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:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The amyloid protein precursor (APP) of Alzheimer's disease was found to bind saturably (Kd = 60 nM) to embryonic chick brain extracellular matrix (ECM). The binding of APP to ECM was not inhibited by 10 micrograms/ml heparin or heparan sulfate. However, pretreatment of cells with 1 mM 4-methylumbelliferyl-beta-D-xyloside, an inhibitor of proteoglycan biosynthesis, reduced the number of APP binding sites on the ECM by 80%. The binding of APP to ECM was also inhibited by pretreatment with chlorate, an inhibitor of glycan sulfation, and heparitinase, which digests the carbohydrate component of heparan sulfate proteoglycans. These results suggest that APP binds with high affinity to one or more heparan sulfate proteoglycans. Acidic and basic fibroblasts growth factor (FGF) also bound to chick ECM. When ECM was incubated with a protease associated with the enzyme AChE (AChE-AP), APP and acidic FGF were released intact from the matrix. The AChE-AP was at least 100-fold more potent in releasing APP from ECM than other trypsin-like proteases (trypsin, plasmin, thrombin). The action of the AChE-AP was inhibited by glia-derived nexin (protease nexin I) and by human brain APP at low nanomolar concentrations. These results suggest that in vivo an AChE-AP may cleave ECM proteins to regulate the availability of soluble APP or other factors bound to the ECM.
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PMID:Association and release of the amyloid protein precursor of Alzheimer's disease from chick brain extracellular matrix. 127 36

When cultured astroglia are treated with agents that elevate intracellular cyclic AMP, they become process-bearing stellate cells and resemble differentiated astrocytes in vivo. Thrombin rapidly reversed the stellation induced by dibutyryl cyclic AMP, forskolin, or isoproterenol in cultured rat astrocytes; half-maximal and maximal effects occurred at 0.5 and 8 pM, respectively. The proteolytic activity of thrombin was required for stellation reversal, as thrombin derivatized at its catalytic site serine with a diisopropylphospho group was inactive. Two thrombin inhibitors, protease nexin-1 and hirudin, blocked and reversed the effect of thrombin. The stellation reversal effect of thrombin was specific, as 300-1,000-fold higher concentrations of other serine proteinases, including plasmin, urokinase, trypsin, and T cell serine proteinase-1, were ineffective. Thrombin is a mitogen for astrocytes at concentrations in excess of 30 pM. Thrombin increased both cell number and ornithine decarboxylase activity, an early marker for mitogenic stimulation, in astrocyte cultures. The lowest thrombin concentrations that completely reversed astrocyte stellation, however, did not increase ornithine decarboxylase activity. Moreover, several other mitogens for astrocytes did not reverse dibutyryl cyclic AMP-induced stellation. Thus, the stellation reversal effect of thrombin is distinct from the mitogenic response.
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PMID:Reciprocal modulation of astrocyte stellation by thrombin and protease nexin-1. 169 Dec 80

A low molecular weight platelet inhibitor of factor XIa (PIXI) has been purified 250-fold from releasates of washed and stimulated human platelets. Molecular weight estimates of 8400 and 8500 were determined by gel filtration and SDS-polyacrylamide gel electrophoresis, respectively, although a second band of Mr 5000 was present upon electrophoresis. The inhibitor does not appear to be one of the platelet-specific, heparin-binding proteins, since it neither bound to nor was affected by heparin. An amount of PIXI which inhibited by 50% factor XIa cleavage of the chromogenic substrate S2366 (Pyr-Glu-Pro-Arg-pNA-2H2O) only slightly inhibited (5-9%) factor XIIa, plasma kallikrein, plasmin, and activated protein C and did not inhibit factor Xa, thrombin, tPA, or trypsin, suggesting specificity for factor XIa. Kinetic analyses of the effect of PIXI on factor XIa activity demonstrated mixed-type, noncompetitive inhibition of S2366 cleavage and of factor IX activation with Ki's of 7 x 10(-8) and 3.8 x 10(-9) M, respectively. Immunoblot analysis showed that PIXI is not the inhibitory domain of protease nexin II, a potent inhibitor of factor XIa also secreted from platelets. Amino acid analysis showed that PIXI has no cysteine residues and, therefore, is not a Kunitz-type inhibitor. PIXI can prevent stable complex formation between alpha 1-protease inhibitor and factor XIa light chain as demonstrated by SDS-polyacrylamide gel electrophoresis. The inhibition by PIXI of factor XIa-catalyzed activation of factor IX and its capacity to prevent factor XIa inactivation by alpha 1-protease inhibitor, combined with the specificity of PIXI for factor XIa among serine proteases found in blood, suggest a role for PIXI in the regulation of intrinsic coagulation.
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PMID:A low molecular weight platelet inhibitor of factor XIa: purification, characterization, and possible role in blood coagulation. 173 24

The functional operation of the cell surface pro-u-PA and plasminogen activating system has previously been shown to depend on the assembly of u-PA receptors, plasminogen binding sites, and their respective ligands at the focal adhesions of cell extensions. We now show that additional factors operate that affect the persistence of functional activity and that evidently involve charge interactions mediated by polyanions, such as those found in the cell surface proteoglycans. Heparin-like compounds and protamine were identified as fast-acting stimulators of cell surface plasminogen activation. Heparin stabilized surface u-PA activity during plasminogen activation, and we propose that a heparin binding site exists in the kringle structure of u-PA. Heparin at 40 micrograms/ml could reduce u-PA loss to only 20% compared with 60% on control cells activating plasminogen. Protamine (25 micrograms/ml) exerted a strong stimulatory effect on the level of generated bound plasmin and notably prolonged the persistence of this activity, so that 100 minutes after addition of plasminogen the level of plasmin on protamine-treated cells was five times higher than on control-treated cells. The effect of protamine on plasmin clearance suggests that an unknown plasmin inhibitor may be produced by rhabdomyosarcoma cells, whose action is accelerated by endogenous polyanions, in an analogous manner to thrombin inactivation by antithrombin III and protease nexin on endothelial cells and fibroblasts, respectively. The stimulatory effects of heparin and protamine do not affect the inactivation of cell surface u-PA by recombinant PAI-2.
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PMID:Stimulation of cell surface plasminogen activation by heparin and related polyionic substances. 183 80

Structural and functional properties of alpha-protease nexin I (alpha-PNI) expressed in Chinese hamster ovary cells were studied. All three cysteines were in the reduced form, showing that the potential disulfide bridge between residues Cys117 and Cys131 was not formed. Heparin association rate enhancements were from ka = 8.3 x 10(5) to 0.7-1.6 x 10(9) M-1 s-1 for the interaction of PNI with thrombin, from ka = 5.1 x 10(3) to 3.5 x 10(5) M-1 s-1 for interaction with Factor Xa, and from ka = 2.2 x 10(6) to 1.0 x 10(7) M-1 s-1 for interaction with trypsin; there was no rate enhancement of the plasmin interaction (ka = 1.0 x 10(5) M-1 s-1). The minimal heparin pentasaccharide had no effect on these interactions. Cleavage of the reactive center loop of PNI by three different proteases gave the typical stressed to relaxed change in thermal stability, but unlike with antithrombin III, there was no loss of heparin affinity. A similar difference from antithrombin was that PNI-thrombin complexes retained normal heparin affinity. These results are compatible with a role for protease nexin I as a cell-associated thrombin inhibitor that remains bound to the cell surface even after complexing with the protease, as compared with the role of antithrombin III as a circulating inhibitor of thrombin that becomes activated on binding to the microvasculature and is released on complex formation.
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PMID:Protease specificity and heparin binding and activation of recombinant protease nexin I. 193 53

Protease nexin-2 (PN-2) is a protease inhibitor that is synthesized and secreted by a variety of extravascular cells including human fibroblasts. It forms sodium dodecyl sulfate-stable complexes with trypsin, the epidermal growth factor binding protein and the gamma-subunit of nerve growth factor. Recently we reported that PN-2 is the secreted form of the amyloid beta-protein precursor (APP) and is a potent inhibitor of chymotrypsin. Here we describe a two-step procedure to purify PN-2/APP using a monoclonal antibody immunoaffinity column. We also quantitated the protease inhibitory properties of purified PN-2/APP on a number of serine proteases. PN-2/APP was a potent inhibitor of coagulation factor XIa with a Ki = 2.9 x 10(-10). The inhibition of factor XIa by PN-2/APP was augmented by heparin and resulted in a Ki = 5.5 x 10(-11) M. Trypsin and chymotrypsin were also effectively inhibited with a Ki = 4.2 x 10(-10) and 1.6 x 10(-9), respectively. PN-2/APP also inhibited the epidermal growth factor binding protein, the gamma-subunit of nerve growth factor, and chymase and plasmin to a lesser extent. In view of recent findings that PN-2/APP is contained in alpha-granules of platelets and is secreted upon platelet activation, the potent inhibition of factor XIa suggests that PN-2/APP may play a regulatory role in the coagulation pathway at vascular wound sites. In addition, these studies define biochemical activities of PN-2/APP which may be involved in regulating proteases that lead to the generation and deposition of the beta-protein in neurodegenerative lesions associated with Alzheimer's disease and Down's syndrome.
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PMID:Immunopurification and protease inhibitory properties of protease nexin-2/amyloid beta-protein precursor. 211 43

Senile plaques, often surrounded by abnormally grown neurites, are characteristic of Alzheimer's diseased brain. The core of the plaque is mainly composed of amyloid beta protein (beta-AP), two of whose three precursors (APP) have serine proteinase inhibitor regions (APPI). APPI derivatives containing 60, 72 or 88 amino-acid fragments (APPI-60, APPI-72 and APPI-88, respectively) of the longest APP were produced in COS-1 cell culture medium, with the APPI cDNA ligated to the signal sequence of tissue plasminogen activator. The secreted APPIs were purified by sequential acetone precipitation followed by affinity chromatography using immobilized trypsin. These three APPIs and O-glycosylation-site-mutated APPI showed similar inhibitory activity against trypsin, chymotrypsin and plasmin. The purified APPI-72 was found to inhibit trypsin (Ki = 1.1 x 10(-10) M) and chymotrypsin (Ki = 5.8 x 10(-9) M) most strongly, and to inhibit leukocyte elastase (Ki = 7.9 x 10(-7) M) and several blood coagulation proteinases (Ki = 0.46-12 x 10(-7) M), but not urokinase or thrombin. The observed inhibition pattern was quite different from that of protease nexin I, one of serine proteinase inhibitors possessing neurite outgrowth activity. This suggests that the physiological roles of APPI are different from those of protease nexin I, and that APPI could not cause aberrant growth of neurite into the plaque. The presence of APPI having strong inhibitory activity in the brain might lead to the formation of amyloid deposits by preventing complete degradation of APPs.
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PMID:Enzyme specificity of proteinase inhibitor region in amyloid precursor protein of Alzheimer's disease: different properties compared with protease nexin I. 218 Apr 85

The binding of type 1 plasminogen activator inhibitor (PAI-1) to the extracellular matrix (ECM) of cultured bovine aortic endothelial cells was investigated using purified 125I-labeled or L-[35S]methionine-labeled PAI-1 as probes. Little specific binding of latent PAI-1 to ECM previously depleted of endogenous PAI-1 could be demonstrated. In contrast, the guanidine-activated form of PAI-1 bound to ECM in a dose- and time-dependent manner, and binding was saturable. The dissociation constant (Kd) for this interaction was estimated to be 60 nM by Scatchard analysis, and approximately 6 pmol of activated PAI-1 was bound per cm2 of ECM. Binding was relatively specific since unlabeled, activated PAI-1 competed with 35S-labeled PAI-1 for binding to ECM, but latent PAI-1 did not. Moreover, PAI-2, protein C inhibitor (i.e. PAI-3), protease nexin-1, and alpha 2-antiplasmin were not able to compete. Tissue-type plasminogen activator (tPA) also inhibited binding, but diisopropyl fluorophosphate-inactivated tPA did not. Pretreatment of ECM with tPA, urokinase-type PA, or thrombin had no effect on its ability to subsequently bind PAI-1, whereas trypsin, plasmin, and elastase pretreatment greatly reduced its ability to bind PAI-1. Guanidine-activated, radiolabeled PAI-1 resembled active endogenous PAI-1 since it was unstable in solution but stable when bound to ECM. In addition, it formed complexes with tPA that had a relatively low affinity for ECM. These data suggest that ECM of bovine aortic endothelial cells contains a protease-sensitive structure that binds active PAI-1 tightly and relatively selectively and that this association stabilizes PAI-1 against the spontaneous loss of activity that occurs in solution.
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PMID:Binding of type 1 plasminogen activator inhibitor to the extracellular matrix of cultured bovine endothelial cells. 249 80

Clonal, fusing, mouse skeletal muscle cells (C2) were grown to the myotube stage (90% confluence) before they were subjected to isotope-containing serum-free media (3H-proline or 35S-methionine). C2 myotubes secrete and organize a biosynthetically labeled matrix which adheres to the plastic after removal of myotubes with detergent and ammonium hydroxide. When these homotypic-labeled myotube matrices were incubated with myoblast-conditioned media containing high specific activity urokinase-type plasminogen activator, slow, but clearly detectable, release of label occurred. However, degradation of matrix, with solubilization of label, was accelerated sixfold by addition of human plasminogen to diluted myoblast-conditioned media. If protease nexin I, a cellular serine protease inhibitor purified from human fibroblast-conditioned media, was added (0.2 microgram/ml) with plasminogen, inhibition of matrix hydrolysis by 52% occurred. Higher concentrations (0.8 microgram/ml or above) of protease nexin 1 completely inhibited the degradation of extracellular matrix components. A similar protease inhibitor was purified from C2 myotube-conditioned media, and this molecule also inhibited the plasminogen-dependent release of extracellular matrix. We propose that protease nexin 1 inhibits the destruction of myotube matrix by inactivating the plasmin/plasminogen activation system and may be the physiologic regulator of this system during muscle development in vivo.
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PMID:Protease nexin I, a serpin, inhibits plasminogen-dependent degradation of muscle extracellular matrix. 250 47

Binding of 125I-thrombin to endothelial cells derived from human umbilical vein was studied in tissue culture. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and autoradiography revealed covalent binding of thrombin in a 72-kDa complex. This binding is specific and requires the catalytically active site of the enzyme. Formation of the complex could be detected as early as 3 min after addition of thrombin or with a thrombin concentration as low as 0.5 nM. This irreversible binding exhibits thrombin dose-dependence and reaches maximum levels at a concentration of 50 nM (10 fmol/10(5) cells). Some characteristics of the 72-kDa complex were compared to those of the complexes formed between thrombin and protease nexin originating from fibroblasts or platelets: (i) its electrophoretic mobility on SDS-PAGE is identical to that of the thrombin-platelet protease nexin complex, (ii) heparin prevents the appearance of the complex on the cell surface, (iii) plasmin in a 100-fold molar excess prevents the covalent linkage of thrombin, suggesting that the protease specificity of the endothelial component involved in the complex might not be restricted to thrombin. Yet no release, nor any secretion of the endothelial protein, could be detected. These results indicate that active thrombin binds covalently to a specific endothelial protein that is in several respects similar to fibroblast or platelet protease nexin and provides a thrombin binding site distinct from thrombomodulin and glycosaminoglycans.
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PMID:Covalent binding of human thrombin to a human endothelial cell-associated protein. 252 28


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