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: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction of 125I-labelled tissue-type plasminogen activator (125I-t-PA) with freshly isolated rat parenchymal and endothelial liver cells was studied. Binding experiments at 4 degrees C with parenchymal cells and endothelial liver cells indicated the presence of 68,000 and 44,000 high-affinity t-PA-binding sites, with an apparent Kd of 3.5 and 4 nM respectively. Association of 125I-t-PA with parenchymal cells was Ca(2+)-dependent and was not influenced by asialofetuin, a known ligand for the galactose receptor. Association of 125I-t-PA with liver endothelial cells was Ca(2+)-dependent and mannose-specific, since ovalbumin (a mannose-terminated glycoprotein) inhibited the cell association of t-PA. Association of 125I-t-PA with liver endothelial cells was inhibited by anti-(human mannose receptor) antiserum. Anti-(galactose receptor) IgG had no effect on 125I-t-PA association with either cell type. Degradation of 125I-t-PA at 37 degrees C by both cell types was inhibited by chloroquine or NH4Cl, indicating that t-PA is degraded lysosomally. in vitro experiments with three monoclonal antibodies (MAbs) demonstrated that anti-t-PA MAb 1-3-1 specifically decreased association of 125I-t-PA with the endothelial cells, and anti-t-PA Mab 7-8-4 inhibited association with the parenchymal cells. Results of competition experiments in rats in vivo with these antibodies were in agreement with findings in vitro. Both antibodies decreased the liver uptake of 125I-t-PA, while a combination of the two antibodies was even more effective in reducing the liver association of 125I-t-PA and increasing its plasma half-life. We conclude from these data that clearance of t-PA by the liver is regulated by at least two pathways, one on parenchymal cells (not galactose/mannose-mediated) and another on liver endothelial cells (mediated by a mannose receptor). Results with the MAbs imply that two distinct sites on the t-PA molecule are involved in binding to parenchymal cells and liver endothelial cells.
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PMID:Characterization of the interaction both in vitro and in vivo of tissue-type plasminogen activator (t-PA) with rat liver cells. Effects of monoclonal antibodies to t-PA. 131 35

In the liver, tissue-type plasminogen activator (t-PA) is endocytosed by hepatic parenchymal (PC), endothelial (EC) and Kupffer (KC) cells. Although the endocytosis is receptor-mediated, it remains a matter of discussion which receptors are involved in this catabolic process. To evaluate the role of a protein-specific receptor, as well as the possible involvement of the galactose receptor on PC and the mannose receptor on EC, we have employed different glycosylation variants of t-PA in biochemical and immunocytochemical studies. Partial or total removal of carbohydrate side-chains by endoglycosidases did not prevent clearance and hepatic endocytosis of t-PA by either of the liver cell types. Blockade of the galactose and mannose receptors by co-application of a large excess of the glycoprotein ovalbumin remained without effect on the binding and uptake of t-PA by hepatic cells. However, the contribution of different liver cell types to the hepatic clearance of t-PA was to a certain extent dependent on the type of oligosaccharide chains removed. The mannose receptor on EC is partially responsible for the clearance of t-PA by this cell type, whereas the galactose receptor does not seem to be involved in this process. The results obtained in this study further demonstrate that the major portion of the hepatic catabolism of t-PA is independent of its carbohydrate side-chains.
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PMID:Evidence for carbohydrate-independent endocytosis of tissue-type plasminogen activator by liver cells. 132 74

The formation of N-linked oligosaccharides of eukaryotic glycoproteins starts with the attachment of a common precursor at the recognition site Asn-X-Ser/Thr. Subsequent processing, by yet unknown controlling factors, leads to the formation of three different glycans: the high mannose type, the complex type and the hybrid type. In order to gain insight into the processing mechanisms, we studied the glycan pattern of a panel of related molecules constructed by insertion, duplication or deletion of the domains encoded by the cDNA of a fibrinolytic glycoprotein, tissue-type plasminogen activator (t-PA). These variant molecules are identical in regard to the glycosylation sites originally situated in particular domains, but differ with respect to the sequential alignment of the domains. The variant and native t-PA genes were transfected into mouse C127 cells and their carbohydrate structures analyzed by the susceptibility to specific endoglycosidases and by reaction with sugar-specific lectins. We found that with one exception, all mutant activators lack the high mannose glycan found at asn 117 of native t-PA. The exception was a molecule that retains the original domain arrangement up to and through the glycosylation site at asn 117. These results demonstrate for the first time that structural alterations in the primary sequence distal to the actual glycosylation site can result in altered processing of N-linked oligosacharides.
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PMID:Alterations in the domain structure of tissue-type plasminogen activator change the nature of asparagine glycosylation. 136 33

Baculoviruses are currently used as vectors for the transient high-level expression of foreign gene products in insect cells. In this study, we demonstrate that baculoviruses can also be made to continuously express a foreign gene product by using the promoter from IE1, an immediate early viral gene, to produce stably-transformed insect cells. This approach gave levels of foreign gene expression lower than those usually obtained with the lytic baculovirus expression vector system. Expression, however, was continuous and stable, and a complex human glycoprotein (tissue plasminogen activator) was processed more efficiently. We conclude that stable transformation is a feasible approach for baculovirus-mediated foreign gene expression in lepidopteran cells, particularly for products that are relatively poorly-expressed and/or processed in lytically infected cells.
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PMID:Use of early baculovirus promoters for continuous expression and efficient processing of foreign gene products in stably transformed lepidopteran cells. 136 73

Capillary zone electrophoresis (CZE) has been investigated as an alternative method to analyze the carbohydrate moieties of glycoproteins. Carbohydrate-mediated microheterogeneity of the recombinant plasminogen activator (rt-PA) was examined. The glycoprotein was resolved in multiple electrophoretic species using CZE but the separation was complicated by adsorption of the molecules to the wall of the capillary. The influence of several parameters, such as pH, molarity of the buffer and addition of a cationic additive, on the separation of glycopeptides was investigated. High resolution and reproducible separations of rt-PA glycopeptides carrying hybrid and complex type chains were obtained using either a 100 mM phosphate buffer, pH 6.6, or a 100 mM Tricine buffer, pH 8.2, containing 1.25 mM of putrescine. N-Oligosaccharides from fetuin, t-PA and alpha 1-acid glycoprotein were separated within 20 min on the basis of both their sialic acid content and their structure. The use of an oligosaccharide fingerprinting technique, such as the present one, could have many applications in biotechnology to assess, for example, the consistency of production of a glycoprotein or for analytical glycoprotein chemistry.
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PMID:Analysis of carbohydrate-mediated heterogeneity and characterization of N-linked oligosaccharides of glycoproteins by high performance capillary electrophoresis. 150 97

We have isolated two temperature-sensitive Saccharomyces cerevisiae mutants which exhibit a deficiency in mannose outer chain elongation of asparagine-linked oligosaccharide. The size of yeast glycoprotein, secretory form of invertase, of one mutant (och1) was slightly larger than that of the sec18 mutant at the non-permissive temperature, while that of the other mutant (och2) was almost the same as that of the sec18 mutant. Unlike sec mutants, the och mutants were not deficient in secretion of invertase. The och1 mutant showed a 2+:2- cosegregation with regard to the temperature sensitivity and mannose outer chain deficiency, suggesting that a single gene designated as OCH1 is responsible for these two phenotypes. The och1 mutant stopped its growth at the early stage of bud formation and rapidly lost its viability at the non-permissive temperature. The och1 mutation was mapped near the ole1 on the left arm of chromosome VII. The och1 mutant cells accumulated the external invertase containing a large amount of core-like oligosaccharides (Man9-10GlcNAc2) and a small amount of high mannose oligosaccharides (greater than Man50GlcNAc2) at the non-permissive temperature. Production of the active form of human tissue-type plasminogen activator was increased in the och1 mutant compared with the parental strain, suggesting the potential advantage of this mutant for the production of mammalian-type glycoproteins which lack mannose outer chains in yeast.
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PMID:Isolation of new temperature-sensitive mutants of Saccharomyces cerevisiae deficient in mannose outer chain elongation. 152 86

Thrombospondin is a multifunctional glycoprotein of platelet alpha-granules and a variety of growing cells. We demonstrate that thrombospondin is a slow tight-binding inhibitor of plasmin as determined by loss of amidolytic activity, loss of ability to cleave fibrinogen, and decreased lysis zones in fibrin plate assays. Stoichiometric titrations indicate that approximately 1 mol of plasmin interacts with 1 mol of thrombospondin, an unexpected result considering the trimeric nature of thrombospondin. Plasmin in a complex with streptokinase or bound to epsilon-aminocaproic acid is protected from inhibition by thrombospondin, thereby implicating the lysine-binding kringle domains of plasmin in the inhibition process. Thrombospondin also inhibits urokinase plasminogen activator, but more slowly than plasmin, stimulates the amidolytic activity of tissue plasminogen activator, and has no effect on the amidolytic activity of alpha-thrombin or factor Xa. These results, therefore, identify thrombospondin as a new type of serine proteinase inhibitor and potentially important regulator of fibrinolysis.
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PMID:Thrombospondin is a slow tight-binding inhibitor of plasmin. 153 Oct 22

Lipoprotein(a) (Lp[a]), a highly atherogenic lipoprotein particle, is the prominent apolipoprotein B-containing lipoprotein in the hedgehog (Laplaud PM et al, J Lipid Res 1988;29:1157-1170). In the present work, we studied the consequences of the structural homology between the specific Lp(a) glycoprotein, apoprotein(a), and plasminogen on the generation of plasmin by fibrin-bound tissue-type plasminogen activator. The activation of plasminogen was initiated by adding either native plasma or Lp(a)-free plasma supplemented with the equivalent of 0.25 mg/ml of either purified Lp(a) or albumin to a surface of fibrin prepared on micortitration plates and to which human tissue-type plasminogen activator was specifically bound. With the Lp(a)-free plasma, an increase in the binding and activation of plasminogen as a function of time was observed. In contrast, in the presence of Lp(a) (i.e., native plasma or the reconstituted system), a significant decrease in the binding of plasmin(ogen) (approximately 60%) was obtained. These data indicate that hedgehog Lp(a) interferes with the binding and activation of plasminogen at the fibrin surface and may thereby behave as a factor regulating the extent of fibrin deposition. These results support our previous data indicating that high levels of Lp(a) may have antifibrinolytic effects in humans (Rouy D et al, Arterioscler Thromb 1991;11:629-638), are in agreement with the observation that Lp(a) is a risk factor for atherosclerotic disease, and provide further support to the view of Lp(a) as a link between atherosclerosis and thrombosis.
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PMID:Hedgehog lipoprotein(a) is a modulator of activation of plasminogen at the fibrin surface. An in vitro study. 153 29

Endocytosis of tissue-type plasminogen activator (t-PA) by different types of rat liver cells was studied in immunocytochemically labelled cryosections as well as in biochemical experiments. For morphological localization of the ligand in different endocytic compartments involved in its catabolism, rat livers were fixed at various times (1-24 min) after injection of t-PA. Late-endosomal and lysosomal compartments were identified by double-labelling the sections with antibodies to the lysosomal proteins glycoprotein Igp 120 and cathepsin D. In liver t-PA was localized in sinusoidal endothelial cells (EC), parenchymal cells (PC) and to some extent in Kupffer cells (KC), indicating that it is internalized and degraded in all three cell types. In specimens fixed 6 min after injection PC, EC and KC were found to contribute to 69, 24 and 7% respectively of total t-PA endocytosed. The transfer from late endosomes to lysosomes was found to be faster in EC than in PC. The morphological findings were supported by studies of the endocytic mechanisms employing isolated perfused livers and primary hepatocytes. The presence of monensin, an inhibitor of lysosomal protein degradation, reduced the amount of t-PA degraded to about 50% of the control values. The catalytic site seems not to be required for the catabolism of t-PA in hepatic cells. The inhibition of t-PA by D-phenylalanyl-L-prolylarginyl-chloromethane did not influence receptor recognition and catabolic processing, as determined in morphological studies using labelled cryosections, in binding studies employing liver cell membranes and primary hepatocytes, as well as in liver-perfusion experiments.
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PMID:Endocytosis and intracellular processing of tissue-type plasminogen activator by rat liver cells in vivo. 155 69

Human tissue-type plasminogen activator (t-PA) is a glycoprotein used currently in thrombolytic therapy for patients with acute myocardial infarction. Due to its rapid rate of clearance from the circulation, continuous intravenous administration of approximately 100 mg over 3 h is recommended. We have previously characterized novel thrombolytic variant forms of t-PA which offer the potential of administration by bolus injection and reduced dosage due to their slower rates of clearance, relative to t-PA. This study was undertaken to quantitatively compare the pharmacokinetics, thrombolytic activity, and hemostatic effects of two of these variant forms, called delta FE1X and delta FE3X plasminogen activator (PA), with commercially available recombinant t-PA (Activase). These evaluations were performed in rabbits after bolus intravenous injection of the proteins. Following injection of 0.25 mg of protein/kg of body weight, the rates of clearance for delta FE3X and delta FE1X PA antigen were decreased approximately 9- and 18-fold, respectively, relative to Activase. Plasma plasminogen activator activity was also measured and the rates of clearance of delta FE3X and delta FE1X PA activity were similarly decreased by approximately 9- and 22-fold, respectively, relative to Activase. To quantitate thrombolytic activity we used the rabbit jugular vein thrombosis model and demonstrated that approximately 50% thrombolysis was achieved with delta FE1X and delta FE3X PA at approximately an 8.6- and 3-fold lower dose than Activase, respectively. No major differences in fibrinogen and alpha 2-antiplasmin depletion were observed among the agents at doses required to produce 50% thrombolysis, indicating similarities in fibrin specificities among these agents. These results demonstrate a reciprocal relationship between thrombolysis and rate of clearance for these thrombolytic proteins. The 8.6-fold increase in potency of delta FE1X PA relative to Activase supports the future clinical testing of this novel engineered protein as a thrombolytic agent.
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PMID:Protein engineering of novel plasminogen activators with increased thrombolytic potency in rabbits relative to activase. 170 73


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