EC:3.4.21.68 - FACTA Search

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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)

Plasminogen activator inhibitor-1 (PAI-1) is the most important inhibitor of tissue-type plasminogen activator (t-PA) in plasma and plays a major role in the regulation of fibrinolysis. Plasma t-PA/PAI-1 complexes are cleared via a receptor-dependent mechanism in hepatocytes, while the fate of complexes formed in the extracellular matrix and in thrombi is less well understood. In this study, the degradation of t-PA/PAI-1 complexes by monocytes was examined. THP-1 monocytoid cells and freshly isolated human monocytes internalize and degrade [125I]t-PA/PAI-1 complexes at rates of 11.4 +/- 5.9 (mean +/- S.D.) and 44.6 +/- 6.3 ng/10(6) cells/h, respectively. Degradation is blocked by receptor-associated protein (RAP), indicating a member of the low density lipoprotein (LDL) receptor family is involved in the uptake/degradation of t-PA/PAI-1 complexes by monocytes. Degradation of t-PA/PAI-1 complexes is also inhibited by chloroquine and by pepstatin A, suggesting that a lysosomal aspartyl protease is likely involved. SDS-PAGE and Western blotting demonstrated that the purified lysosomal aspartyl protease, cathepsin D, is capable of digesting t-PA (t1/2 15 min), active PAI-1 (t1/2 2 h), and t-PA/PAI-1 complex (t1/2 30 min). Cathepsin D sequentially cleaves PAI-1 after hydrophobic amino acids, yielding lower molecular weight fragments. PAI-1 conformation influences the degradative efficiency of cathepsin D, with vitronectin-bound PAI-1 and latent PAI-1 exhibiting resistance to proteolysis and > 10-fold prolongation in t1/2. These data provide evidence that t-PA/PAI-1 complexes are internalized by human monocytes via a member of the low density lipoprotein (LDL) receptor family, and identifies cathepsin D-like aspartyl protease activity as largely responsible for the degradation of these complexes. Furthermore, vitronectin-bound PAI-1 and latent PAI-1 are relatively resistant to degradation by cathepsin D, which may be of importance in complex physiological environments.
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PMID:Cathepsin D-like aspartyl protease activity mediates the degradation of tissue-type plasminogen activator/plasminogen activator inhibitor-1 complexes in human monocytes. 766 1

Progesterone stimulates differentiation and inhibits the growth of endometrial tissue. Also, progesterone reduces plasminogen activator (PA) activity, which implies reduced turnover of extracellular matrix proteins in the secretory phase. To elucidate the mechanism responsible for reduced PA activity, primary cultures of human endometrial stromal cells were stimulated with estradiol and progesterone. Conditioned media were assayed for urokinase-type and tissue-type PA (u-PA and t-PA, respectively), PA inhibitor-1 (PAI-1), and PA activity. Binding of [125I]u-PA and [125I]u-PA:PAI-1 complex to the u-PA receptor and clearance of these ligands were studied. The PA activity of conditioned medium decreased after stimulation with progesterone, and this was secondary to a decrease in u-PA, but not t-PA, and an increase in PAI-1. Northern blot analysis showed induction of PAI-1 messenger ribonucleic acid, whereas the content of u-PA messenger ribonucleic acid was not influenced. Furthermore, the number of free u-PA receptor-binding sites was increased by estradiol and progesterone. The stromal cells degraded complexed u-PA more efficiently than free u-PA, and degradation of both ligands was inhibited by colchicine, chloroquine, and methylamine. Degradation was increased after hormone treatment, and this was apparently due to increased ligand binding, because neither ligand affinity nor the relative rate of degradation was increased. Increased expression of u-PA receptor-binding sites was not regulated on the transcriptional level, but may result from posttranslational mechanisms, such as decreased turnover of the receptor. Activation of plasminogen by receptor bound u-PA initiates a cascade of proteolytic events in the extracellular matrix that is important during tissue proliferation. Our data suggest that differentiated endometrial stroma in the secretory phase regulates extracellular proteolysis by increased elimination of u-PA through increased release of PAI-1 and increased u-PA receptor density.
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PMID:Progesterone stimulates degradation of urokinase plasminogen activator (u-PA) in endometrial stromal cells by increasing its inhibitor and surface expression of the u-PA receptor. 767 23

Plasminogen activator inhibitor-1 (PAI-1) is the primary inhibitor of the plasminogen activators (PAs), tissue-type plasminogen activator (tPA), and urokinase-type plasminogen activator (uPA). A library of PAI-1 mutants containing substitutions at the P1 and P1' positions was screened for functional activity against tPA and thrombin. Several PAI-1 variants that were inactive against uPA in a previous study (Sherman, P. M., Lawrence, D. A., Yang, A. Y., Vandenberg, E. T., Paielli, D., Olson, S. T., Shore, J. D., and Ginsburg, D. (1992) J. Biol. Chem. 267, 7588-7595) had significant inhibitory activity toward tPA. This set of tPA-specific PAI-1 mutants contained a wide range of amino acid substitutions at P1 including Asn, Gln, His, Ser, Thr, Leu, Met, and all the aromatic amino acids. This group of mutants also demonstrated a spectrum of substitutions at P1'. Kinetic analyses of selected variants identified P1Tyr and P1His as the most efficient tPA-specific inhibitors, with second-order rate constants (ki) of 4.0 x 10(5) M-1s-1 and 3.6 x 10(5) M-1s-1, respectively. Additional PA-specific PAI-1 variants containing substitutions at P3 through P1' were constructed. P3Tyr-P2Ser-P1Lys-P1'Trp and P3Tyr-P2Ser-P1Tyr-P1'Met had ki values of 1.7 x 10(6) M-1s-1 and 2.5 x 10(6) M-1s-1 against tPA, respectively, but both were inactive against uPA. In contrast, P2Arg-P1Lys-P1'Ala inhibited uPA 74-fold more rapidly than tPA. The mutant PAI-1 library was also screened for inhibitory activity toward thrombin in the presence and absence of the cofactor heparin. While wild-type PAI-1 and several P1Arg variants inhibited thrombin in the absence of heparin, a number of variants were thrombin inhibitors only in the presence of heparin. These results demonstrate the importance of the reactive center residues in determining PAI-1 target specificity and suggest that second sites of interaction between inhibitors and proteases can also contribute to target specificity. Finally, the PA-specific mutants described here should provide novel reagents for dissecting the physiological role of PAI-1 both in vitro and in vivo.
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PMID:Identification of tissue-type plasminogen activator-specific plasminogen activator inhibitor-1 mutants. Evidence that second sites of interaction contribute to target specificity. 772 51

Plasminogen activator inhibitor-1 (PAI-1), the primary inhibitor of tissue-type plasminogen activator (t-PA) and urokinase plasminogen activator, is an important regulator of the blood fibrinolytic system. Elevated plasma levels of PAI-1 are associated with thrombosis, and high levels of PAI-1 within platelet-rich clots contribute to their resistance to lysis by t-PA. Consequently, strategies aimed at inhibition of PAI-1 may prove clinically useful. This study was designed to test the hypothesis that a 14-amino acid peptide, corresponding to the PAI-1 reactive center loop (residues 333-346), can rapidly inhibit PAI-1 function. PAI-1 (0.7 microM) was incubated with peptide (55 microM) at 37 degrees C. At timed intervals, residual PAI-1 activity was determined by addition of reaction mixture samples to t-PA and chromogenic substrate. The T1/2 of PAI-1 activity in the presence of peptide was 4 +/- 3 min compared to a control T1/2 of 98 +/- 18 min. The peptide also inhibited complex formation between PAI-1 and t-PA as demonstrated by SDS-PAGE analysis. However, the capacity of the peptide to inhibit PAI-1 bound to vitronectin, a plasma protein that stabilizes PAI-1 activity, was markedly attenuated. Finally, the peptide significantly enhanced in vitro lysis of platelet-rich clots and platelet-poor clots containing recombinant PAI-1. These results indicate that a 14-amino acid peptide can rapidly inactivate PAI-1 and accelerate fibrinolysis in vitro. These studies also demonstrate that PAI-1 function can be directly attenuated in a physiologic setting and suggest a novel approach for augmenting fibrinolysis in vivo.
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PMID:Peptide-mediated inactivation of recombinant and platelet plasminogen activator inhibitor-1 in vitro. 773 6

The plasminogen activator (PA)-plasmin system is implicated in the degradation of the extracellular matrix in inflammation through activation of metalloproteases and prekallikrein. We examined the activation of the PA-plasmin system in human gingival fibroblast cells (Gin-1 cells) following treatment with lipopolysaccharide (LPS) from Campylobacter rectus, which is frequently detected at sites of periodontal disease. The C. rectus LPS stimulated the plasmin activity in the conditioned medium of Gin-1 cells in a time- and dose-dependent manner, and C. rectus LPS also stimulated the PA activity in the conditioned medium. The PA produced by Gin-1 cells was determined to be urokinase PA (uPA), as preincubation of Gin-1 conditioned medium with anti-uPA antiserum completely inhibited the PA activity while that with anti-tPA antiserum had no inhibitory effect. The concentration of PA inhibitor-1 (PAI-1) in the conditioned medium was decreased by the addition of C. rectus LPS. Therefore, the enhancement of plasmin activity in the conditioned medium was dependent on increased uPA activity via the decrease of the PAI-1 level of Gin-1 cells treated with C. rectus LPS. Furthermore, the conditioned medium of Gin-1 cells treated with C. rectus LPS showed significantly increased kallikrein activity, indicating the conversion of prekallikrein to kallikrein, which converts kininogen into kinin. These findings suggest that C. rectus LPS is a potent stimulator of inflammation of gingival tissue which acts through stimulation of the PA-plasmin system.
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PMID:Effect of Campylobacter rectus LPS on plasminogen activator-plasmin system in human gingival fibroblast cells. 777 54

Human omental microvascular endothelial (HOME) cells seeded on Matrigel begin to migrate within 1 h, forming honeycomb-like structures and capillary-like networks within 18 h. Cross-sections of the capillary networks show them to be tube-like structures. Northern blot analysis showed that tissue-type plasminogen activator (t-PA) mRNA synthesis increased from the initial state at 0 h after seeding on Matrigel, reaching a steady state after 4 h. This elevated cellular t-PA mRNA level decreased markedly at 24 h. In contrast, the cellular plasminogen activator inhibitor-1 (PAI-1) mRNA level demonstrated biphasic curves during the 24 h after seeding on Matrigel: the PAI-1 mRNA level was increased eightfold initially at 4 h over that at 0 h, then declined, and again secondarily increased to greater than tenfold at 18 h. Cellular levels of both 72 kD type IV collagenase and tissue inhibitor of metalloproteinase (TIMP-2) mRNA were increased only a slightly within 2-4 h. These elevated mRNA levels were maintained for 18 h, while the TIMP-1 mRNA level increased up to 18 h, reaching around three times the level at 0 h. However, on collagen-coated dishes, cellular levels of t-PA, PAI-1, 72 kD type IV collagenase, TIMP-1, and TIMP-2 mRNA were not greatly changed during incubation for 24 h. On Matrigel, the cellular t-PA mRNA level at 18 h after seeding was greatly increased when treated with specific anti-transforming growth factor-beta (TGF-beta) antibody. In contrast, both PAI-1 and TIMP-1 mRNA levels at 18 h were reduced in the presence of anti-TGF-beta antibody. Development of the capillary network on Matrigel was inhibited in the presence of anti-t-PA antibody. Epidermal growth factor (EGF) enhanced t-PA gene expression and TGF-beta inhibited its expression in HOME cells cultured on collagen-coated dishes. On the other hand, TGF-beta enhanced cellular expression of the PAI-1 gene. The formation of a capillary network by HOME cells on Matrigel appears to be balanced by angiogenic EGF and anti-angiogenic TGF-beta through modulation of PA activity.
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PMID:Expression of tissue-type plasminogen activator and its inhibitor couples with development of capillary network by human microvascular endothelial cells on Matrigel. 782 31

Plasminogen activator inhibitor-1 (PAI-1), the main physiological inhibitor of tissue-type plasminogen activator (t-PA), may occur in three interconvertible conformations: active, latent, and substrate. To delineate specific domains in the PAI-1 molecule responsible for its conformational flexibility and associated functional diversity, four mutants of PAI-1 (with the amino acids at positions P12, P10, P8, and P6, respectively, substituted with proline) were expressed in Escherichia coli, purified, and characterized. Wild-type PAI-1 (wtPAI-1) had a specific activity of 21 +/- 10% (mean +/- S.D., n = 3) of the theoretical maximum value. PAI-1-P12 (Ala-->Pro at P12), PAI-1-P10 (Ser-->Pro at P10), and PAI-1-P8 (Thr-->Pro at P8) had specific activities of 0.06 +/- 0.03% (n = 3), 2.6 +/- 1.0% (n = 4), and 2.7 +/- 1.1% (n = 3), respectively (p < 0.03 versus wtPAI-1). PAI-1-P6 (Val-->Pro at P6) has a specific activity of 12 +/- 3.3% (n = 3) of the theoretical maximum value (p = not significant versus wtPAI-1). SDS-polyacrylamide gel electrophoresis of mixtures of wtPAI-1 or PAI-1-P6 with a 2-fold molar excess of t-PA yielded a mixture of a covalent 110-kDa t-PA.PAI-1 complex (15-25%), nonreactive 45-kDa material (44-67%), and a 41-kDa band (18-31%) representing cleaved PAI-1. PAI-1-P12, PAI-1-P10, and PAI-1-P8 behaved as substrates, yielding predominantly the 41-kDa cleavage product (85-91%) and a small amount (9-15%) of non-reactive material. NH2-terminal amino acid sequencing revealed that cleavage occurred at the P1-P1' bond (Arg346-Met347). Incubation of PAI-1-P12, PAI-1-P10, or PAI-1-P8 with a 2-fold molar excess of urokinase-type plasminogen activator, plasmin, or thrombin also primarily generated a 41-kDa cleavage product (62-89%). Incubation of wtPAI-1 and PAI-1-P6 at 37 degrees C resulted in a loss of inhibitory activity, whereas the substrate behavior of PAI-1-P12, PAI-1-P10, and PAI-1-P8 remained unaltered. Treatment of the three substrate-like mutants with guanidinium Cl did not induce inhibitory activity. In conclusion, point mutations at positions P12, P10, and P8 yield PAI-1 variants with stable substrate properties, which may facilitate more detailed structure/function studies.
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PMID:Conversion of plasminogen activator inhibitor-1 from inhibitor to substrate by point mutations in the reactive-site loop. 803 24

We studied extrinsic and intrinsic fibrinolysis in 20 patients with cirrhosis (nine mild/moderate, group 1; 11 severe, group 2) and 19 normal controls to define the role of intrinsic (contact factor medaited) fibrinolysis in cirrhosis. Global plasma fibrinolytic activity (fibrin plate lysis) was similar in all groups. Dextran sulphate activated contact factor mediated fibrinolysis was decreased in group 2 (median 95.2%) compared with group 1 (121.0%) and controls (131.7%). Tissue plasminogen activator antigen (t-PA Ag) levels were increased in group 2 (28.2 ng/ml) compared both with group 1 (8.5 ng/ml) and controls (5.9 ng/ml). Plasma t-PA activity was raised in group 2 (5.50 IU/ml) and group 1 (5.25 IU/ml) versus controls (0.82 IU/ml). Plasminogen activator inhibitor-1 (PAI-1 Ag) levels were raised in group 2 (28.0 IU/ml) versus controls (8.5 IU/ml) but PAI activity was similar in all groups. Factor XII activity was decreased in group 2 (48.76 u/dl), but not group 1, versus controls (89.1 u/dl). Prekallikrein activity was decreased both in group 2 (27.27 u/dl) and group 1 (33.01 u/dl) versus controls (108.59 u/dl) and was lower in group 2 than group 1. C1-esterase inhibitor chromogenic activity was decreased in group 1 (102.30 u/dl) and group 2 (58.76 u/dl) versus controls (116.24 u/dl). The normal global fibrinolytic activity despite increased t-PA activity may be due to a concomitant increase in PAI. The decreased intrinsic fibrinolysis in severe cirrhosis, unaccompanied by a rise in C1-esterase inhibitor, may be explained by the decreased factor XII and prekallikrein activity. These changes are probably due to reduced liver cell mass.
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PMID:Decreased contact factor mediated fibrinolysis in cirrhosis. 813 76

Plasminogen activator inhibitor-1 (PAI-1), which is secreted from vascular endothelial cells, plays an important role in regulating fibrinolysis. We measured the plasma concentrations of tissue-type plasminogen activator (t-PA), PAI-1 and t-PA PAI complex before and serially after thrombolytic therapy for acute myocardial infarction to clarify the relationship between thrombolytic therapy and PAI-1. Plasma concentrations of t-PA, PAI-1 and t-PA PAI complex before thrombolytic therapy were 11.6 +/- 5.5, 27.0 +/- 13.0 and 7.3 +/- 5.4 ng/ml, respectively. t-PA and t-PA PAI complex increased to 25.0 +/- 5.3 and 14.3 +/- 6.5 ng/ml immediately after drug administration; however, the level of PAI-1 decreased slightly immediately after thrombolytic therapy. The PAI-1 level increased again several hours after therapy, especially in patients showing apparently successful reperfusion. All values returned to normal 4-7 days after thrombolytic therapy. Not only augmented antifibrinolytic activity suggested by increased PAI-1 but also augmented fibrinolytic activity suggested by increased t-PA was observed in patients with acute myocardial infarction. These abnormal findings persisted several days after coronary thrombolytic therapy.
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PMID:Serial changes in plasma concentration of plasminogen activator inhibitor-1 before and serially after thrombolytic therapy for acute myocardial infarction. 840 55

Blood levels of the clotting factor fibrinogen and tissue plasminogen activator inhibitor-1 (PAI-1), a primary inhibitor of fibrinolysis, have been positively linked to risk of coronary heart disease. The authors have reported previously that plasma fibrinogen appears to rise after menopause and to be reduced with use of postmenopausal hormonal therapy. There is also evidence to suggest that sex hormones may influence PAI-1. To examine whether plasma fibrinogen and PAI-1 antigen levels differ among older postmenopausal women according to use of hormone therapy and by blood level of estrogen and androgens, these variables were assessed among 277 healthy women aged 65-82 years, one half of whom were receiving therapy. The study population was drawn from the Study of Osteoporotic Fractures, Pittsburgh, Pennsylvania, during 1986-1988. Overall, results showed median PAI-1 levels to be lower on average with oral and transdermal use of hormone therapy (25.0 vs. 33.5 ng/ml, p < 0.01) and mean fibrinogen levels to be lower (279 vs. 295 mg/dl, p < 0.02) with use of oral estrogen (but not transdermal) therapy compared with women not receiving therapy. Among women not receiving therapy, PAI-1 and fibrinogen levels were not related to endogenous sex hormone levels, with the exception of a modest positive relation between PAI-1 and serum estrone concentrations (rs = 0.29). In addition, a markedly higher PAI-1 level was found for women with a preponderance of upper body fat, independent of obesity. In sum, results showed that older women receiving postmenopausal hormone therapy had more favorable plasma levels of the hemostatic factors PAI-1 and fibrinogen than did those not receiving therapy, which can be explained in large part by differences between the two groups in obesity and body fat distribution.
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PMID:Association of sex hormones and adiposity with plasma levels of fibrinogen and PAI-1 in postmenopausal women. 854 17

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