Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

When the rate of lysis of artificial thrombi (prepared from plasma or whole blood) was expressed according to the concentration of tissue type plasminogen activator (t-PA) or single chain urokinase type plasminogen activator (sc-uPA) then bell-shaped dose response curves were obtained, low rates being observed at concentrations of activator greater than 500 units/ml. Bell-shaped dose response curves were not observed for rate of lysis of artificial thrombi over the concentrations of streptokinase tested (SK) or for the lysis of plasma gel clots by any of the activators tested. Further investigation indicated that the preponderant mechanism for dissolution of thrombi at 500 units/ml of t-PA was by activation of the plasminogen within the thrombus (intrinsic) since the plasminogen present in the plasma perfusing the thrombus (extrinsic) rapidly became depleted. On the other hand, at 50 units/ml t-PA the lysis was observed to be due preponderantly to the action of plasmin arising from extrinsic rather than intrinsic plasminogen. If "plasminogen enriched" thrombi were prepared in the presence of Lys plasminogen (Lys-Plg) faster rates of lysis occurred and bell-shaped biometric curves were not observed.
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PMID:Influence of intrinsic and extrinsic plasminogen upon the lysis of thrombi in vitro. 179 13

Apoprotein(a), (apo[a]), the specific antigen of lipoprotein(a) (Lp[a]), consists of structural domains (a serine protease unit, kringles 4 and 5) with marked homology to those of the corresponding domains in plasminogen. In this study, we have investigated the impact of this unique structural mimicry on the binding and activation of plasminogen by fibrin-bound tissue-type plasminogen activator at the plasma-fibrin interface. We found that the total amount of plasmin generated on the surface of fibrin was decreased in the presence of high concentrations of Lp(a): 197 +/- 65 fmol in plasmas with greater than 60 mg/dl Lp(a) versus 287 +/- 112 fmol in control plasmas. A similar effect was also apparent in the corresponding euglobulin fractions (554 +/- 169 fmol versus 754 +/- 310 fmol), the latter lacking the plasminogen-binding proteins alpha 2-antiplasmin and histidine-rich glycoprotein, but containing Lp(a). The difference between plasma samples was significant (p less than 0.05) as calculated from the percent decrease in plasmin generated from plasmas with high levels of Lp(a) relative to that generated in the paired controls with low Lp(a) levels. The involvement of Lp(a) was verified in a reconstituted system consisting of normal human plasma supplemented with 100 mg/dl of either purified Lp(a) or low density lipoprotein. Lp(a) produced a decrease of 30% in the generation of plasmin (180 fmol versus 255 fmol in plasma, and 485 fmol versus 705 fmol in the euglobulin fraction). Moreover, using a radiolabeled sheep antibody against human apo(a), we were able to demonstrate the binding of 40 fmol Lp(a) to fibrin during ongoing plasminogen activation. These results indicate that Lp(a) impairs the binding of plasminogen to fibrin and thereby decreases the generation of plasmin by occupying C-terminal lysine residues unveiled on the fibrin surface by plasmin degradation as recently reported (Circulation 1990;82[suppl III]:III-92). In consequence, impairment of fibrinolysis and accumulation of Lp(a) at sites of vascular injury may occur, factors that may be important in the development of atherosclerosis and associated thrombosis.
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PMID:Lipoprotein(a) impairs generation of plasmin by fibrin-bound tissue-type plasminogen activator. In vitro studies in a plasma milieu. 182 91

Tissue-type plasminogen activator (t-PA) binds to heparin with an association constant of 2.4 x 10(4) l/mol at pH 7.4. The binding increases at lower pH-values and reaches maximal values below pH 6.0. Sodium chloride above 0.5 mol/l abolishes t-PA binding to heparin at neutral pH. t-PA binds to lysine maximally at pH 6 to pH 9. At neutral pH the association constant is 1.8 x 10(5) l/mol. Sodium chloride concentrations of 1 mol/l reduce interaction of the enzyme to lysine by about 60% at pH 7.4. Binding of t-PA to fibrin and to partially plasmin-degraded fibrin takes place maximally at pH 6 to 9. The interaction of t-PA with plasmin-degraded fibrin is less sensitive to addition of lysine than the interaction of t-PA and fibrin. Sodium chloride concentrations of 1 mol/l reduce the interaction of t-PA to fibrin by about 60% at pH 7.4.
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PMID:Binding of one-chain tissue-type plasminogen activator to fibrin, partially plasmin-degraded fibrin, lysine and heparin. 183 Apr 77

Actin has been found to bind to plasmin's kringle regions, thereby inhibiting its enzymatic activity in a noncompetitive manner. We, therefore, examined its effect upon the conversion of plasminogen to plasmin by tissue plasminogen activator. Actin stimulated plasmin generation from both Glu- and Lys-plasminogen, lowering the Km for activation of Glu-plasminogen into the low micromolar range. Accelerated plasmin generation did not occur in the presence of epsilon-amino caproic acid or if actin was exposed to acetic anhydride, an agent known to acetylate lysine residues. Actin binds to tissue plasminogen activator (t-Pa) (Kd = 0.55 microM), at least partially via lysine-binding sites. Actin's stimulation of plasmin generation from Glu-plasminogen was inhibited by the addition of aprotinin and was restored by the substitution of plasmin-treated actin, indicating the operation of a plasmin-dependent positive feedback mechanism. Native actin binds to Lys-plasminogen, and promotes its conversion to plasmin even in the presence of aprotinin, indicating that plasmin's cleavage of either actin or plasminogen leads to further plasmin generation. Plasmin-treated actin binds Glu-plasminogen and t-PA simultaneously, thereby raising the local concentration of t-PA and plasminogen. Together, but not separately, actin and t-PA prolong the thrombin time of plasma through the generation of plasmin and fibrinogen degradation products. Actin-stimulated plasmin generation may be responsible for some of the changes found in peripheral blood following tissue injury and sepsis.
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PMID:Actin accelerates plasmin generation by tissue plasminogen activator. 183 75

Laminin is a large multidomain glycoprotein with diverse biological activities which include stimulation of neurite outgrowth, enhancement of tumor metastasis, and promotion of cell growth, adhesion, and differentiation. A 19 amino acid synthetic peptide derived from the E8 fragment of the laminin A chain (Cys-Ser-Arg-Ala-Arg-Lys-Gln-Ala-Ala-Ser-Ile-Lys-Val-Ala-Val-Ser-Ala-Asp -Arg- NH2) was identified which promotes metastasis and stimulates collagenase IV activity in the culture medium of B16 melanoma cells (Kanemoto et al., 1990). We report that this peptide, here designated LamA2091-2108, is also a potent stimulator of tissue plasminogen activator (t-PA)-catalyzed plasminogen activation, resulting in a 22-fold increase in the kcat/Km of the activation reaction. The activity of purified type I and type IV collagenase was inhibited by LamA2091-2108 with IC50 values of 3 and 43 microM, respectively. These data support an alternative mechanism for the appearance of collagenase activity in the culture media of melanoma cells, namely, that the peptide stimulates plasminogen activation, subsequently generating collagenase activity.
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PMID:Modulation of plasminogen activation and type IV collagenase activity by a synthetic peptide derived from the laminin A chain. 184 24

A recombinant deletion mutant of the 155-amino acid form of human basic fibroblast growth factor (bFGF), lacking amino acid residues 27-32 (Lys-Asp-Pro-Lys-Arg-Leu), was expressed in Escherichia coli and purified to homogeneity by heparin-Sepharose affinity chromatography. When maintained in the presence of an equimolar concentration of soluble heparin, the bFGF mutant (M1-bFGF) is as potent as bFGF in stimulating cell proliferation in normal and transformed fetal bovine aortic endothelial cells, in adult bovine aortic endothelial cells, and in NIH 3T3 fibroblasts. However, under the same experimental conditions, M1-bFGF is at least 100 times less efficient than bFGF in stimulating plasminogen activator (PA) production in endothelial cells, as assayed by chromogenic PA assay, SDS/PAGE zymography, and Northern blot analysis of urokinase-type PA mRNA. In the presence of heparin, M1-bFGF binds to bFGF plasma membrane receptors present on endothelial cells in a manner undistinguishable from bFGF. It also induces the same tyrosine phosphorylation pattern when added to NIH 3T3 cells. The data suggest that the PA-inducing activity of bFGF may depend upon a functional domain that differs from those involved in the mitogenic activity of the growth factor and that the binding of bFGF to its plasma membrane receptor may not be sufficient to induce urokinase-type PA production in endothelial cells.
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PMID:A six-amino acid deletion in basic fibroblast growth factor dissociates its mitogenic activity from its plasminogen activator-inducing capacity. 184 69

Recent studies suggest that plasminogen activators not only hydrolyse a specific arginine-valine bond in plasminogen, but may also cleave other proteins such as fibronectin. We studied the substrate specificity, particularly the preference for arginyl over lysyl peptide bonds, of tissue-type plasminogen activator (t-PA) as well as of two-chain urokinase-type plasminogen activator (u-PA). The arginine/lysine preference was determined with three pairs of tripeptidyl-p-nitroanilide substrates having either arginine or lysine in the P1 position and varied from 5.2 to 14.1 for u-PA and from 55.6 to 99.8 for t-PA. It was concluded that both t-PA and u-PA preferred arginyl to lysyl peptide bonds. However, u-PA had a significantly lower arginine/lysine preference than t-PA, indicating that u-PA represents a less specific proteinase. This may point to functions of u-PA other than plasminogen activation, which involve cleavage of lysyl bonds.
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PMID:Substrate specificity of tissue-type and urokinase-type plasminogen activators. 189 64

Sixty-four variants of human tissue-type plasminogen activator (tPA) were produced using recombinant DNA techniques. Charged residues were converted to alanine in clusters of from one to four changes per variant; these clusters spanned all the domains of the molecule. The variants were expressed by mammalian cells and were analyzed for a variety of properties. Variants of tPA were found that had reduced activity with respect to each tested property; in a few cases increased activity was observed. Analysis of these effects prompted the following conclusions: 1) charged residues in the nonprotease domains are less involved in fibrin stimulation of tPA activity than those in the protease domain, and it is possible to increase the fibrin specificity (i.e. the stimulation of tPA activity by fibrin compared to fibrinogen) by mutations at several sites in the protease domain; 2) the difference in enzymatic activity between the one- and two-chain forms of tPA can be increased by mutations at several sites on the protease domain; 3) binding of tPA to lysine-Sepharose was affected only by mutations to kringle-2, whereas binding to fibrin was affected most by mutations in the other domains; 4) clot lysis was influenced by mutations in all domains except kringle-2; 5) sensitivity to plasminogen activator inhibitor-1 seems to reside exclusively in the region surrounding residue 300. A model of the tPA protease domain has been used to map some of the critical residues and regions.
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PMID:High resolution analysis of functional determinants on human tissue-type plasminogen activator. 190 May 16

The steady-state kinetics of the amidolytic activity of single chain tissue-type plasminogen activator (tPA) were analyzed in the presence or absence of different molecular forms of fibrinogen degradation products. Single chain tPA showed a Km value of 1.6 mM and kcat value of 4.9/s toward the chromogenic substrate H-D-Ile-Pro-Arg-p-nitroanilide (S-2288). In the presence of infinite concentrations of fibrinogen, kinetic constant was calculated as about 8-times higher than that in the absence of fibrinogen, mainly caused by the decrease of Km value. The dissociation constant (Ka) for this stimulation by fibrinogen was 2.9 microM. When the same assay was conducted with fragment X or fragment D of fibrinogen, the kinetic constants increased 3.2 and 2.9-times, respectively, whereas no enhancement was obtained by fragment E. Neither lysine analogues nor monoclonal antibody toward domains of finger and epidermal growth factor of tPA quench the enhancement by fibrinogen. This enhancement was not observed in the case of the two chain form of tPA. These results indicate that fibrinogen enhances the amidolytic activity of single chain tPA by binding to kringle 2 domain or light chain through D domain of fibrinogen.
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PMID:Stimulation of the amidolytic activity of single chain tissue-type plasminogen activator by fibrinogen degradation products: possible fibrin binding sites on single chain tissue-type plasminogen activator molecule. 190 67

The effects of 4 monoclonal antibodies against human tissue-type plasminogen activator (t-PA) on binding of t-PA to lysine, fibrin, and heparin, and on fibrin-mediated activation of one-chain t-PA-amidolytic activity were investigated. The association constants of the antibodies were determined in a direct assay to be equal to 0.125 l/nmol, 0.225 l/nmol, 0.4 l/nmol, and 0.5 l/nmol for mAB 5, mAB 16, mAB 25, and mAB 31, respectively. All 4 monoclonal antibodies inhibited binding of intact t-PA to lysine-Sepharose and fibrin, and they suppressed fibrin-mediated activation of one-chain t-PA-amidolytic activity. Binding analysis demonstrated that mAB 25 inhibited t-PA binding to lysine-Sepharose and to fibrin as well as fibrin-mediated enhancement of one-chain t-PA-amidolytic activity in a competitive manner with inhibitor constants of 5 nmol/l, 3 nmol/l and 10 nmol/l, respectively. It was also shown that free lysine counteracts the association of t-PA with the antibodies. Binding of t-PA to heparin is only moderately affected by the 4 antibodies. Since t-PA possesses two homologous kringle domains which contain fibrin (lysine) binding sites, the results underline the importance of a lysine binding site for fibrin binding by intact t-PA and show that the binding of the enzyme to fibrin and lysine is mediated by the same binding site of a kringle domain. The parallel effects of antibodies on fibrin binding and on fibrin-mediated enhancement of one-chain t-PA amidolytic activity proves that the site of fibrin binding is identical with the site of fibrin activation. The binding site of heparin apparently differs from lysine and fibrin binding sites.
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PMID:Effects of monoclonal antibodies on tissue-type plasminogen activator (t-PA) binding to lysine, fibrin and heparin and on fibrin-mediated enhancement of one-chain t-PA amidolytic activity. 190 50


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