UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of plasminogen on the ability of highly metastatic ESb mouse lymphoma cells to degrade heparan sulfate (HS) in the subendothelial extracellular matrix (ECM) was studied. A metabolically sulfate-labeled ECM was incubated with the lymphoma cells, and labeled degradation products were analyzed by gel filtration on Sepharose 6B. Heparanase-mediated release of low-Mr (0.5 less than Kav less than 0.85) HS cleavage products was stimulated fourfold in the presence of plasminogen. Incubation of plasminogen alone with the ECM resulted in its conversion into plasmin, which released high-Mr (Kav less than 0.33) labeled proteoglycans from the ECM. Heating the ECM (80 degrees C, 1 hr) abolished its ability to convert plasminogen into plasmin, yet plasminogen stimulated, through its activation by the ESb plasminogen activator, heparanase-mediated release of low-Mr HS fragments. Heparin inhibited both the basal and plasminogen-stimulated degradation of HS side chains but not the total amount of labeled material released from the ECM. In contrast, aprotinin inhibited the plasminogen-stimulated release of high- as well as low-Mr material. In the absence of plasminogen, degradation of heated ECM by ESb cells was completely inhibited by aprotinin, but there was only a partial inhibition of the degradation of native ECM and no effect on the degradation of soluble HS proteoglycan. These results demonstrate that proteolytic activity and heparanase participate synergistically in the sequential degradation of ECM HS and that the ESb proteolytic activity is crucial for this degradation when the ECM-associated protease is inactivated. Plasminogen may serve as a source for the proteolytic activity that produces a more accessible substrate to the heparanase.
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PMID:Involvement of both heparanase and plasminogen activator in lymphoma cell-mediated degradation of heparan sulfate in the subendothelial extracellular matrix. 242 87

The requirement of heparin in experimental coronary thrombolysis induced by tissue-type plasminogen activator (t-PA) was studied in closed-chest dogs with one hour old coronary thrombi and compared with that in urokinase (UK)-induced coronary thrombolysis. Animals were divided into 5 treatment groups as follows: group 1 received intracoronary t-PA alone (1,000 IU/kg/min; n = 5), and if thrombolysis was not induced within 40 to 50 min, dogs then received an intravenous injection of heparin (300 U/kg) plus intracoronary t-PA; group 2 received intravenous heparin at first, and if thrombolysis was not induced within 10 min, dogs subsequently received intracoronary t-PA (n = 5); group 3 also received intravenous heparin at first, and if thrombolysis was not induced within 10 min, dogs subsequently received t-PA but intravenously, as compared with the groups administered by the intracoronary route (n = 6); group 4 received intracoronary UK alone (1,000 IU/kg/min; n = 6); group 5 received intravenous heparin at first, and if thrombolysis was not induced within 10 min, dogs subsequently received intracoronary UK (n = 5). Thrombolysis was confirmed angiographically. In group I, coronary thrombolysis could not be induced within 44 +/- 4 min by intracoronary t-PA alone, but it occurred in 8 +/- 4 min when administered in combination with heparin in all dogs. Heparin alone failed to elicit reperfusion within 10 min in group 2, 3 and 5. t-PA, however, induced successful reperfusion in 16 +/- 5 min (group 2) and in 23 +/- 6 min (group 3), respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Heparin requirement in tissue-type plasminogen activator-induced experimental coronary thrombolysis: comparison with urokinase-induced coronary thrombolysis. 244 Oct 82

After incubation with human serum or plasma, 125I-basic fibroblast growth factor (bFGF) (molecular mass 18.5 kDa) exhibits molecular mass forms greater than 200 kDa as determined by nonreducing sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by autoradiography. These high molecular mass forms of bFGF are immunoprecipitable with antiserum raised against alpha 2-macroglobulin (alpha 2M). Purified alpha 2M and 125I-bFGF form a covalent complex in a specific, saturable manner. Excess unlabeled bFGF competes with 125I-bFGF for complex formation. Complex formation is complete after 4 h and is inhibited by pretreating alpha 2M with dithiothreitol, iodoacetamide, iodoacetic acid, and N-ethylmaleimide. The complex is resistant to acidic conditions and denaturants such as urea. Heparin, which binds bFGF, has no effect on complex formation. Methylamine, which blocks protease binding to alpha 2M, increases the amount of 125I-bFGF that can be bound 2-fold. Plasmin and trypsin treatment of alpha 2M has no effect on 125I-bFGF binding. The ability of growth factors to compete for binding is specific, as aFGF and TGF-beta compete for binding to alpha 2M, whereas platelet-derived growth factor does not. 125I-bFGF.alpha 2M complexes do not bind to low affinity bFGF binding sites and bind poorly to high affinity bFGF binding sites on BHK-21 cells. In addition, 125I-bFGF bound to alpha 2M has decreased ability to stimulate plasminogen activator production in bovine capillary epithelial cells.
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PMID:Alpha 2-macroglobulin is a binding protein for basic fibroblast growth factor. 246 67

The activity of tissue plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA) is stimulated by heparin. Heparin binds tightly to t-PA, u-PA, and plasminogen and decreases the usual stimulatory effect of fibrin on t-PA activity. In the present study we have found that low molecular weight heparin (LMW-heparin) preparations obtained by nitrous acid depolymerization or heparinase treatment of standard heparin have different properties with respect to their interaction with the fibrinolytic system. LMW-heparin prepared by either method does not stimulate plasmin formation by t-PA. However, these preparations of heparin still efficiently accelerate the inhibition of thrombin by antithrombin III. Binding data show that LMW-heparin does not bind t-PA and Glu-plasminogen and only binds very weakly to Lys-plasminogen. These results illustrate that it is possible to selectively destroy the fibrinolytic stimulating properties of heparin while leaving the classical anticoagulant characteristics intact.
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PMID:Anticoagulant low molecular weight heparin does not enhance the activation of plasminogen by tissue plasminogen activator. 250 19

Heparin has been shown recently to stimulate the activity of human tissue-type plasminogen activator (t-PA). To investigate this effect further, mutant proteins lacking various domains of t-PA were screened for the ability to be stimulated by heparin. Those mutants harboring either the finger domain or the 2nd kringle were found to have enhanced enzymatic activity in the presence of heparin. Only mutants containing these structures would bind to heparin-agarose beads; monoclonal antibodies directed against these domains blocked binding. The stimulatory effect of heparin was more pronounced in finger-containing mutants than kringle-2 proteins. Earlier results had localized the fibrin-binding domains to the same two structures. Unlike heparin, the 2nd kringle was shown to be more important than the finger for fibrin stimulation. Our results have implications for producing recombinant t-PA variants for use in thrombolytic therapy.
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PMID:Structural domains of human tissue-type plasminogen activator that confer stimulation by heparin. 250 21

To assess the role of inhibitors of proteolytic enzymes, such as plasminogen activator (PA) and collagenase in the ovulatory process, inhibitor activity and mRNA levels were examined in periovulatory rat and human ovaries. In the rat, immature animals received 20 IU of pregnant mare serum gonadotropin (PMSG) followed 52 h later by 10 IU of hCG. Ovaries were removed at intervals from 0 to 20 h after human chorionic gonadotropin (hCG) administration. Inhibitor activity for metalloproteinases, such as collagenase, increased from 60.5 +/- 4.1 inhibitor units/ovary at 0 h (i.e., time of hCG treatment) to a maximum of 218.2 +/- 11.4 units/ovary at 8 h after hCG before decreasing at 12 h (time of ovulation) and 20 h (122.2 +/- 7.9 and 71.6 +/- 8.1 units/ovary, respectively). Human follicular fluid and granulosa cells were obtained from preovulatory follicles of patients in our in vitro fertilization program. Metalloproteinase inhibitor activity was evaluated in follicular fluid as well as the levels of PA and PA inhibitor (PAI) mRNA by Northern analysis. Increasing metalloproteinase inhibitor activity was positively correlated with follicular levels of estradiol (p less than 0.001) and progesterone (p less than 0.02, N = 26). Chromatographic separation of follicular fluid resulted in two peaks of metalloproteinase inhibitor activity. The large molecular weight (MW) inhibitor had an approximate size of 700 kilodaltons (kDa) and may represent alpha 2-macroglobulin, a serum-derived inhibitor. The small MW inhibitor shared many of the characteristics of tissue-derived inhibitors of metalloproteinases. Partial purification of the small MW inhibitor by Concanavalin A-Sepharose and Heparin-Sepharose chromatography demonstrated the inhibitor to be a glycoprotein with an approximate MW = 28-29 K. Northern analysis of human granulosa cell total RNA from preovulatory follicles showed little or no detectable tissue-type PA or urokinase-type PA mRNA. In contrast, two species of PA inhibitor type-1 mRNA were detected in relative abundance. The present findings demonstrate the presence of proteolytic inhibitors in periovulatory ovaries of the rat and human. These ovarian inhibitors may play a role in regulating connective tissue remodeling during follicular rupture.
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PMID:The role of ovarian proteases and their inhibitors in ovulation. 255 99

The effect of a selective thrombin inhibitor, (2R, 4R)-4-methyl-1-[N2-[(3-methyl-1,2,3,4-tetrahydro-8-quinolinyl)sulfonyl]- L-arginyl]-2-piperidinecarboxylic acid (MCI-9038), on the fibrinolysis induced by t-PA and u-PA was studied in vitro and in vivo. MCI-9038 remarkably reduced the lysis time of the plasma clot generated by the addition of calcium chloride to the plasma at the concentration ranging from 0.01 to 0.3 microM. Heparin also reduced the plasma clot lysis time with a lower effect than MCI-9038. The fibrin crosslinkage in the plasma clot was inhibited by MCI-9038 or heparin. MCI-9038 potently inhibited the factor XIIIa generation from factor XIII by thrombin. The effect on the in vivo thrombolysis was studied on the arterial thrombosis generated by the endothelial cell injury of the rabbit carotid artery by acetic acid. t-PA dissolved the thrombi with the infusion at 0.96 mg/kg over 2 h without a significant activation of a systemic fibrinolysis. u-PA dissolved the thrombi with the infusion at 180,000 and 360,000 IU/kg over 2 h. At a dose of 0.48 mg/kg t-PA or 90,000 IU/kg u-PA, the thrombi were not dissolved, but the combined use of MCI-9038 at 1.2 mg/kg over 2 h effectively dissolved the thrombi. Thus, combination of MCI-9038 with plasminogen activators accelerated thrombolysis of an experimental thrombosis in rabbits.
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PMID:Effect of a selective thrombin inhibitor MCI-9038 on fibrinolysis in vitro and in vivo. 287 8

The fibrinolytic system was investigated in 120 patients with spontaneous or recurrent deep vein thrombosis (DVT) without any known organic disease able to explain by itself the occurrence of a thrombosis and without any known defect of antithrombin III, Heparin Cofactor II, Protein C, or Protein S. The assays included: Euglobulin fibrinolytic activity (EFA), tissue-type plasminogen activator related antigen (t-PA-Ag) and plasminogen activator inhibitor activity (PA inhibitor), which were measured before and after 10 min of venous occlusion (V.O.). On the basis of the results, the patients could be classified in 3 groups: good responders with an at least two-fold increase of EFA after venous occlusion (n = 76), poor responders with a lesser increase of EFA due to deficient release of t-PA (n = 12), and poor responders with a normal t-PA release but an increased level of PA-Inhibitor (n = 32). The poor responders due to deficient t-PA release (10% of total) had a higher incidence of recurrence of deep vein thrombosis, than the other groups (p less than 0.01). An overall correlation was found between the level of PA-Inhibitor activity and the triglyceride level (r = 0.40, p less than 0.01), suggesting that these elevations may be due to a common cause, at least in some of the patients. It is concluded that a poor fibrinolytic response to venous occlusion occurs in 35 percent of DVT patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Deficient t-PA release and elevated PA inhibitor levels in patients with spontaneous or recurrent deep venous thrombosis. 310 59

Coronary thrombolysis with t-PA is generally implemented with concomitant administration of heparin. However, results of studies in vitro suggest that heparin competes with fibrin for binding of tissue-type plasminogen activator (t-PA), augments activation of free plasminogen, decreases fibrin specificity, and impairs thrombolysis. To define the biological implications of these observations, we characterized effects of therapeutic concentrations of heparin on the binding of t-PA to thrombi formed in whole blood, effects of heparin on activation of plasminogen by t-PA in plasma, and effects of heparin on thrombolysis induced by t-PA in a clot lysis system designed to simulate conditions in vivo. The amount of t-PA bound to thrombi was not affected by heparin (0, 0.5, 1.0, and 5.0 U/mL). When t-PA activity was selectively and irreversibly inhibited by D-Phe-Pro-Arg-chloromethyl ketone (PPACK) the amount of t-PA-PPACK bound was similarly unaffected by heparin. Thrombolysis measured by 125I-fibrin(ogen) release and by reduction of mass of thrombi were not altered by heparin. Heparin did not affect plasminogen consumption induced by t-PA. Plasma concentrations of alpha-2-antiplasmin after exposure of blood to t-PA were less depressed with increasing concentrations of heparin. Thus, heparin in therapeutic concentrations does not interfere with binding of t-PA to thrombi, augment activation of free plasminogen, or inhibit thrombolysis. Accordingly, it appears likely that concomitant administration of heparin will not impair thrombolysis with t-PA implemented clinically.
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PMID:Lack of interference by heparin with thrombolysis or binding of tissue-type plasminogen activator to thrombi. 312 47

Purified preparations of recombinant tissue-type plasminogen activator (t-PA) from the recombinant Bowes melanoma cell line TRBM6 were shown to contain multiple species of plasminogen activator. Using a combination of chromatography on Sephadex G25, Sephadex G75 and Heparin Sepharose CL6B we have isolated two fibrinolytically active species, which, under non-reduced SDS PAGE, have apparent Mr = 38,000 and 56,000. Double immunodiffusion studies indicated that both species were closely related to both the t-PA B chain and t-PA itself. N-terminal sequencing identified the Mr = 38,000 species as ala160- t-PA (essentially delta FGKI t-PA) and the Mr = 56,000 species as ser1-tyr2-gln3-glyx-cys51 t-PA (delta F t-PA), the latter probably produced by alternative splicing of the t-PA gene. The pharmacokinetic properties of N,N dimethyl-4-aminobenzoyl (DAB) derivatives of these activators and native t-PA were determined in the guinea pig. Whereas DAB----delta F t-PA showed a similar, rapid plasma disappearance profile to that of DAB----t-PA, DAB----delta FGKI t-PA was cleared significantly slower. These results suggest that a rapid clearance recognition site resides on either the growth factor or kringle 1, or both, domains of t-PA.
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PMID:Isolation, identification and pharmacokinetic properties of human tissue-type plasminogen activator species: possible localisation of a clearance recognition site. 314 86

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