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)

A plasminogen activator secreted by cultured human pancreatic carcinoma (Mia PaCa-2) cells has been purified to apparent homogeneity by procedures including Sepharose-L-arginine methyl ester affinity chromatography, Sephadex G-200 gel filtration, isoelectric focusing, and sodium dodecyl sulfate gel electrophoresis. The plasminogen activator shares many properties with urokinase including: molecular weight (55 000), isoelectric point (8.7), heat stability (60 degrees C, 30 min), PH stability (1.5-10), and its mode of activation of plasminogen. The intracellular enzyme is membrane bound and can be solubilized by detergent. Solubilized activator has a molecular weight similar to that of the secreted enzyme as determined by sodium dodecyl sulfate gel electrophoresis. The production of plasminogen activator by Mia PaCa-2 cells is totally inhibited by actinomycin D and cycloheximide.
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PMID:Purification and characterization of a plasminogen activator secreted by cultured human pancreatic carcinoma cells. 1 90

A functionally active human plasmin light (B) chain derivative, stabilized by the streptomyces plasmin inhibitor leupeptin, was isolated from a partially reduced and alkylated enzyme preparation by an affinity chromatography method with a L-lysine-substituted Sepharose column. This light (B) chain derivative was found to be relatively homogeneous by electrophoretic analysis in both an acrylamide gel/dodecyl sulfate system and on cellulose acetate. It possessed approximately 3% of the proteolytic activity (casein substrate) of the original enzyme, and it incorporated 0.09 mol of [3H]diisopropyl phosphorofluoridate per mol of protein. It contained 3.1 +/- 0.3 carboxymethylated cysteines per mol of protein and can be designated as a CmCys5-light (B) chain (CmCys)3. When this isolated light (B) chain derivative was mixed in equal molar amounts with streptokinase, the mixture developed both human and bovine plasminogen activator activities; the bovine activator activity was approximately 66% of the bovine activator activity of the equimolar human plasmin-streptokinase complex. Although this complex now incorporated 0.50 mol of [3H]diisopropyl phosphorofluoridate per mol of protein, its proteolytic activity, on a molar basis, was the same as the proteolytic activity of the isolated light (B) chain derivative. It was shown by electrophoretic analysis in both an acrylamide gel/epsilon-aminocaproic acid system and on cellulose acetate that the light (B) chain derivative and streptokinase forms an equimolar light (B) chain-streptokinase complex, indicating that the binding site for streptokinase is located on the light (B) chain of the enzyme. A functionally active equimolar light (B) chain-streptokinase complex was also isolated from a partially reduced and alkylated equimolar human plasmin-streptokinase complex by the affinity chromatography method. The plasminogen activator activities (human and bovine) of this light (B) chain-streptokinase complex were similar to those of the plasmin-streptokinase complex from which it was derived. Although this complex incorporated 0.70 mol of [3H]diisopropyl phosphorofluoridate per mol of protein, its proteolytic activity, on a molar basis, was only 14% of proteolytic activity of the plasmin-streptokinase complex.
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PMID:Isolation of a human plasmin-derived, functionally active, light (B) chain capable of forming with streptokinase an equimolar light (B) chain-streptokinase complex with plasminogen activator activity. 13 97

A procedure is presented for purifying a novel proteinase inhibitor in human plasma whose apparent unique biological property is to inhibit efficiently the lysis of fibrin clots induced by plasminogen activator. The final product is homogeneous as judged by disc gel electrophoresis, and immunoelectrophoresis. Its molecular weight estimated by sodium dodecyl sulfate gel electrophoresis or sedimentation equilibrium is 67,000 and 63,000, respectively. The inhibitor is a glycoprotein consisting polypeptide chain containing 11.7% carbohyrate. It migrates in the alpha2-globulin region in immunoelectrophoresis. The inhibitor is chemically and immunologically different from all the other known inhibitors in plasma. Inhibition of plasmin by the inhibitor is almost instantaneous even at 0 degrees, in contrast to the slow inhibition of urokinase (plasminogen activator in urine). Plasminogen activation by urokinase-induced clot lysis is inhibited by the inhibitor mainly through a mechanism of instantaneous inhibition of plasmin formed and not through the inhibition of urokinase. The inhibitor also inhibits trypsin. Consequently, it is suggested that this newly identified inhibitor is named alpha2-plasmin inhibitor or alpha2-proteinase inhibitor. A specific antibody directed against the inhibitor neutralizes virtually all inhibitory activity of plasma to activator-induced clot lysis. Immunochemical quantitation of the inhibitor was specific antiserum to the inhibitor and the purified inhibitor as a standard indicates that the concentration of the inhibitory in the serum of a healthy man is in or near the range of 5 to 7 mg/100 ml, which is the lowest concentration among the concentration of the proteinase inhibitors in plasma. The inhibitor and plasmin, trypsin, or urokinase form a complex which cannot be dissociated with denaturing and reducing agents. The formation of the enzyme-inhibitor complex occurs on a 1:1 molar basis and is associated with the cleavage of a unique peptide bone, which is most clearly demonstrated in the interaction of the inhibitor and beta-trypsin. In the complex formation between the inhibitor and plasmin, the inhibitor is cross-linked with the light chain which contains the active site of plasmin. It is suggested that, in a fashion analogous to complex formation between alpha1-antitrypsin and trypsin, the cross-links are formed between the active site serine of the enzyme and the newly formed COOH-terminal residue of the inhibitor, with cleavage of a peptide bond.
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PMID:Isolation and characterization of alpha2-plasmin inhibitor from human plasma. A novel proteinase inhibitor which inhibits activator-induced clot lysis. 13 98

alpha2-plasmin inhibitor is a proteinase inhibitor in plasma which efficiently inhibits the lysis of fibrin clots induced by plasminogen activator. The nature of the binding of the inhibitor to trypsin or plasmin was studied by the chemical treatment of the enzyme-inhibitor complex with 7.5 M hydrazine at pH 10.0. With the hydrazine treatment, the complexes were degraded to proteins corresponding to the respective enzyme and inhibitor moieties. These results indicate that the covalent bond between the inhibitor and the enzymes is a carboxylic ester. The binding reaction of the inhibitor to active site-modified trypsin was also studied. The inhibitor formed complexes with anhydrotrypsin and carboxyamidomethylated trypsin. The complexes were dissociated in the presence of 1% sodium dodecyl sulfate, to the individual components: the respective enzyme and inhibitor moieties. The inhibitor, however, did not form a complex with diisopropylphosphorylated trypsin regardless of the presence or absence of the denaturing reagent. These results suggest the contribution of non-covalent interactions to the complex formation between the inhibitor and native enzymes.
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PMID:On the interaction of alpha2-plasmin inhibitor and proteases. Evidence for the formation of a covalent crosslinkage and non-covalent weak bondings between the inhibitor and proteases. 14 46

The blood content of soluble fibrin and D and E fibrinogen fragments, the protamine sulfate test and the activity of plasmin and plasminogen activator were studied in patients with macrofocal myocardial infarction. It was established that the content of soluble fibrin in blood considerably increases in the first days of the disease, and the level of products of fibrinogen D and E disintegrationand the value of the protamine sulfate test increase in the 2nd--3rd week of the disease. The appearance in the blood of fibrinogen derivates was attended by low activity of plasmin and plasminogen activator in blood. The highest content of fibrinogen derivates and low activity of plasmin and plasminogen activator were noted in patients with arrhythmias and congestive circulatory insufficiency. It is suggested that the appearance in circulation of high-molecular fibrinogen compounds is important in the development of rheological disorders.
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PMID:[Content of fibrinogen degradation products, soluble fibrin and the fibrinolytic activity of blood in myocardial infarct]. 49 64

Several molecular weight forms of plasminogen activator (PA) activity have been observed in serum-free conditioned media from human cells in culture. An antibody inhibition technique is described which combines inhibition of enzyme activity by anti-urokinase IgG with sodium dodecyl sulfate-gel electrophoresis to determine whether different molecular weight forms of human cell PA's are immunologically related to urokinase. Plasminogen activator forms with molecular weights of 85,000 to 95,000, 50,000 to 60,000, and 36,000 were inhibited by anti-urokinase IgG. In contrast, PA forms with molecular weights in the 73,000 range from three different types of human cells were not inhibited by comparable concentrations of the antibody. Human embryonic kidney cultures contain only anti-urokinase IgG-inhibitable PA forms, while melanoma-derived Malme-3M cultures contain only anti-urokinase IgG-resistant forms. Cultures of tumorigenic Detroit 562 cells and nontumorigenic IMR-90 cells contain a mixture of "antibody-sensitive" and "antibody-resistant" PA forms. The antibody-resistant 73,000-dalton PA form may be a precursor of the smaller antibody-sensitive, urokinase-related forms, or it may be the product of a second plasminogen activator gene which codes for a protein immunologically and structurally different from urokinase.
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PMID:Immunological characterization of multiple weight forms of human cell plasminogen activators. 76 81

A quantitative method is described for measuring the amount of plasminogen activator produced by rat ovarian granulosa cells following exposure to hormones in vivo or in vitro. The results confirm the previously reported observation (Beers, W. H., Strickland, S., and Reich, E. (1975) Cell 6, (387-394) that granulosa cells in vivo produce increasing amounts of plasminogen activator as the time of ovulation approaches and that the enzyme is produced only be cells obtained from follicles destined to ovulate. Inactive cells can be stimulated in vitro by gonadotropins to produce plasminogen activator. This response is time- and dose-dependent, and results in an increase of intracellular and extracellular enzyme. Studies of the specificity of this response indicate that preparations of follicle-stimulating hormone are much more effective than corresponding preparations of luteinizing hormone. The effect of other pituitary hormones is also presented. Molecules other than gonadotropins are also capable of stimulating the cells to produce the enzyme. Prostaglandins E1 and E2 and analogues of cAMP effectively stimulated the cells to produce plasminogen activator, cGMP and its analogues and prostaglandins F1a and F2a were without effect as were the six steroids studied. The inactive compounds also did not inhibit the response of the cells to gonadotropins. The granulosa cell plasminogen activator has been analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and has an apparent molecular weight of 75,000. By this and other criteria, the granulosa cell enzyme is similar to one of the species of plasminogen activators obtained from cultures of simian virus 40-transformed rat embryo fibroblasts.
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PMID:Studies on the role of plasminogen activator in ovulation. In vitro response of granulosa cells to gonadotropins, cyclic nucleotides, and prostaglandins. 96 86

In order to evaluate the influence of dilution, pH and ionic strength on the precipitation of t-PA and PAI-1 during euglobulin precipitation, we measured t-PA Ag, PAI-1 Ag and fibrinolytic activity in the euglobulin fraction made of pooled plasma from liver cirrhosis patients, under various conditions by changing pH, ionic strength and degree of dilution. The precipitation of t-PA Ag in the euglobulin fraction was enhanced by decreasing the ionic strength and greatest at pH 6.0. The fibrinolytic activity in the euglobulin fraction showed consistent changes with t-PA Ag under varying pH and ionic strength. The precipitation of t-PA Ag was not influenced by the dilution factor but the larger the dilution factor, the greater the PAI-1 and the smaller the fibrinolytic activity in the euglobulin fraction. PAI Ag in euglobulin fraction showed consistent changes with t-PA Ag in the euglobulin fraction regardless of the changes in ionic strength and pH. The amount of precipitation of t-PA and PAI-1 was increased by the presence of dextran sulfate, under varying pH, ionic strength and dilution conditions. Our results show that the currently used conditions for standard euglobulin precipitation are the most favorable for t-PA precipitation into the euglobulin fraction. The fibrinolytic activity exerted in the euglobulin fraction seems to depend on the amount of t-PA-PAI-1 complex rather than minimized protease inhibitor in the euglobulin fraction.
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PMID:The effect of dilution, pH and ionic strength of plasma on t-PA precipitation in euglobulin fraction. 130 75

Plasma tissue-type plasminogen activator (t-PA) is cleared rapidly in vivo by the liver. Previous studies with the human hepatoma cell line HepG2 have identified a clearance system for t-PA modulated by plasminogen activator inhibitor type 1 (PAI-1). In the present study, a rat hepatoma cell line MH1C1 is shown to contain a PAI-1-independent t-PA clearance system. At 4 degrees C, binding of 125I-t-PA to MH1C1 cells was rapid, specific, and saturable. Scatchard analysis of the binding data yielded a mean estimate of 105,000 high affinity binding sites per cell (Kd = 4.1 nM). When the bound ligand was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the majority (about 90%) of the specific binding was in the form of uncomplexed 125I-t-PA. This is in contrast to HepG2 cells in which specific binding was mainly in the form of a sodium dodecyl sulfate-stable 125I-t-PA.PAI-1 complex. When availability of matrix-associated PAI-1 was blocked by preincubation with anti-PAI-1 antibody or removed by elastase treatment, specific 125I-t-PA binding to MH1C1 cells was unaffected, whereas most of the specific 125I-t-PA binding to HepG2 cells was abolished. Furthermore, when the active site of t-PA was inactivated with diisopropyl fluorophosphate, the diisopropyl fluorophosphate-t-PA specifically competed for binding of 125I-t-PA to MH1C1 cells, but failed to block specific 125I-t-PA binding to HepG2 cells. At 37 degrees C, PAI-1-independent t-PA binding to MH1C1 cells was followed by ligand uptake and degradation with kinetics similar to that seen in HepG2 cells. Chemical cross-linking of t-PA to MH1C1 cells revealed a specific t-PA binding protein with a molecular mass of about 500,000 daltons. Ligand-receptor complexes generated by chemical cross-linking were immunoprecipitable by anti-t-PA antibody but not by anti-PAI-1 antibody, further supporting the finding that binding of t-PA to MH1C1 cells is PAI-1-independent.
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PMID:Identification and partial characterization by chemical cross-linking of a binding protein for tissue-type plasminogen activator (t-PA) on rat hepatoma cells. A plasminogen activator inhibitor type 1-independent t-PA receptor. 132 1

Heparin is indispensable anticoagulant for cardiopulmonary bypass, but the dose of heparin is even now under discussion. In this study, hemostatic fluctuation was analyzed during and after the bypass using hemostatic molecular markers. The subjects were 16 adult cases of open heart surgery, 12 males, 4 females. The average age was 55.0 year. Operations were aortocoronary bypass in 12, valvular surgery in 3 and ASD patch closure in one with moderate hypothermic cardiopulmonary bypass. At the beginning of cardiopulmonary bypass, 3 mg/kg heparin was administered and the equivalent amount of protamine sulfate was used for neutralization at the end of the bypass. Platelet count, hematocrit, antithrombin III (ATIII), beta-thromboglobulin, platelet factor 4, fibrinopeptide A, thrombin antithrombin III complex, FDP, D dimer FDP, plasmin alpha 2 plasmin inhibitor complex, tissue plasminogen activator (t-PA), and thrombomodulin (TM) were measured through the operation up to two weeks after surgery. ATIII decreased to 50% of control value all through the bypass. Platelet markers increased immediately, and the activated state continued 3 hours after the bypass. Coagulation markers increased markedly after the aortic declamping, and reached at its peak by three times as control value, immediately after the protamine neutralization and continued for 3 hours. During the bypass, fibrinogenolysis caused by t-PA which was stimulated by non-physiological circulation and stimulating substances, was observed. Fibrinolysis occurred following the hypercoagulability after the neutralization. TM was within normal range before the aortic declamping. But increased gradually after the declamp, and reached twice as much as the base line. It could be concluded that hypercoagulability and high platelet activation might play a role of perioperative thrombosis. Hypercoagulability and increase of serum TM would be related to reperfusion of the lung. The increasing of TM would reflect broad injury of vessel walls after the bypass, because plasma TM increased following the generalized injury of endothelial cells.
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PMID:[A clinical study on hemostatic fluctuation during and after cardiopulmonary bypass using hemostatic molecular markers]. 133 89


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