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 gene encoding a variant (lacking amino acids 6-173) of human tissue-type plasminogen activator (t-PA), consisting only of the second kringle domain (K2) and the serine protease domain (P), was fused to a DNA segment coding for the signal peptide of staphylococcal protein A and a synthetic gene coding for a protein with ability to bind immunoglobulin G (IgG). The fusion protein which was synthesized in Escherichia coli and secreted into the growth medium, was found to be fibrinolytically active. Purification of the fusion protein was performed in a single step by affinity chromatography with immobilized IgG. Enzymatically active K2P was liberated from the fusion protein by cleavage at a unique Asn-Gly dipeptide sequence using hydroxylamine. These results demonstrate that a variant of human t-PA can be synthesized and secreted by E. coli as a fibrinolytically active fusion protein, which upon specific cleavage yields an active variant t-PA of the expected size.
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PMID:Synthesis and secretion of a fibrinolytically active tissue-type plasminogen activator variant in Escherichia coli. 190 33

In order to investigate the binding of pro-urokinase (pro-UK) in urine to fibrin/Celite, the property which led to its discovery, the effect of fibrin on the plasminogen activator activity of urine was studied. The plasminogen activator activity in urine was found to be consistently about 2-fold higher when measured by fibrin plate assay than by amidolytic substrate (S-2444), when normalized against the UK reference standard. When the amidolytic activity measurement was preceded by incubation of urine with soluble fibrin, a 2-fold increase in amidolytic activity was also found. Fibrin similarly increased plasmin generation in urine enriched with Glu- or Lys-plasminogen as determined by synthetic substrate S-2251. The observed promoting effect was common to several forms of soluble fibrin and was dose dependent, whereas fibrinogen had little effect. The promoting effect of fibrin was not expressed in the presence of pro-UK or two-chain UK (TC-UK) in buffer and therefore was attributed to another constituent of urine. Since the activity was inhibited by antibodies to UK but not to t-PA, it was called fibrin activatable UK (FA-UK). Gel filtration (Sephacryl-200) of urine revealed FA-UK activity in fractions eluting at a molecular weight of approximately 100K. A 100 K band of activity was also consistently seen when concentrated urine was subjected to zymography. Treatment of concentrated urine with hydroxylamine (1 M) eradicated both these activities and was associated with an increase in baseline amidolytic activity in the urine sample indicative of the release of UK from an inhibitor complex. Moreover, passage of urine over insolubilized monoclonal antibody against UK-inhibitor (PAI-3) complexes resulted in loss of FA-UK activity and of the 100 K band on the zymogram suggesting that the complex responsible for FA-UK was related to a PAI-3 complex. Since the FA-UK activity appeared to bind to fibrin/Celite, attempts were made to investigate complexation with pro-UK. Unfortunately, due to the instability of pro-UK in urine, no reliable data were obtained. It was concluded that PAI-3 may serve as a fibrin-interacting co-factor of UK, and therefore may play a role in fibrinolysis.
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PMID:Fibrin activatable urokinase (FA-UK): a latent form of UK found in urine related to a complex with an inhibitor/fibrin-interacting cofactor. 305 14

Placental extracts contain inhibitors of human urinary urokinase. These extracts form a heterogeneous population of complexes with 125I-urokinase that are recognizable by changes in gel filtration profile and mobility during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Treatment with reducing agents eliminated the size heterogeneity without loss of activity, thereby allowing the placental inhibitor to be purified. Active inhibitor has been isolated in apparently homogeneous form after an eight-step procedure that included salt extraction, ammonium sulfate fractionation, column chromatography on CM-cellulose, DEAE-Sepharose, and hydroxylapatite, chromatofocusing, preparative gel electrophoresis, and hydrophobic chromatography. The purified inhibitor has Mr = 47,000. The inhibitor is relatively specific for plasminogen activators since it does not inhibit the action of plasmin, factor XIIa, plasma kallikrein, or thrombin. The inhibitor forms complexes with 1:1 stoichiometry that block the active sites of urokinase (but not prourokinase) and both one- and two-chain forms of tissue plasminogen activator. The stability of these complexes in sodium dodecyl sulfate-polyacrylamide gel electrophoresis suggest that they are based on covalently bonded structures. Although both types of plasminogen activator are inhibited, the rate of interaction is significantly faster with urokinase, tissue plasminogen activator being inhibited less efficiently. The complexes formed can be dissociated by mild alkali or hydroxylamine, thereby regenerating both enzymes and inhibitor at their original molecular weights. The results suggest that the complexes are stabilized by ester-like bonds; these might involve the hydroxyl of serine at the active site of the proteases and a carboxyl group in the inhibitor.
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PMID:An inhibitor of plasminogen activation from human placenta. Purification and characterization. 310 92

The initiation and regulation of fibrinolysis has been studied by reconstitution of fibrinolytic activity in human plasma in vitro. Depletion of tissue plasminogen activator (tPA) antigen by immunoadsorption of human plasma with anti-tPA Ig Sepharose 4B leads to total loss of spontaneous fibrinolytic activity determined by lysis of a thrombin-induced clot. Addition of physiological concentrations of purified tPA to tPA-depleted plasma restores fibrinolytic activity as a function of the length of time between tPA addition and clotting. Addition of free tPA to tPA-depleted plasma followed by immediate clotting results in a high rate of fibrinolysis. In contrast, when free tPA is allowed to incubate in plasma for 10 to 60 minutes prior to clot formation, the fibrinolytic activity of tPA is gradually lost. The loss of tPA-induced fibrinolytic activity in unclotted plasma is accompanied by decreased partitioning of tPA antigen into fibrin after clotting and is kinetically correlated with the formation of a 100 kilodalton (kDa) tPA complex as demonstrated by SDS-gel electrophoresis and fibrin-agar zymography. These results suggest that free tPA is susceptible to complexation by the plasma inhibitor in the absence of a clot. Fibrin formation renders tPA relatively inaccessible to inhibition. The tPA antigen isolated from stored plasma consists mainly of 100 kDa activity in SDS-gel electrophoresis and zymography, indicating that the tPA complex is resistant to dissociation by SDS. Upon rezymography of the sliced gel, only a 60 kDa tPA activity is found, suggesting that the activity at 100 kDa is at least partly due to free tPA dissociated from the complex during the first zymography. Conversion of tPA complex to enzymatically active free tPA also occurs with brief SDS exposure followed by incubation in the presence of excess Triton X-100 or by hydroxylamine treatment. These results reconcile the apparent discrepancy of the 100 kDA inhibitor-tPA complex manifesting plasminogen activation activity during zymography. The plasma tPA-inhibitor complex is precipitated strongly by antisera against plasminogen activator inhibitors (PAIs) of human Hep G2 hepatoma and HT-1080 fibrosarcoma cells and weakly by antiserum against bovine aortic endothelial cell PAI but not by antiserum against a placental PAI (PAI-2) suggesting that the plasma inhibitor is immunologically related to Hep G2, HT-1080 and possibly endothedial cell PAIs. Based on the above findings, a simple model for the initiation and regulation of plasma fibrinolysis at the PA level has been formulated.
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PMID:Initiation and regulation of fibrinolysis in human plasma at the plasminogen activator level. 310 19

To determine whether sustained plasma concentration of human tissue-type plasminogen activator (t-PA) can be induced promptly after intramuscular injection with enhancers of absorption devoid of deleterious local and systemic effects, we studied 250 rabbits and 13 dogs. In rabbits with t-PA injected directly into exposed muscle followed by local electrical stimulation at the site, early absorption was increased markedly by addition of 0.63M methylamine plus 0.079M hydroxylamine to the excipient. Elevations peaked within 5 min and increased with dose of t-PA, concentration of methylamine, and volume of injection medium. The enhancers were effective with percutaneous injections in the absence of local electrical stimulation as well. They did not elicit any obviously deleterious local or systemic effects. In separate experiments in rats, intramuscular injections of 0.63M methylamine plus 0.079M hydroxylamine induced local egress of intravascular radiolabeled albumin within the injection site and endothelial gaps in venules detected with colloidal carbon--changes consistent with direct effects on vascular permeability. In dogs, percutaneous intramuscular injection of t-PA in excipient without enhancers did not lead to early elevations of human t-PA in plasma, although late elevations were seen. When the enhancers were used, early elevations occurred as well, with functional activity documented by fibrin plate assays of serially obtained plasma samples and by sequential coronary angiography delineating thrombolysis after experimentally induced coronary thrombosis. The results indicate that intramuscular administration of t-PA with selected enhancers of absorption is a feasible approach for rapid induction of fibrinolysis.
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PMID:Intramuscular administration of human tissue-type plasminogen activator in rabbits and dogs and its implications for coronary thrombolysis. 310 15

The cDNA coding for the porcine pancreatic prophospholipase A2 (proPLA) has been cloned and expressed in E. coli. Expression of proPLA could only be obtained in the form of intracellular aggregates after fusing the 15 kDa proPLA to a large (greater than or equal to 45 kDa) bacterial peptide. The fusion protein was readily purified from cell lysates, and specifically cleaved. Cleavage of the fusion protein was achieved with either hydroxylamine (at Asn/Gly sequences in the denatured protein), or trypsin (between the pro- and the mature PLA in the renatured fusion protein). The former method releases a proPLA-like enzyme, while the latter directly yields PLA. Renaturation of the fusion protein was made possible by the use of a recently reported new S-sulphonation method. The released (pro)PLA was purified (yields of 2-3 mg/ltr of culture medium), and showed identical properties compared to native (pro)PLA.
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PMID:Expression of porcine pancreatic phospholipase A2. Generation of active enzyme by sequence-specific cleavage of a hybrid protein from Escherichia coli. 329 82

Conventional activators of the fibrinolytic system used for coronary thrombolysis entail unavoidable delay, risk of bleeding, or both in contrast to tissue-type plasminogen activator (t-PA). Because the potential benefit of coronary thrombolysis is inversely related to the duration of antecedent ischemia, this study was performed to develop an approach for facilitated absorption of intramuscularly injected t-PA potentially adaptable for prompt, self-medication. In rabbits, absorption was markedly potentiated by hydroxylamine hydrochloride and electrical stimulation at the injection site. Intramuscular administration of t-PA in doses of 1 mg/kg of body weight, comparable to amounts given intravenously to patients (0.5-0.75 mg/kg), elicited peak blood levels of 431 +/- 52 (SEM) ng/ml 5 min after injection, well within the therapeutic range. In dogs, absorption facilitated by hydroxylamine promptly elicited angiographically documented coronary thrombolysis as well. The approach developed should ultimately permit prompt coronary thrombolysis and enhanced salvage of jeopardized ischemic myocardium in patients with life-threatening coronary thrombi.
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PMID:Coronary thrombolysis with facilitated absorption of intramuscularly injected tissue-type plasminogen activator. 385 78

Conditioned medium from cultures of human umbilical vein endothelial cells was analyzed for the presence of tissue plasminogen activator (tPA) and urokinase. Immunoprecipitation studies using metabolically labeled conditioned medium and anti-tPA IgG revealed a single band on autoradiographs corresponding to a Mr of 100,000. No bands were observed after immunoprecipitation with anti-urokinase IgG. The Mr 100,000 tPA was found to be inactive and did not bind to fibrin clots. However, exposure of this tPA to 1% NaDodSO4 resulted in the appearance of plasminogen activator activity with no apparent change in its Mr. Treatment with 10 mM diisopropylfluorophosphate prior to NaDodSO4 activation did not inhibit the NaDodSO4-induced appearance of plasminogen activator activity, indicating that the active site was not available for diisopropylfluorophosphate binding. The possibility that the properties of this Mr 100,000 tPA reflected a tPA-inhibitor complex was examined. Attempts to dissociate such a complex by denaturation, reduction, or extremes of temperature were not successful. However, after treatment of conditioned medium with 1 M hydroxylamine in the presence of 0.1% NaDodSO4, the Mr of the anti-tPA immunoprecipitable material declined by 40,000 to Mr 60,000, a Mr consistent with that of other human tPAs. Hydroxylamine has been shown previously to dissociate covalently coupled serine protease-inhibitor complexes. Furthermore, incubation of purified human melanoma cell tPA with conditioned medium resulted in an increase in its Mr by 40,000 with a concomitant decline in tPA activity. The data suggest that the latent tPA present in the conditioned medium of endothelial cells is composed of a Mr 60,000 tPA associated with an inhibitor.
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PMID:Latent tissue plasminogen activator produced by human endothelial cells in culture: evidence for an enzyme-inhibitor complex. 658 Jun 16

Incubation of rat cortical slices in a medium that was not containing oxygen and glucose (oxygen-glucose deprivation, OGD) caused a 200% increase in the release of S100B. However, when slices were transferred to a medium containing oxygen and glucose (reoxygenation conditions, or REO), S100B release reached 500% of its control value. Neither inhibition of nitric oxide (NO) synthase by L-NAME nor addition of the NO donors sodium nitroprussid (SNP) or hydroxylamine (HA) to the medium altered basal S100B release. Similarly, the presence of SNP, HA or NO precursor L: -arginine in the medium, or inhibition of NO synthase by L-NAME also failed to alter OGD- and REO-induced S100B outputs. Moreover, individual inhibition of PKC, PLA(2) or PLC all failed to attenuate the S100B release determined under control condition or enhanced by either OGD or REO. Blockade of calcium channels with verapamil, chelating the Ca(+2) ions with BAPTA or blockade of sodium channels with tetrodotoxin (TTX) did not alter OGD- and REO-induced S100B release. In contrast to the pharmacologic manipulations mentioned above, glutamate and alpha-ketoglutarate added at high concentrations to the medium prevented both OGD- and REO-induced S100B outputs. These results indicate that neither NO nor the activation of PKC, PLA(2) or PLC seem to be involved in basal or OGD- and REO-induced S100B outputs. Additionally, calcium and sodium currents that are sensitive to verapamil and TTX, respectively, are unlikely to contribute to the enhanced S100B release observed under these conditions.
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PMID:Mechanism of S100b release from rat cortical slices determined under basal and stimulated conditions. 1982 32