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)

A 39-kDa protein copurifies with the low-density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP) and inhibits the binding and/or cellular uptake of ligands by this receptor. We recently utilized glutathione S-transferase (GST)-39-kDa fusion protein constructs to demonstrate that constructs encoding amino-terminal residues 1-114 and carboxy-terminal residues 115-319 of the 39-kDa protein independently bind to purified LRP and to LRP on hepatoma cells with similar affinities as the full-length GST-39-kDa protein (Kd approximately 8-10 nM). These regions, however, inhibit ligand binding to LRP differently: GST/1-114 inhibits both tissue-type plasminogen activator (t-PA) and alpha 2-macroglobulin-methylamine (alpha 2M*) binding whereas GST/115-319 only potently inhibits t-PA binding. Four domains, containing residues 18-24 and 100-107 within amino-terminal constructs and residues 200-225 and 311-319 within carboxy-terminal constructs, are required for inhibition of ligand binding. In the present study, we generated additional 39-kDa protein constructs to precisely define residues within each domain required for inhibition of t-PA and alpha 2M* binding to LRP. The potential importance of these residues in mediating direct binding both to purified LRP and to LRP on hepatoma cells was examined. Within amino-terminal residues 1-114, alanine 103 and leucine 104 are required for inhibition of t-PA and alpha 2M* binding. These residues, however, are not required for binding either to purified LRP or to LRP on hepatoma cells. Within domain 18-24, arginine 21 is required for inhibition of t-PA and alpha 2M* binding as well as for the direct binding of amino-terminal constructs to LRP. Within carboxy-terminal domains 200-225 and 311-319, leucine 222 and leucine 319 are both required for inhibition of t-PA binding. Deletion of leucine 319 changes the ligand specificity from inhibition of t-PA binding to inhibition of alpha 2M* binding. Thus, leucine 319 is not required for direct binding to LRP whereas leucine 222 is required for high-affinity binding to LRP.
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PMID:Sites within the 39-kDa protein important for regulating ligand binding to the low-density lipoprotein receptor-related protein. 753 37

The low-density lipoprotein receptor-related protein (LRP) is a multifunctional receptor that binds to apolipoprotein E-rich lipoproteins, lipoprotein lipase, alpha 2-macroglobulin, lactoferrin, and tissue plasminogen activator. We studied the mRNA expression of LRP in human monocyte-derived macrophages and THP-1 cells. mRNA expression of LRP was induced during cell differentiation from human monocytes to macrophages or after incubation with phorbol ester (tetradecanoylphorbol acetate 100 ng/mL) in THP-1 cells, and the addition of 30 ng/mL macrophage colony-stimulating factor further enhanced LRP expression. These results indicated that the expression of LRP depended on the stage of differentiation and maturation of monocytic cells. mRNA expression of LRP was also enhanced in human monocyte-derived macrophages in the presence of acetylated low-density lipoprotein and in aorta of rabbits fed a high-cholesterol diet. We hypothesize that the LRP induced in monocyte-derived macrophages is involved in the initial process of atherosclerosis by interacting with its multiple ligands.
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PMID:Induction of LDL receptor-related protein during the differentiation of monocyte-macrophages. Possible involvement in the atherosclerotic process. 819 72

Low-density lipoprotein receptor-related protein (LRP)/alpha 2-macroglobulin receptor is a member of the low-density lipoprotein receptor family. It is known to bind a wide variety of unrelated ligands including alpha 2-macroglobulin-proteinase complexes, tissue plasminogen activator, apolipoprotein E-enriched very low density lipoprotein, lipoprotein lipase, and Pseudomonas exotoxin A. Receptor-associated protein (RAP), a protein which copurifies with LRP, can inhibit the binding and internalization of all known ligands to LRP. Recent studies have shown that some ligands can bind to more than one receptor in this family. However, the ability of low-density lipoprotein (LDL) to bind to LRP in addition to the LDL receptor has not been demonstrated consistently. In this study we demonstrate that LDL binds with high affinity to macrophage cell surface receptors at 4 degrees C (Kd = 1.8 nM) and competes for the binding of a receptor-recognized form of alpha 2-macroglobulin (alpha 2M*) (Ki = 3 nM). alpha 2M* and RAP can inhibit the binding of LDL to macrophages completely (96 and 100% inhibition, respectively), after cell surface heparin has been removed by treatment with heparinase. Using a solid-phase assay, we show that LDL binds specifically, saturably, and with high affinity to purified LRP (Kd = 5 nM). LDL can also completely inhibit the binding of alpha 2M* to purified LRP. These results indicate that LDL binds directly to LRP. The ability of LDL to cross-compete with alpha 2M* for binding to LRP suggests that LDL binds to a similar or overlapping site as alpha 2M*. In addition, the ability of alpha 2M* to inhibit most of the receptor-mediated binding of LDL to macrophages suggests that LDL receptors on murine peritoneal macrophages are predominantly LRP.
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PMID:Low-density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor on murine peritoneal macrophages mediates the binding and catabolism of low-density lipoprotein. 857 70

The present study was undertaken in order to determine the recognition site for tissue-type plasminogen activator-plasminogen activator inhibitor type 1 [t-PA-PAI-1] complexes in rat liver in vivo and in vitro. After intravenous injection into rats t-PA-PAI-1 complexes were rapidly removed from the plasma and the liver took up 80% of the injected dose. Within the liver parenchymal and endothelial liver cells contributed mainly to the uptake of t-PA-PAI-1, and were responsible for 62% and 24% of the liver uptake, respectively. The interaction of t-PA-PAI-1 with isolated rat parenchymal liver cells was of high affinity (Kd 17 nM). A well-known antagonist of the alpha 2-macroglobulin receptor (alpha 2MR/low-density lipoprotein receptor-related protein (LRP), GST-39kDa protein (GST-39kDaP) efficiently inhibited the binding (IC50 0.7 nM) of t-PA-PAI-1 to rat parenchymal liver cells. The interaction of t-PA-PAI-1 with LRP on rat parenchymal liver cells was not Ca2(+)-dependent and is most probably mediated by a specific determinant on PAI-1, since an anti-PAI-1 monoclonal antibody inhibited the binding of t-PA-PAI-1, where as free t-PA did not. The binding of t-PA-PAI-1 to rat hepatocytes could not be inhibited by a complex of plasmin and alpha 2-antiplasmin nor by various other ligands of LRP like beta-VLDL and lactoferrin. Binding of t-PA-PAI-1 to rat parenchymal liver cells was followed by internalization and subsequent degradation in the lysosomal compartment. It is concluded that parenchymal and endothelial liver cells mediate the removal of t-PA-PAI-1 complexes from the circulation. LRP on rat parenchymal liver cells is responsible for the uptake and degradation of t-PA-PAI-1 and may therefore be important for the regulation of the t-PA levels in the circulation.
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PMID:Characterization of the interaction of a complex of tissue-type plasminogen activator and plasminogen activator inhibitor type 1 with rat liver cells. 860 13

The catabolism of the novel plasminogen activator reteplase (BM 06.022) was described. For this purpose BM 06.022 was radiolabelled with 125I or with the accumulating label 125I-tyramine cellobiose (125I-TC). BM 06.022 was injected at a pharmacological dose of 380 micrograms/kg b.w. and it was cleared from the plasma in a biphasic manner with a half-life of about 1 min in the alpha-phase and t1/2 of 20-28 min in the beta-phase. 28% and 72% of the injected dose was cleared in the alpha-phase and beta-phase, respectively. Initially liver, kidneys, skin, bones, lungs, spleen, and muscles contributed mainly to the plasma clearance. Only liver and the kidneys, however, were responsible for the uptake and subsequent degradation of BM 06.022 and contributed for 75% to the catabolism of BM 06.022. BM 06.022 was degraded in the lysosomal compartment of both organs. Parenchymal liver cells were responsible for 70% of the liver uptake of BM 06.022. BM 06.022 associated rapidly to isolated rat parenchymal liver cells and was subsequently degraded in the lysosomal compartment of these cells. BM 06.022 bound with low-affinity to the parenchymal liver cells (550 nM) and the binding of BM 06.022 could be displaced by t-PA (IC50 5.6 nM), indicating that the low-density lipoprotein receptor-related protein (LRP) could be involved in the binding of BM 06.22. GST-RAP, which is an inhibitor of LRP, could in vivo significantly inhibit the uptake of BM 06.022 in the liver. It is concluded that BM 06.22 is metabolized primarily in the liver and the kidneys. These organs take up and degrade BM 06.022 in the lysosomes. The uptake mechanism of BM 06.022 in the kidneys is unknown, while LRP is responsible for a low affinity binding and uptake of BM 06.022 in parenchymal liver cells.
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PMID:Uptake, internalization and degradation of the novel plasminogen activator reteplase (BM 06.022) in the rat. 877 28

The complex of the type-1 plasminogen activator inhibitor (PAI-1) and its target proteinases, the urokinase and tissue-type plasminogen activators (uPA and tPA), but not the free components, bind with high affinity to the endocytosis receptors alpha2-macroglobulin receptor/low-density lipoprotein receptor-related protein (alpha2MR/LRP) and very-low-density lipoprotein receptor (VLDLR). To characterize the molecular interaction between the complexes and the receptors, alanine codons were introduced into the human PAI-1 cDNA to replace the four basic residues, Arg-78, Lys-82, Arg-120 and Lys-124, as double mutations. The purified recombinant mutant proteins, rPAI-1/R78A-K124A and rPAI-1/K82A-R120A, produced by the yeast Pichia pastoris, were indistinghuisable from wild-type recombinant and natural human PAI-1 with respect to inhibitory activity against uPA, stability of SDS-resistant complexes with uPA, and vitronectin binding. Radiolabelled mutant uPA.PAI-1 complexes bound with a 10- to 20-fold, and 3- to 7-fold reduced affinity to purified alpha2MR/LRP and VLDLR respectively. alpha2MR/LRP-mediated endocytosis of the mutant complexes by COS-1 cells was reduced to 48 and 38% of the level of endocytosis of wild-type PAI-1. Binding of the mutant complexes to the uPA receptor was not affected. These findings suggest that the binding mode of the uPA.PAI-1 complex to both alpha2MR/LRP and VLDLR is similar. The four residues are surface exposed in the region defined by alpha-helix D and beta-strand 1A in the serine protease inhibitor (serpin) structure. Our study represents the first identification of residues in a surface region implicated in molecular recognition of protease.serpin complexes by endocytosis receptors of the low-density lipoprotein receptor family.
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PMID:Binding of urokinase-type plasminogen activator-plasminogen activator inhibitor-1 complex to the endocytosis receptors alpha2-macroglobulin receptor/low-density lipoprotein receptor-related protein and very-low-density lipoprotein receptor involves basic residues in the inhibitor. 940 75

Several clinical studies have demonstrated an inverse relationship between circulating levels of estrogen and tissue-type plasminogen activator (t-PA). The present study was designed to test the hypothesis that estrogens lower plasma levels of t-PA by increasing its clearance from the bloodstream. 17alpha-Ethinyl estradiol (EE) treatment resulted in a significant increase in the clearance rate of recombinant human t-PA in mice (0.46 mL/min in treated mice v 0. 32 mL/min in controls; P <.01). The clearance of endogenous, bradykinin-released t-PA in rats was also significantly increased after EE treatment (area under the curve [AUC], 24.9 ng/mL. min in treated animals v 31.9 ng/mL. min in controls; P <.05). Two distinct t-PA clearance systems exist in vivo: the low-density lipoprotein receptor-related protein (LRP) on liver parenchymal cells and the mannose receptor on mainly liver endothelial cells. Inhibition of LRP by intravenous injection of receptor-associated protein (RAP) as a recombinant fusion protein with Salmonella japonicum glutathione S-transferase (GST) significantly retarded t-PA clearance in control mice (from 0.41 to 0.25 mL/min; n = 5, P <.001) and EE-treated mice (from 0.66 to 0.35 mL/min; n = 5, P <.005), but did not eliminate the difference in clearance capacity between the 2 experimental groups. Similar results were obtained in mice in which LRP was inhibited via overexpression of the RAP gene in liver by adenoviral gene transduction. In contrast, administration of mannan, a mannose receptor antagonist, resulted in identical clearances (0.22 mL/min in controls and 0.24 mL/min in EE-treated mice). Northern blot analysis showed a 6-fold increase in mannose receptor mRNA expression in the nonparenchymal liver cells of EE-treated mice, whereas the parenchymal LRP mRNA levels remained unchanged. These findings were confirmed at the protein level by ligand blotting and Western blotting analysis. Our results demonstrate that EE treatment results in increased plasma clearance rate of t-PA via induction of the mannose receptor and could explain for the inverse relationship between estrogen status and plasma t-PA concentrations as observed in humans.
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PMID:Increased clearance explains lower plasma levels of tissue-type plasminogen activator by estradiol: evidence for potently enhanced mannose receptor expression in mice. 1043 21

Systemic gene therapy involves the transfer into the body of a gene whose protein product reaches the blood and has a beneficial effect on a patient. Both retroviral and adenovirus-associated viral vectors have resulted in stable but only moderate systemic levels of blood proteins. Adenoviral vectors have resulted in very high levels of expression that diminishes over days or weeks. Hepatic gene therapy has achieved levels of the anticoagulant protein C in blood that would protect against spontaneous thromboses in homozygous protein-C deficiency, and levels of tissue plasminogen activator that can lyse pulmonary emboli. Hypercholesterolemia has been ameliorated transiently by transfer of the low-density lipoprotein receptor gene into the livers of animals with familial hypercholesterolemia or by promoting lipid transfer via a variety of alternative mechanisms. Hypertension has been reduced by the transfer of genes for kallikrein or atrial natriuretic peptide into the liver, or by expressing antisense for the angiotensin II type I receptor after intravenous injection in neonates. Finally, fasting but not fed hyperglycemia has been ameliorated in animal models of diabetes by transfer of an insulin gene into the liver or by expression of insulin from implanted fibroblasts. Gene therapy has the potential to treat these cardiovascular diseases. However, improvements in levels of long-term expression and the ability to regulate expression in response to physiologic changes will be required before this approach will be implemented for most of these disorders in humans.
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PMID:Systemic gene therapy for cardiovascular disease. 1063 21

Interleukin-1 (IL-1) regulation of tPA in hepatocytes was studied in mouse hepatocyte line AML12. IL-1 induced transient accumulation of tPA mRNA as high as threefold by 2 h after the start of treatment. The cytokine also induced the mRNA for serum amyloid A, a typical acute-phase protein in mice, with more sustained kinetics in a time-dependent manner. In contrast to the induction of mRNA, tPA activity and protein levels in the harvested medium were dramatically diminished by IL-1. IL-1 stimulated the uptake of (125)I-tPA by AML 12. This uptake was inhibited by 39-kDa receptor-associated protein (RAP), but not by the sugar mannan. These results revealed that low-density lipoprotein receptor-related protein (LRP), which is known to be a receptor for tPA and to be blocked by RAP, was up-regulated by IL-1. We also demonstrated, for the first time, that IL-1 transiently increased the mRNA level of LRP threefold by 30 min after the start of IL-1 treatment of AML 12. The receptor-mediated endocytosis of tPA by hepatocytes may thus play a crucial role in the down-regulation of fibrinolysis during the acute-phase response.
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PMID:IL-1beta down-regulates tissue-type plasminogen activator by up-regulating low-density lipoprotein receptor-related protein in AML 12 cells. 1159 49

Maspin is a novel serine protease inhibitor with tumor suppressive activity, inhibiting tumor invasion and metastasis. To date, the underlying molecular mechanism of maspin remains elusive. Recombinant maspin has been shown to specifically inhibit cell surface-associated urokinase-type plasminogen activator (uPA) and fibrinogen-bound tissue-type plasminogen activator. However, the role of endogenous maspin in plasminogen activation is totally unknown. To address this issue, we generated stable maspin-expressing transfectants using prostate carcinoma cells DU145 as the parental cell line. We report here that endogenous maspin exerts pleiotropic inhibitory effects on the pericellular uPA system. Maspin expression led to a significantly reduced level of cell surface-bound uPA and uPA receptor proteins without altering the steady-state levels of the respective mRNAs. Treatment with receptor-associated protein (RAP), a specific inhibitor of low-density lipoprotein receptor-related protein, lead to a significantly increased level of secreted uPA and cell surface uPAR in maspin transfectants but not in the mock control cells. A combination of enzymatic and molecular analyses revealed that maspin inhibits the cell surface-mediated plasminogen activation by forming an SDS-resistant complex with cell surface-bound uPA. In addition, maspin expression led to a dramatic reduction in the release of active uPA, both high molecular weight and the low molecular weight, into the conditioned culture medium. Consistently, the conditioned medium of maspin transfectant clones had a significantly reduced activity in converting plasminogen to plasmin. The inhibitory effect of maspin on pericellular uPA correlates with significantly decreased cell invasion potential and motility in vitro. The maspin-neutralizing antibody (Abs4A) reversed the subdued invasive potential of maspin transfectant cells in a dose-dependent manner. In summary, this study provides the first evidence that endogenous maspin is a potent inhibitor of pericellular uPA. Furthermore, our results support a current hypothesis that maspin blocks tumor invasion and motility by inhibiting localized pericellular proteolysis.
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PMID:Pleiotrophic inhibition of pericellular urokinase-type plasminogen activator system by endogenous tumor suppressive maspin. 1175 84


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