrate that tPA and MMP-3 are localized mainly at dendrites and terminals of AVP-expressing magnocellular neurons and tPA is released in an activity-dependent manner, suggesting that matrix-degrading proteases are candidate molecules to be concerned with the structural plasticity in the HNS.
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PMID:Matrix-degrading enzymes tissue plasminogen activator and matrix metalloprotease-3 in the hypothalamo-neurohypophysial system. 1615 Apr 23

We have analyzed the expression and regulation of plasminogen activators (PA) in principal cells of the renal collecting duct. We used a rabbit principal cell line (RC.SVtsA58) infected with the temperature-sensitive SV40 strain tsA58. Transformed cells cultured at permissive temperature (33 degrees C) produced only tissue-type plasminogen activator (t-PA). Shifting the cells to nonpermissive temperature (39.5 degrees C) induced their differentiation and a marked increase in total fibrinolytic activity due to the induction of urokinase-type plasminogen activator (u-PA) synthesis and secretion. The effect on u-PA was post-transcriptional and it could be attributed to large-T inactivation at 39.5 degrees C since it was abolished by re-infecting the cells with wild-type SV40. Run-on assay and real-time RT-PCR of u-PA transcripts indicated that large-T altered post-transcriptional regulation. u-PA was also produced by primary cultures of collecting duct cells and was present in the rabbit urine. In the kidney, u-PA and its receptor (u-PAR) were almost exclusively expressed at the apex of collecting duct cells. We then analyzed the regulation of u-PA by arginine vasopressin (AVP) and epidermal growth factor (EGF), two key regulators of principal cell functions. We found that AVP and EGF, which have opposite hydro-osmotic effects in the collecting duct, also exhibited contrasted effects on u-PA synthesis in differentiated RC.SVtsA58 cells. EGF increased but AVP suppressed u-PA activity and protein, and these regulations occurred at post-transcriptional level. These results point to a physiological role of u-PA in principal cells of the renal collecting duct.
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PMID:Urokinase (u-PA) is produced by collecting duct principal cells and is post-transcriptionally regulated by SV40 large-T, arginine vasopressin, and epidermal growth factor. 1615 5