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)

Three types of plasminogen activator could be distinguished in extracts from human uterine tissue. The activators differed in thermostability or in mode of inhibition by EACA. All the extracts contained stable as well as labile activators. The saline extracts were uniformly inhibited by increasing concentrations of EACA. Extracts made with 2 M ammonium thiocyanate were either uniformly inhibited by EACA or showed deflections indicating contamination with an activator, which was inhibited in a biphasic manner. It was possible to distinguish between: (1) An activator, abundantly present in the tissue, which was uniformly inhibited and stable. (2) Another uniformly inhibited activator, which was labile. (3) An activator, inhibited in a biphasic manner, similar to urokinase, which was present in varying amounts in uteri with the endometrium in the proliferative phase. Gel filtration of the uterine extracts showed two major activity peaks corresponding to particle sizes of 60,000 dalton and about 10,000 dalton. Antiserum to purified plasminogen activator, prepared from porcine ovaries, inhibited the activity of the human uterine extracts, but not the activities of human urokinase or urine. Urokinase antiserum in a concentration completely inhibiting human urine or urokinase, inhibited only 10% or less of the activities of human uterine extracts.
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PMID:Separation of plasminogen activators from human uterine tissue and a comparison with activators from human urine and porcine tissue. 11 1

A procedure was developed for the purification of a plasminogen activator from human uterine tissue. It involves six consecutive steps: (1) extraction of the plasminogen activator from delipidated uterine tissue with 0.3 M potassium acetate buffer, pH 4.2; (2) ammonium sulphate precipitation; (3) zinc chelate-agarose chromatography; (4) n-butyl-agarose chromatography; (5) concanavalin A-agarose chromatography; and (6) gel filtration on Sephadex G-150. The specific activity of the final plasminogen activator preparation was increased by a factor 4500 as compared with the crude extract. The purified plasminogen activator showed a strong tendency to adsorb to surfaces. This could be effectively prevented by Tween-80. The molecular weight of the plasminogen activator was 64 000 as estimated by gel filtration in 1.0 M NaCl and 69 000 as estimated by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate. The plasminogen activator consisted of two chains (molecular weights 31 000 and 38 000) connected by disulphide bridges. The smallest chain contained the serine residue of the active site as deduced from the incorporation of the tritium label of [3H]diisopropylphosphofluoridate.
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PMID:Purification and partial characterization of plasminogen activator from human uterine tissue. 12 Oct 55

Human alpha1-antitrypsin was prepared from fresh human plasma by (NH4)-SO4-precipitation, gel filtration, affinity chromatography on concanavalin A, ion exchange chromatography and isotachophoresis. Human urokinase (EC 3.4.99.26) (plasminogen activator from urine) with M, 46 000 and 36 000 was further purified from Urokinase Leo reagent preparation by gel filtration on Sephadex G-100 Superfine. The hydrolytic activity of urokinase on acetyl-glycyl-L-lysine methyl ester acetate (Ac-Gly-Lys-OMeAc) was inhibited in a strong time-dependent manner by alpha1-antitrypsin. Complex formation between enzyme and inhibitor could be demonstrated in crossed immunoelectrophoresis against anti-alpha1-antitrypsin and anti-urokinase serum as well as by sodium dodecyl sulphate polyacrylamide gel electrophoresis. The latter method revealed the formation of 1:1 and 2:1 molar enzyme-inhibitor complexes.
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PMID:Inhibition of urokinase by complex formation with human alpha1-antitrypsin. 108 51

Receptor-mediated endocytosis of tissue-type plasminogen activator (t-PA)-plasminogen activator inhibitor type 1 (PAI-1) complexes results in their clearance by Hep G2 cells. After complexes are internalized, the t-PA component is degraded. However, neither the locus of intracellular catabolism nor the fate of PAI-1 has been elucidated. To characterize these aspects of t-PA-PAI-1 catabolism, the subcellular distribution of a prebound cohort of ligand molecules was delineated after internalization at 37 degrees C. 125I-t-PA.PAI-1 and t-PA.125I-PAI-1 were compared in separate experiments. After ligand uptake, intracellular vesicles were separated on density gradients. Internalized 125I-t-PA.PAI-1 concentrated initially in endosomes. After 20 minutes of uptake, the complex began to appear in lysosomes. Subsequently, low molecular weight labeled ligand fragments were detected in culture media. A panel of lysosomotropic agents, including primaquine, chloroquine, ammonium chloride, and a combination of leupeptin and pepstatin A, inhibited degradation. When t-PA.125I-PAI-1 rather than 125I-t-PA.PAI-1 was internalized, strikingly different results were observed. Although the kinetics of internalization and the intracellular itinerary were indistinguishable for the differently labeled complexes, the 125I-PAI-1 component of t-PA.125I-PAI-1 resisted rapid degradation. After a rapid loss of t-PA, the 125I-PAI-1 moiety persisted in lysosomes for up to 180 minutes. Thus, internalized t-PA.PAI-1 is targeted to lysosomes in which PAI-1 is relatively more stable than t-PA.
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PMID:Endocytosis and lysosomal delivery of tissue plasminogen activator-inhibitor 1 complexes in Hep G2 cells. 133 99

Data from a number of laboratories indicate that human platelets contain type I plasminogen activator inhibitor (PAI-1) primarily in a latent form; however, one report (Biochemistry 28:5773, 1989) indicated that it is predominantly the active form of PAI-1 that is present in and can be purified from an ammonium sulfate precipitate of porcine platelets. To clarify this situation, we investigated and compared the status of PAI-1 in porcine and human platelets. Immunologic analysis of the ability of PAI-1 to form complexes with immobilized t-PA indicated that porcine and human platelets contained 3.7 +/- 0.4 and 1.7 +/- 0.3 U of PAI activity per 10(8) platelets (n = 6; +/- SD), respectively; sodium dodecyl sulfate (SDS)-activation of the lysates increased PAI-1 activity to 10.8 +/- 3.0 and 3.8 +/- 0.5 U per 10(8) platelets. Platelet lysates were also treated with an excess of soluble t-PA, which formed complexes with active PAI-1, whereas the latent form was detected by SDS-polyacrylamide gel electrophoresis and reverse fibrin autography. Furthermore, immobilized t-PA was able to deplete active PAI-1 from the platelet extracts, and the latent form remaining in the absorbed extract could be quantitated by activation with 4 mol/L guanidine. To investigate the differences between our observations and the published data, porcine platelets were extracted, and PAI-1 was partially purified as described in the literature. For quantitative analysis, porcine platelet PAI-1 was also purified to homogeneity using standard chromatographic procedures optimized in our laboratory for endothelial PAI-1, and the purified protein was used to develop an enzyme-linked immunoabsorbent assay for porcine PAI-1 antigen. Our results indicate that: (1) latent PAI-1 in concentrated ammonium sulfate precipitates of porcine platelet lysates cannot be detected unless the precipitates are diluted before treatment with denaturants; and (2) active and latent porcine platelet PAI-1 can be separated by gel filtration over molecular sieving columns. In summary, this report documents that PAI-1 in porcine platelets is present in both an active and a latent form.
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PMID:Presence of active and latent type 1 plasminogen activator inhibitor associated with porcine platelets. 142 97

Bartonellosis, a biphasic disease caused by motile intracellular bacteria, produces in its tissue phase a characteristic dermal eruption (Verruga peruana) resulting from a pronounced endothelial cell proliferation. Bacteria are found in the interstitium and within the cytoplasm of endothelial cells (Rocha-Lima inclusion). The aim of this study was to determine if Bartonella bacilliformis produce a substance(s) that might be responsible for the vascular proliferation seen in the Verruga. This was assessed in an in vitro system using human endothelial cells and measuring proliferation as well as production of tissue type plasminogen activator after exposure to the endothelial cultures to B. bacilliformis extracts. Our results indicate that B. bacilliformis possess an activity that stimulates endothelial cell proliferation up to three times that of control. The factor(s) is specific for endothelial cells, heat sensitive, larger than 12 to 14 kd, not enhanced by heparin, has no affinity for heparin, and is precipitated by 45% ammonium sulfate. In addition, the B. bacilliformis extracts stimulate production of t-PA antigen in a concentration-dependent fashion. This activity is also heat sensitive and not lost after dialysis (12 to 14 kd). B. bacilliformis extracts, however, do not increase the production of plasminogen activator inhibitor. It was also determined that B. bacilliformis extracts stimulate the formation of new blood vessels in an in vivo model for angiogenesis. These results describe a bacterial factor(s) that stimulates two important steps in the development of new blood vessels in vitro, as well as the formation of new blood vessels in vivo. Determining the mechanism of action, combined with a complete characterization of this factor(s), may help in understanding the pathogenesis not only of the Verruga and angiogenesis in general but also the recently described Cat-Scratch-associated epithelioid hemangiomas in patients with AIDS and Kaposi sarcoma.
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PMID:Bartonella bacilliformis stimulates endothelial cells in vitro and is angiogenic in vivo. 169 72

Pseudomonas fluorescens strain M3/6 was inoculated into reconstituted NDM and incubated at 7 degrees C for 46 d. A significant amount of extracellular protease was produced, mainly during the latter part of the culture's life cycle. The protease was purified using ammonium sulfate fractionation, ion-exchange chromatography, and gel filtration. The isolated protease had activity on azocasein, alpha-, beta-, and kappa-caseins and a plasmin substrate but did not have plasminogen activator activity. The protease had a molecular weight of 45 kDa, an isoelectric point of pH 8.25, a broad temperature and pH range for activity, and was less heat stable in the isolated form than in the cell-free extract.
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PMID:Purification and characterization of an extracellular protease produced by Pseudomonas fluorescens M3/6. 178 84

The plasminogen activator was purified to the extent of 150-fold from 20,000 x g supernatant of Yoshida ascites Sarcoma by ammonium sulphate precipitation at 33% saturation followed by affinity chromatography on p-aminobenzamidine-Sepharose 4B. The specific activity of the purified activator was 10,260 IU/mg expressed in terms of International units of urokinase, the known activator of plasminogen. The activator was homogeneous by polyacrylamide slab gel electrophoresis with an apparent molecular weight 75 kDa by gel filtration on Sephadex G-100. Analysis by SDS-polyacrylamide gel electrophoresis under reducing conditions, revealed the presence of two subunits of about 48 and 29 kDa. The activator displayed binding preference to fibrin and was immunologically distinguishable from urokinase, indicating that it could be of non-urokinase origin. The preparation further revealed similarity to standard tissue plasminogen activator with respect to fibrin binding and immunological cross reactivity.
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PMID:Isolation and purification of plasminogen activator from Yoshida ascites Sarcoma of rats. 190 68

The effects of dexamethasone on protein synthesis were studied in human fibrosarcoma (HT-1080) cells. Dexamethasone induced a new protein of 46 kD which was rapidly secreted into the medium, while neither progesterone nor estradiol would induce the synthesis of this protein and only a small increase in its amount could be seen in the presence of testosterone. The 46 kD protein was partially purified by ammonium sulfate precipitation and gel filtration and mouse monoclonal antibodies to it were produced in mouse hybrid cells. Altogether 13 positive clones were found, of which six reacted only with native and seven reacted with the unreduced 46 kD protein in Western blotting. It was possible by using polyclonal antibodies to plasminogen activator inhibitor type I (PAI-1) and purified plasminogen activator inhibitor type I to confirm that the 46 kD protein purified and characterized here was PAI-1. In addition, the 46 kD protein clearly inhibited plasminogen activation, thus further confirming that protein isolated was an inhibitor of plasminogen activator. Since the induction of PAI-1 by dexamethasone was very extensive, it is possible that glucocorticoids regulate proteolysis and fibrinolysis in vivo by increasing the amount of the inhibitor of plasminogen activator and thus preventing the activation of plasminogen to plasmin. The reduction of activation of plasminogen to plasmin by glucocorticoid-induced inhibitor could be of great importance, e.g., in various blistering diseases, in metastases from malignant cells, and in the migration of inflammatory cells.
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PMID:Dexamethasone-induced plasminogen activator inhibitor: characterization, purification, and preparation of monoclonal antibodies. 214 2

Low molecular weight heparin (LMW-heparin) enhanced the amidolytic activity of plasma when the chromogenic substrate, H-D-Ile-Pro-Arg-pNA (S-2288), was used. The amidolytic activity increased in a time-dependent manner as the LMW-heparin concentration increased and reached its peak at around 15 mu/ml. Factor XII-deficient plasma increased the S-2288 amidolytic activity by LMW-heparin. In order to clarify the mechanism of the heparin-induced enhancement of the amidolytic activity, a plasma factor was purified. The plasma factor was obtained from human normal plasma by ammonium sulfate fractionation, followed by successive column chromatography with heparin-Sepharose, zinc chelate-Sepharose, aprotinin-Sepharose and protein A-Sepharose. The plasma factor so purified revealed a major band (88% of total protein) at 80 kD with several minor bands on analysis by SDS-PAGE. The plasma factor exhibited an intrinsic amidolytic activity, which was enhanced by heparin. The plasma factor further enhanced the amidolytic activity of sct-PA and scu-PA, the enhancement of which was of much greater degree than that for LMW-heparin. However, when the two-chain form of t-PA or u-PA was reacted with the plasma factor and LMW-heparin, no enhancement of the amidolytic activity of these enzymes was observed. The plasma factor cleaved a peptide bond of sct-PA and scu-PA and induced a structural change from a single-chain to a two-chain form. The amidolytic activity of the plasma factor was not inhibited by anti-t-PA IgG, anti-u-PA IgG, anti-plasminogen IgG, anti-factor XII IgG or anti-plasma prekallikrein IgG. These findings suggest an important role for the plasma factor in the activation of sct-PA and scu-PA in heparin-dependent fibrinolysis.
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PMID:Purification and characterization of a plasma factor which cleaves single-chain form of t-PA and u-PA. 215 52


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