EC:3.4.21.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this report we describe the use of the methylotrophic industrial yeast Pichia pastoris as a host system for the large scale production of the Kunitz-type proteinase inhibitor (KPI) domain of the amyloid beta-protein precursor-like protein-2 (APLP-2). The expression plasmid for the KPI domain of APLP-2 encoded amino acids 305-364 of the APLP-2 cDNA (Slunt et al. (1994) J. Biol. Chem. 269, 2637-2644). The secreted 60 amino-acid product was purified to homogeneity and biochemically characterized. Amino-acid sequencing of the expressed KPI domain of APLP-2 verified its integrity. The proteinase inhibitory properties of the KPI domain of APLP-2 were compared to those of the KPI domain of proteinase nexin-2/amyloid beta-protein precursor (PN-2/A beta PP). Both KPI domains potently inhibited trypsin and, to a lesser extent, chymotrypsin, plasmin, and coagulation factors XIa and IXa. However, the KPI domain of APLP-2 was a approximately 20-fold less effective inhibitor of coagulation factor XIa compared to the KPI domain of PN-2/A beta PP. Similarly, the KPI domain of APLP-2 was a less effective anticoagulant in coagulation based assays than the KPI domain of PN-2/A beta PP. These studies indicate that the KPI domains of PN-2/A beta PP and APLP-2 form a family of proteinase inhibitors although the former is a better inhibitor of factor XIa and a more potent anticoagulant than the latter.
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PMID:Expression, purification, and characterization of the Kunitz-type proteinase inhibitor domain of the amyloid beta-protein precursor-like protein-2. 781 86

Serine proteinase inhibitors play a major role in the turnover of connective tissues. In this study, we isolated and determined partial amino-terminal amino acid sequence of trypsin/elastase/plasmin inhibitors (M(r) 33,000 and 31,000) from the extracellular matrix of SV40-transformed human skin fibroblasts. The antitrypsin activity of the inhibitors was monitored by substrate reverse zymography. Polyclonal antisera to alpha 1-antitrypsin, alpha 1-antichymotrypsin, alpha 2-antiplasmin, inter-alpha-trypsin inhibitor, plasminogen activator inhibitors-1 and -2, and a monoclonal antibody to protease nexin-1 did not label the 33-, 31-, and 27-kDa inhibitors. A computer search for amino acid sequence homology indicated that the 31-kDa inhibitor is novel. In contrast, the sequence of the 33-kDa inhibitor shared 70 to 90% homology with the amino-terminal sequence of a recently characterized 32-kDa trypsin/tissue factor inhibitor called tissue factor pathway inhibitor-2. The 33- and 31-kDa inhibitors bind to heparin-Sepharose and were recovered from the affinity beads as well as from the t12 FB extracellular matrix with 1 M NaCl. Based on these results, we propose that the extracellular matrix of human mesenchymal cells sequester a family of novel serine proteinase inhibitors.
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PMID:Novel extracellular matrix-associated serine proteinase inhibitors from human skin fibroblasts. 787 99

Heparin and heparan sulfate, exhibiting wide biological interactions, are constituted of block structures. A defined pentasaccharide motif was found responsible for the enhancement of the rate of inactivation of factor Xa by antithrombin III. Heparin also interacts with other serine proteinase inhibitors as protease nexin I, and thus possibly modulates extracellular matrix proteolysis by serine proteinases in the pericellular environment. Human neutrophil elastase (HNE) activity is inhibited by heparin with Ki = 75 pM. This strong interaction is electrostatic, involving HNE/arginine residues disposed in a "cluster shoe" arrangement on the surface of the molecule and mainly OSO3- groups of heparin. HNE-heparin interactions also interfere with HNE associations with its natural inhibitors: it decreases the rate of association of HNE with alpha 1 proteinase inhibitor (alpha 1 P(i)) by 3 orders of magnitude, while increasing kass between HNE and mucus bronchial inhibitor (MBI) by > 10 fold. In vivo experiments demonstrated that heparin fragments lacking anticoagulant activity were able to nearly completely abolish emphysematous lesions induced in mice by a single intratracheal administration of 200 micrograms HNE. Long chain unsaturated fatty acids peptide conjugates were described as competitive HNE inhibitors (Hornebeck W. et al. 1985). We synthesized N-oleoyl heparin derivative (3 oleoyl groups/one molecule of heparin); such a lipophilic glycosaminoglycan (LipoGAG), although acting as an elastin protecting agent, possessed lower HNE inhibitory capacity as compared with heparin. In contrast, however, it was able to inhibit other serine proteinases such as urokinase, plasmin, porcine pancreatic apha-chymotrypsin and elastase. Such Lipo GAG's can be therefore useful to control matrix metalloproteinases (MMPs) during tissue remodeling or tumor invasion.
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PMID:Heparin and its derivatives modulate serine proteinases (SERPS) serine proteinase inhibitors (SERPINS) balance. Physiopathological relevance. 789 38

Recent studies have shown that serine protease inhibitors can be regulated in their activity, specificity, and location by glycoprotein or extracellular matrix (ECM) co-factors. Protease nexin-1 (PN-1) is a member of the serpin superfamily of serine protease inhibitors which can rapidly inhibit thrombin, urokinase, and plasmin. PN-1 binds tightly to and is regulated by the ECM. This interaction accelerates the inhibition of thrombin by PN-1 and blocks urokinase and plasmin inhibition by PN-1. Previous work showed that heparan sulfate proteoglycan is largely responsible for the acceleration of thrombin inhibition by PN-1. Our current studies were directed at identifying ECM component(s) that decreased the ability of PN-1 to inhibit urokinase and plasmin. These studies showed that collagen type IV decreased the formation of SDS-stable complexes between urokinase or plasmin and PN-1 without affecting formation of complexes between thrombin and PN-1. The second order rate constant for inhibition of urokinase by PN-1 was markedly decreased with increasing collagen type IV, whereas the second order rate constant for inhibition of thrombin by PN-1 was unaffected by addition of collagen type IV. Other ECM components (collagen type I, vitronectin, fibronectin, and heat-denatured collagen type IV) did not affect complex formation or the rate of inhibition of proteases by PN-1, indicating that these effects were specific to collagen type IV. Binding of PN-1 to immobilized collagen type IV was demonstrated using an enzyme-linked immunosorbent assay; the concentration of PN-1 necessary to obtain 50% saturation of the immobilized collagen type IV binding sites was approximately 15 nM. Collagen type IV was also copurified with PN-1 from fibroblast-conditioned medium. These results demonstrate a novel regulation of serpin specificity in which an ECM co-factor decreased the inhibition of certain proteases by the serpin without affecting the inhibition of its target protease.
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PMID:Regulation of protease nexin-1 target protease specificity by collagen type IV. 800 28

After binding to its receptor (uPAR), active cell-surface urokinase (uPA) is not internalized while the complex formed by uPA with plasminogen activator inhibitor type 1 (PAI-1) is internalized and degraded. Internalization and degradation require binding to uPAR and subsequently an interaction with the alpha 2-macroglobulin receptor (alpha 2-MR). To analyze the generality of this mechanism, we studied the internalization of uPA by recombinant protease nexin-1 (rPN-1), an inhibitor of thrombin, uPA, and plasmin. 125I-uPA.rPN-1 complexes bound specifically to uPAR; internalization occurred efficiently, and its time course was essentially the same as for uPA.PAI-1. Internalization required binding to uPAR since it could be blocked by the anti-uPAR monoclonal antibodies, by the uPAR antagonist amino-terminal fragment of uPA, and by the removal of uPAR by the treatment of cells with phosphatidylinositol-specific phospholipase C. As for uPA.PAI-1, the internalization of uPA.rPN-1 also required alpha 2-MR, since it could be inhibited by the 39-kDa alpha 2-macroglobulin receptor/low density lipoprotein receptor-associated protein, a ligand for the alpha 2-MR. Finally, we show by ligand blot analysis that the uPA.rPN-1 complex, like uPA.PAI-1 but unlike free uPA, bound specifically to both uPAR and alpha 2-MR.
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PMID:Protease nexin-1-urokinase complexes are internalized and degraded through a mechanism that requires both urokinase receptor and alpha 2-macroglobulin receptor. 802 43

Cartilage degradation is mediated by activated matrix metalloproteinases (MMP). Since the plasmin/plasminogen cascade may activate latent MMP during cartilage catabolism, we determined if protease nexin-1 (PN-1), an inhibitor of plasminogen, plasmin, and urokinase could prevent cartilage degradation. Using a rabbit model, we induced cartilage glycosaminoglycan (GAG) loss by intraarticular (IA) injection of IL-1 beta and bFGF. PN-1 was given IA for 4 days, once before IL-1 beta/bFGF and daily for 3 days. Three days after IL-1 beta/bFGF, we determined GAG loss. PN-1 significantly inhibited GAG loss at 2.8, 2.5 mg, and 2.0 mg/knee (p < 0.03). These data suggest the role of the plasmin/plasminogen enzymatic cascade in the cartilage catabolism that occurs during IL-1-induced inflammation and demonstrates the potential of PN-1 to prevent cartilage degradation.
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PMID:Recombinant human protease nexin-1 prevents articular cartilage-degradation in the rabbit. 838 2

Protease nexin 1 (PN1), a serine protease inhibitor that inactivates thrombin, urokinase, and plasmin, is produced abundantly in cultures of human fibroblasts and rat and human glioma cells. The major sites of PN1 synthesis in vivo and the specific physiological function(s) of this serpin are unknown. Using Northern blot analysis and a full-length PN1 cDNA probe we demonstrated the presence of PN1 mRNA in human term placentas. In situ hybridization of placental tissue with a PN1 riboprobe showed that PN1 mRNA is present throughout the placenta and is also abundant in the placental membranes. Immunohistochemical analysis with an anti-PN1 antibody showed co-localization of PN1 and its mRNA within the placenta.
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PMID:Protease nexin 1 is expressed in the human placenta. 845 23

Plasminogen activator inhibitor-1 (PAI-1) is a member of the serpin superfamily of proteins and is the fast acting inhibitor of both urinary plasminogen activator and tissue-type plasminogen activator. We have assessed the functional significance of reactive center residues on the carboxy-terminal side of the cleavage site of recombinant human PAI-1. Using site-directed mutagenesis, the P1'-P5' residues (P1' is the first residue on the carboxy-terminal side of the protease cleavage site) of the wild-type PAI-1 reactive center sequence were replaced with the corresponding sequences of plasminogen activator inhibitor-2, antithrombin, alpha 2-antiplasmin and protease nexin I. Rate constants of inhibition of the serine proteases urinary plasminogen activator, tissue-type plasminogen activator, plasmin and thrombin by the variants were determined. The results suggest a crucial role for both reactive center length and sequence in the inhibition of plasminogen activators by PAI-1. Analysis of substitutions at positions P4' and P5' both confirms and extends our previous work demonstrating a favorable electrostatic interaction between these residues and tissue-type plasminogen activator. None of the variants show dramatic increases in the rate constants of inhibition of other serine proteases, suggesting that these residues alone are not sufficient to confer protease specificity on PAI-1. Apparently, the determinants of the rapid inhibitory specificity of PAI-1 are localized to the P1'-P5' region of the reactive center and these residues act synergistically to produce the exquisite specificity of PAI-1 for plasminogen activators.
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PMID:Sequence requirements in the reactive-center loop of plasminogen-activator inhibitor-1 for recognition of plasminogen activators. 862 Aug 72

We purified a novel serine proteinase inhibitor (serpin)-like protein from the bovine brain and named it B-43 from its molecular mass, 43 kDa. A cleaved peptide from B-43 was copurified with the native B-43. Partial amino acid sequencing of the purified B-43 showed that this protein was homologous to glia-derived nexin/protease nexin-1 (GDN/PN-1), plasminogen activator inhibitor 2, leukocyte elastase inhibitor (LEI) and placental thrombin inhibitor (PTI) among the serpins. Although B-43 had a similar amino acid composition to these serpins, the biochemical features of B-43 were different from them. B-43 did not form sodium dodecyl sulfate (SDS)-resistant serpin-proteinase complexes with thrombin, urokinase, pancreatic elastase and plasmin, suggesting that these proteinases were not the targets of B-43. In contrast to GDN/PN-1, B-43 did not have an affinity for heparin. B-43, having different biochemical properties from GDN/PN-1, appears to be an additional serpin expressed in the brain.
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PMID:Purification of a novel serpin-like protein from bovine brain. 884 89

Several lines of indirect evidence indicate that plasmin-mediated proteolysis plays a role in the breakdown of the follicle wall during ovulation. Consistent with this, the ovulation efficiency of mice lacking the two known physiological plasminogen activators (PAs), tissue-type PA (tPA) and urokinase-type PA (uPA), is reduced by 26%. Surprisingly, mice with a single deficiency of either tPA or uPA gene function were normal in their capacity to ovulate. In this study we used in situ hybridization and casein in situ zymography to localize the expression of messenger RNAs (mRNAs) encoding PAs and PA inhibitors and to examine the net PA activity in the mouse ovary at the time of ovulation. Although uPA mRNA expressed by granulosa cells is the most abundant and dramatically up-regulated PA before ovulation, a previously unnoticed coordinated induction oftPA mRNA was found in thecal-interstitial tissue. The existence of redundant mechanisms for plasmin production in the ovary may be the cause of the normal ovulation efficiency in single deficient mice lacking tPA or uPA. The expression of mRNAs for PA inhibitors, types 1 and 2, was low in the ovary, with minor inductions at restricted time points. In contrast, expression of protease nexin-1 (PN-1) by granulosa cells was high during the entire periovulatory period. Among subpopulations of granulosa cells, the expression of PN-1 and uPA was heterogeneous and complementary. Cumulus cells expressed high levels of PN-1 mRNA and low levels of uPA mRNA, thereby providing an inhibitory activity that may protect the mucified matrix of the cumulus oocyte complex from proteolytic degradation.
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PMID:Coordinated and cell-specific induction of both physiological plasminogen activators creates functionally redundant mechanisms for plasmin formation during ovulation. 894 Mar 98

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