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 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

Plasminogen, the inactive precursor of plasmin, a general trypsin-like proteinase, is present at high concentration in blood and in body fluids. Most cells can recruit this proteolytic potential by secreting plasminogen activator (PA) to generate localized proteolysis in the surrounding microenvironment. PA and plasmin are serine enzymes whose pH optima match extracellular pH; further, in view of the large amount of circulating proenzyme and the broad substrate range of plasmin, the possibility that this proteolytic system can initiate a variety of proteolytic reactions or sequences should be kept in mind. PA production is precisely regulated by hormones, temporal programming, or both; and enzyme synthesis is correlated with some physiological and pathological processes requiring proteolysis. Thus PA production is coordinately regulated with ovulation, trophoblast implantation, spermatogenesis, polypeptide hormone synthesis, and some developmental phenomena; and with inflammation, tumour promotion, and neoplasia. Tissue remodelling and cell migration are common to many of these processes. Macrophage (monocyte) and polymorphonuclear leucocyte PA production is modulated by many biologically active substances. Enzyme synthesis is induced and stimulated by stimuli that recruit these cells to sites of inflammation, and it is repressed by anti-inflammatory agents, notably by glucocorticoids.
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PMID:Neutral proteinases of leucocytes and the inflammatory process. 39 97

Attempts are being made to redesign the structure of tissue-type plasminogen activator (t-PA) in order to increase its plasma half-life, increase its fibrin affinity or decrease its rate of interaction with plasma inhibitors. The principal strategies employed so far have been to construct hybrid enzymes, to mutate the polypeptide sequence of t-PA or to add extra fibrin-binding elements. It has been relatively easy to alter the half-life of t-PA but more difficult to do this with retention of the full specific activity of the molecule; the most promising molecules will have to be evaluated in the clinic before we know whether the redesign of t-PA has been truly successful.
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PMID:Redesigning t-PA for improved thrombolytic therapy. 136 4

Regulation of the activity of proteolytic enzymes is of major importance in the turnover of connective tissues. The search for physiologically relevant activation mechanisms of principal tissue-degrading enzymes, e.g., metalloproteinases, has therefore been of wide interest. We have now studied whether the initiating factor of the fibrinolytic system, urokinase plasminogen activator (u-PA), may also function in the early steps of activation of one of the metalloproteinases, the M(r) 72,000 gelatinase/type IV collagenase produced by cultured fibroblasts. Treatment of the secreted M(r) 72,000 proteinase by u-PA yielded a cleavage product of M(r) 62,000 as revealed by fluorography of radioactively labeled proteins as well as by gelatin zymography SDS-PAGE gels. The u-PA-catalyzed cleavage of the M(r) 72,000 proteinase was blocked by anti-u-PA antibodies, but was unaffected by the plasmin inhibitor aprotinin, thus indicating a specific action for the activator. On the contrary, the tissue activator of plasminogen, t-PA, did not cleave the type IV collagenase in similar assays. u-PA-catalyzed cleavage of recombinant type IV collagenase, produced in a baculovirus expression system, yielded a similar M(r) 62,000 activity in gelatinolysis assay. Zymograms of the isolated pericellular matrices of cultured fibroblasts also revealed M(r) 72,000 gelatinolytic polypeptide that was converted to an M(r) 62,000 form by u-PA. Both polypeptides were recognized in immunoblotting by antibodies against the gelatinase/type IV collagenase, suggesting immunological identity with the secreted enzyme. Thus the M(r) 72,000 gelatinase/type IV collagenase is not only secreted, but also deposited into the pericellular fibroblast matrix, and both forms are substrates for u-PA. The results suggest a new potential role for u-PA as a direct regulator of metalloproteinase-mediated extracellular proteolysis via the cleavage of the M(r) 72,000 gelatinase/type IV collagenase to an M(r) 62,000 form.
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PMID:Proteolytic processing of the 72,000-Da type IV collagenase by urokinase plasminogen activator. 139 99

Tissue-type plasminogen activator (t-PA) is synthesized in mammalian cells as a mixture of two forms that differ in their extent of N-linked glycosylation. We have investigated the mechanism underlying this variation in glycosylation, using a cell-free system that consists of a rabbit reticulocyte lysate optimized for the formation of disulphide bonds and supplemented with dog pancreas microsomal membranes. Molecules of human t-PA synthesized in vitro are enzymically active and responsive to natural activators and inhibitors, and are glycosylated in a pattern identical with that of the protein produced in vivo. This demonstrates that t-PA synthesized in vitro folds into the same conformation as the protein synthesized in vivo. We show that the extent of glycosylation of individual t-PA molecules is dependent on the state of folding of the polypeptide chain, since the probability of addition of an oligosaccharide side chain at Asn-184 is decreased under conditions that promote the formation of enzymically active molecules. This variation in glycosylation is independent of the rate of protein synthesis.
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PMID:Cell-free synthesis of enzymically active tissue-type plasminogen activator. Protein folding determines the extent of N-linked glycosylation. 152 Feb 79

A genomic library of Yersinia pestis EV76c created in a cosmid vector was screened for clones capable of binding type IV collagen. An unexpectedly high number of such clones was observed. One recombinant plasmid was selected for further study, and the locus controlling collagen binding was mapped by subcloning, transposon mutagenesis and exonuclease digestion. The outer-membrane protein profiles of transposon insertion mutants were correlated with phenotype to implicate a 36 kDa polypeptide in type IV collagen binding. Fine substructure restriction mapping and limited DNA sequence analysis showed the cloned locus to be identical to the locus (pla) for the plasminogen activator, previously characterized genetically and biochemically. The pla locus is resident on a 9.5 kb plasmid in wild-type Y. pestis strains. Curing of this plasmid resulted in negligible reduction in collagen-binding capacity, implying the existence of a chromosomally located determinant for collagen binding. The affinity of the plasminogen activator for collagen was relatively weak. When the cloned pla locus was introduced into E. coli, it conferred upon the cell the ability to bind to cells from a number of cell lines. Binding to glycolipids separated by thin-layer chromatography demonstrated that the receptor was a member of the globo-series of glycolipids. Since it has been reported that mutation of pla dramatically reduces virulence, we propose that this hitherto undescribed function of the gene product could contribute to the biological activities necessary for full virulence.
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PMID:Adhesive properties conferred by the plasminogen activator of Yersinia pestis. 152 8

Increases in thrombin activity in patients given fibrinolytic agents for acute myocardial infarction have been shown to be important in limiting the ultimate success of coronary thrombolysis. The present study was designed to determine whether increases in thrombin activity reflect, in part, activation of prothrombin accompanying thrombolysis. Plasma concentrations of prothrombin fragment 1.2, a polypeptide released when prothrombin is activated by factor Xa, were measured in 22 patients with acute myocardial infarction before and after treatment with 100 mg of recombinant tissue-type plasminogen activator (rt-PA). Concentrations of prothrombin fragment 1.2 increased from 0.83 +/- 1.1 nM (mean +/- SD) before rt-PA infusion to 1.5 +/- 1.5 nM 2 h after initiation of the infusion (p less than 0.05). After a 5,000-U intravenous dose of heparin given at the end of the infusion of rt-PA, concentrations of prothrombin fragment 1.2 decreased from 1.8 +/- 1.5 to 1.1 +/- 0.9 nM (n = 20, p less than 0.05), although values were still increased compared with concentrations before rt-PA. These results indicate that thrombin activity increases in patients given rt-PA at least in part because of activation of the coagulation system leading to activation of prothrombin. Thus, inhibition of the reactions involving coagulant proteins that lead to activation of prothrombin may be of value as conjunctive treatment to potentiate the efficacy of pharmacologic thrombolysis.
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PMID:Activation of prothrombin accompanying thrombolysis with recombinant tissue-type plasminogen activator. 155 97

Chinese hamster ovary (CHO) cells were examined for production of an enzyme that nicked the polypeptide chain of the heat-labile enterotoxin from enterotoxigenic Escherichia coli between the A1 and A2 fragments of its A subunit. Serum-free culture medium prepared each day after CHO cell inoculation was concentrated 100 times and its proteolytic activity for formation of the A1 fragment was examined by Western blotting with anti-LT A antibody. The A subunit was detected in culture medium on day 6 after cell inoculation, although not in media on day 1 or 3, indicating that CHO cells produced a nicking enzyme. This nicking enzyme had an optimal pH of about 7.5 and an apparent Mr. of 120,000, as seen by Superose 12 TM gel filtration with an FPLC system. The activity of this enzyme was strongly inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride, but not by p-chloromercuribenzoic acid, EDTA or ethyleneglycol bis (beta-aminoethylether)-N,N-N',N'-tetraacetic acid, suggesting that this enzyme was a serine protease. The activity was not stimulated by plasminogen or fibrin. These findings suggest that the nicking enzyme was different from proteases such as elastase, collagenase and plasminogen activator, which are probably also secreted by fibroblast-like CHO cells.
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PMID:Chinese hamster ovary cells produce an enzyme that nicks heat-labile enterotoxin from enterotoxigenic Escherichia coli. 157 34

Recombinant tissue-type plasminogen activator (rt-PA, alteplase, Actilyse, Activase; CAS 105857-23-6) is the most effective agent currently available for thrombolytic therapy of life-threatening diseases such as acute myocardial infarction. It acts by rapid, clot-specific lysis of pathological thrombi, with only limited effects on systemic hemostasis. Pharmacokinetics of rt-PA have been extensively characterized in animal species and man, and can be generally described by a 3-compartment model. Preferred analytical methods for rt-PA in plasma are ELISA and chromogenic activity assays. The dominant plasma half-life of rt-PA in myocardial infarction patients is short (3.6 min), which allows excellent control of plasma levels during therapy. Steady-state plasma concentrations effecting coronary thrombolysis using the current dosage regimen are 2.2 micrograms/ml. A deep compartment results in elevated rt-PA concentrations several hours after termination of infusions, which may contribute to short-term maintenance of patency of reperfused blood vessels. Clearance of rt-PA can be saturated in animals at very high plasma concentrations (Km = 12-15 micrograms/ml), however, pharmacokinetics in clinical settings are linear. Clearance occurs via hepatic receptor mediated endocytosis and intracellular degradation in liver parenchymal, endothelial and Kupffer cells. The catabolism involves coated pits, coated vesicles, endosomes, and finally degradation in lysosomes. Current evidence supports the existence of hepatic receptors recognizing carbohydrate as well as polypeptide determinants in rt-PA. In conclusion, increasing knowledge of rt-PA pharmacokinetics will contribute to the optimization of new clinical dosage regimens, such as front-loaded infusions and boluses, and to the identification of novel molecular targets for pharmacologic control of rt-PA catabolism and of circulating fibrinolytic activity.
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PMID:Pharmacokinetics and hepatic catabolism of tissue-type plasminogen activator. 181 34

Prourokinase is a plasminogen activator of 411 amino acids which displays a clot-lysis activity through a fibrin-dependent mechanism, and which seems to be a promising agent for the treatment of acute myocardial infarction. The preparation of recombinant prourokinase in bacteria has been hampered by its insolubility and by difficulty in refolding the polypeptide chain. In this paper we describe the renaturation process of two recombinant proteins expressed in Escherichia coli as inclusion bodies: prourokinase and a deletion derivative (delta 125-prourokinase) in which 125 amino acids of the N-terminal region have been removed. Deletion of this sequence brings to higher refolding yields and faster kinetics (first-order rate constant of renaturation of 0.57 h-1 for delta 125-prourokinase and 0.25 h-1 for prourokinase). Our process involves sequential steps of denaturation, reduction and controlled refolding of the polypeptide chain. When applied to pure, non-glycosylated and active prourokinase, it gives a refolding yield of about 80%, demonstrating the efficiency of the renaturation procedure. Lower yields (15% and 30%, respectively, for prourokinase and delta 125-prourokinase) were obtained when the same refolding protocol was applied to inclusion bodies from bacteria. After purification to homogeneity (as shown by HPLC and SDS/PAGE) specific activities were 160,000 and 250,000 IU/mg protein, respectively, for prourokinase and delta 125-prourokinase. As with prourokinase, the deletion mutant delta 125-prourokinase displays a zymogenic nature, being activated by plasmin to the active two-chain form; however, this mutant is approximately fourfold more resistant than prourokinase to plasmin activation, and consequently shows a different fibrinolytic profile.
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PMID:Efficient renaturation and fibrinolytic properties of prourokinase and a deletion mutant expressed in Escherichia coli as inclusion bodies. 184 67


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