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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of hybrid plasminogen activator genes were constructed from the t-PA and u-PA cDNAs and expressed using a bovine papilloma virus vector and mouse C-127 cells. Hybrid A was constructed by replacing the finger (F) and EGF domains of t-PA with the EGF and Ku domains of u-PA, while hybrids B and C had an extra Ku inserted before or after the double kringle (K1-K2) region of t-PA respectively. While all the hybrids showed comparable enzymatic activities towards a small substrate (S-2288), they had different activities in binding to fibrin clots as well in the fibrin-dependent plasminogen activation, the order of activities being: t-PA greater than or equal to hybrid B greater than hybrid C greater than hybrid A. Carbohydrate analysis showed that while hybrid C, like rt-PA, had at least one high-mannose type sugar chain (probably at residue 117 in K1), the other hybrids had only complex-type carbohydrates suggesting that domain interaction in t-PA might influence glycan processing. Pharmacokinetic studies in dog showed that hybrid B had a significantly longer plasma half-life than rt-PA. Thrombolytic efficacies of hybrid B and rt-PA were compared in dog model using an artificially induced coronary thrombus. Complete thrombolysis was achieved with 18 mg and 50 mg dosages for hybrid B and rt-PA respectively. These data show the superior pharmacokinetic and thrombolytic properties of hybrid B compared to rt-PA.
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PMID:Biological properties of hybrid plasminogen activators. 212 69

Plasminogen activator (PA) is a key enzyme in control of the cascade of extracellular proteolytic activities, proteases that degrade the extracellular components. Mammalian cells produce two molecular forms of PA, the urokinase type (u-PA) and the tissue type (t-PA); the u-PA type enzyme regulates cell migration/invasion and related tissue plasticity events. Thus, these plasticity properties of cells are defined by their PAs' biochemical profiles. The capacity of the differentiating glial cells of the central nervous system (CNS) to express and regulate the two types of PA activities has been examined as a function of cell age in culture. Results of the study suggest that only the immature astrocyte is endowed with these plasticity properties. Differentiating heterogeneous rat glial cells in culture express PA activity. Astroglia were identified as the primary source for the glial PA activity, as no PA activity was detected in the purified oligodendroglia. Cellular PA activity levels of differentiating rat and mouse astroglia are developmentally regulated. The specific activity of PA reached its highest level in rat astroglia at a cell age corresponding to 20-32 postnatal days (P20-P32) and in mouse astroglia at P8-P14; thereafter, this declined (three- to fourfold decrease) within 2 weeks to a low value. At comparable ages (P0-P35), the magnitudes of the PA specific activities of the differentiating rat astroglia and of the developing cerebrum, the tissue from which these cells were purified, were similar. Differentiating rat astroglia produce u-PA and t-PA, the cellular content of both is developmentally regulated, and the u-PA form is only found in the immature cells. u-PA is the predominant form in the immature astrocyte until age P13. Both forms are found in cells at ages P14-P30, and at later stages u-PA disappears while the t-PA type persists as the sole form. After 3 more weeks neither of the PA types was detected. Astroglia express also PA inhibitory activity; the rat astroglial PA inhibitor (PAI) seemed to be identical to PAI-1, one of the known types of PAIs. Stimulation of astroglial proliferation by their subculturing in contrast to Schwann cells did not lead to an increase; rather, beyond a certain cell age (P13) it resulted in a threefold irreversible decline in the PA specific activity of the daughter cells. It has been established that various biochemical properties of CNS mature glia appear on schedule with cell age in culture, thus defining "mature"glia in vitro.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Developmental transition in plasticity properties of differentiating astrocytes: age-related biochemical profile of plasminogen activators in astroglial cultures. 214 27

The major components of the fibrinolytic system are responsive to hormones, growth factors and cytokines in a wide variety of primary and neoplastic cell lines. These effectors commonly cause increased biosynthesis of PAI-1 with overall suppression of fibrinolysis. Recent studies have indicated that certain agonists, in particular the inflammatory cytokines, may suppress fibrinolysis in animal models. These findings provide a correlate to the clinical observations which relate an increase in PAI-1 levels with thrombotic risk. On the other hand, induction of t-PA and u-PA biosynthesis by growth factors has been related to tissue remodelling and cell migration associated with angiogenesis and tumour metastasis.
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PMID:Hormonal regulation of haemostasis and the molecular biology of the fibrinolytic system. 215 92

The interaction of urokinase-type plasminogen activators with receptors on the surface of endothelial cells may play an important role in the regulation of fibrinolysis and cell migration. Therefore, we investigated whether human umbilical vein endothelial cells (HUVEC) express receptors for single-chain urokinase (scu-PA) on the cell surface and examined the effect of such binding on plasminogen activator activity. Binding of 125I-labeled scu-PA to HUVEC, performed at 4 degrees C, was saturable, reversible, and specific (k+1 4 +/- 1 X 10(6) min-1 M-1, k-1 6.2 +/- 1.4 X 10(-3) min-1, Kd 2.8 +/- 0.1 nM; Bmax 2.2 +/- 0.1 X 10(5) sites/cell; mean +/- S.E.). Binding of radiolabeled scu-PA was inhibited by both natural and recombinant wild-type scu-PA, high molecular weight two-chain u-PA (tcu-PA), catalytic site-inactivated tcu-PA, an amino-terminal fragment of u-PA (amino acids 1-143), and a smaller peptide (amino acids 4-42) corresponding primarily to the epidermal growth factor-like domain. Binding was not inhibited by low molecular weight urokinase or by a recombinant scu-PA missing amino acids 9-45. Cell-bound scu-PA migrated at its native molecular mass on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In the presence of plasminogen, scu-PA bound to endothelial cells generated greater plasmin activity than did scu-PA in the absence of cells. In contrast, when tcu-PA was added directly to HUVEC, sodium dodecyl sulfate-stable complexes formed with cell or matrix-associated plasminogen activator inhibitors with a loss of plasminogen activator activity. These studies suggest that endothelial cells in culture express high affinity binding sites for the epidermal growth factor domain of scu-PA. Interaction of scu-PA with these receptors may permit plasminogen activator activity to be expressed at discrete sites on the endothelial cell membrane.
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PMID:Interaction of single-chain urokinase-type plasminogen activator with human endothelial cells. 215 62

Cultured human endothelial cells synthesize and secrete two types of plasminogen activator, tissue plasminogen activator (t-PA) and urokinase (u-PA). Previous work from this laboratory (Hajjar, K.A., Hamel, N. M., Harpel, P. C., and Nachman, R. L. (1987) J. Clin. Invest. 80, 1712-1719) has demonstrated dose-dependent, saturable, and high affinity binding of t-PA to two sites associated with cultural endothelial cell monolayers. We now report that an isolated plasma membrane-enriched endothelial cell fraction specifically binds 125I-t-PA at a single saturable site (Kd 9.1 nM; Bmax 3.1 pmol/mg membrane protein). Ligand blotting experiments demonstrated that both single and double-chain t-PA specifically bound to a Mr 40,000 membrane protein present in detergent extracts of isolated membranes, while high molecular weight, low molecular weight, and single-chain u-PA associated with a Mr 48,000 protein. Both binding interactions were reversible and cell-specific and were inhibitable by pretreatment of intact cells with nanomolar concentrations of trypsin. The relevant binding proteins were not found in subendothelial cell matrix, failed to react with antibodies to plasminogen activator inhibitor type 1 and interacted with their respective ligands in an active site-independent manner. The isolated t-PA binding site was resistant to reduction and preserved the capacity for plasmin generation. In contrast, the isolated u-PA binding protein was sensitive to reduction, and did not maintain the catalytic activity of the ligand on the blot. The results suggest that in addition to sharing a matrix-associated binding site (plasminogen activator inhibitor type 1), both t-PA and u-PA have unique membrane binding sites which may regulate their function. The results also provide further support for the hypothesis that plasminogen and t-PA can assemble on the endothelial cell surface in a manner which enhances cell surface generation of plasmin.
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PMID:Identification and characterization of human endothelial cell membrane binding sites for tissue plasminogen activator and urokinase. 215 65

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

Tissue-type plasminogen activator (t-PA) and urokinase (u-PA) are proteins with partial structural similarity and which are of importance in the therapy of thrombotic diseases. Both are known to be cleared from the circulation in vivo by uptake in the liver. The present study investigated whether the hepatic catabolism of u-PA and t-PA is mediated by a common receptor system. Four experimental protocols of increasing complexity were used: hepatocyte plasma membranes, isolated primary hepatocytes, liver perfusion and whole animals. For t-PA, a specific high-affinity binding site to hepatocytes and plasma membranes could be defined with a mean Kd of 4 +/- 3 nM, whereas the Kd for u-PA was less than 300 nM. Binding of t-PA could not be competed for by u-PA, and vice versa. Furthermore, clearance of t-PA in isolated perfused rat livers and in rabbits in vivo was 3-fold higher than that of u-PA, and a 50-100-fold molar excess of u-PA failed to inhibit clearance of t-PA in either system, and vice versa. Taken together, the results imply that hepatic elimination of t-PA and u-PA is mediated by distinct receptor systems of differing affinity.
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PMID:Different receptors mediate the hepatic catabolism of tissue-type plasminogen activator and urokinase. 216 Feb 32

A number of clonal cell lines have been isolated from NIH 3T3 cells transfected with the plasmid, pSV2 gpt-EJ-ras. The plasmid expresses Val12 instead of Gly12 in p21 ras protein and can be selected for the expression of E. coli XGPRT gene in mammalian cells. Southern analyses of the Eco R1 and Bam H1 digests of chromosomal DNA shows that multiple copies of the plasmid are integrated in a tandem sequence in the clones used in this study. The transfectants showed refractile appearance and criss-crossed pattern of growth, exhibited elevated expression of ras mRNA and formed tumors in nude mice commensurate with the copy number of the integrated EJ-ras gene. The increased propensity to form tumors did not correlate with the expression of urinary or tissue plasminogen activators (u-PA or t-PA). The cellular and secreted activity of u-PA in fact decreased as the ras gene expression increased. These data show that the enhanced tumorigenicity of transformed murine cells is related to the tandem integration and expression of human EJ-ras. The overexpression of ras has very little effect on t-PA but appears to suppress u-PA activity.
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PMID:Tumorigenicity of EJ-ras oncogene transformed NIH 3T3 cells and expression of plasminogen activators. 216 52

Complexes between tissue-type plasminogen activator (t-PA) and its rapidly acting inhibitor plasminogen activator inhibitor type 1 (PAI-1) are bound, internalized, and degraded by HepG2 cells. The mechanism involves endocytosis mediated by a specific high-affinity receptor. However, the particular domains of the complex that are recognized by the receptor have not been elucidated. To identify the determinants involved in ligand binding to the receptor, several variants of t-PA were assessed for their ability to form complexes with PAI-1 and thereby to inhibit specific cellular binding of complexes between structurally unmodified 125I-t-PA and PAI-1. Catalytically active variants lacking selected structural domains form complexes with PAI-1 and inhibit 125I-t-PA.PAI-1 binding to HepG2 cells. In addition, several forms of the plasminogen activator urokinase (u-PA), which shares partial structural homology with t-PA, were evaluated as competitors of cellular binding. The catalytically active two-chain forms of u-PA, but not the inactive proenzyme single-chain form, complex with PAI-1 and inhibit specific binding of 125I-t-PA.PAI-1, suggesting that the serine protease domain, rather than other domains, may confer the determinants required for cellular binding. However, a mutant t-PA with markedly reduced catalytic activity, resulting from replacement of the active site serine with threonine, not only forms complexes with PAI-1 but also inhibits specific cellular binding of unmodified 125I-t-PA.PAI-1. These data indicate that specific binding of t-PA.PAI-1 to HepG2 cells does not require a serine-containing catalytic site in the protease domain. To determine whether binding of the complex is mediated through other components of t-PA or through structural elements of PAI-1, both t-PA and PAI-1 were examined separately for capacity to bind directly to HepG2 cells. To exclude potential interactions with components of the extracellular matrix which contains binding sites for PAI-1, ligand binding to HepG2 cells in suspension was assessed. Although neither t-PA nor PAI-1 alone binds specifically to HepG2 cells, the preformed t-PA.PAI-1 complexes do. These findings suggest that specific binding of t-PA.PAI-1 requires elements of the PAI-1 moiety and/or parts of the protease domain of t-PA.
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PMID:Identification of determinants involved in binding of tissue-type plasminogen activator-plasminogen activator inhibitor type 1 complexes to HepG2 cells. 216 6

In this review, an attempt has been made to present new data on the mechanisms that can be involved in DVT and to emphasize the role of the cell in these processes. It has been demonstrated that cells can mediate the relevant expression of tissue factor without cell disruption and that the fibrinolytic responses can also be modulated by the cells. It has also been demonstrated that the fibrinolytic system seems to be designed to work on the cell surface based upon (1) the existence of specific receptors, (2) the modulation of the expression of these receptors and (3) the comprehensive increase in plasmin generation by up-regulating, for example, the plasminogen receptors. It could also be worthwhile to attempt to explain some beneficial effects of drugs such as heparins by studying their action on these compartments. It is important to note that recently Rosenfeld et al. have described an increase in t-PA and u-PA binding to endothelium by pre-incubation of endothelial cells with unfractionated heparin. This work would be a first step in a very exciting and interesting new era in the prevention of venous thromboembolism.
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PMID:Biochemical aspects of the pathogenesis of venous thrombosis. 228 80

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