EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The properties of heparin and hirudin to inhibit thrombin from binding to the freshly-excised rabbit aorta wall were compared in vitro. When aorta segments were incubated with 125I-thrombin (4.4 +/- 0.4 nM) in the presence of heparin or hirudin, both anticoagulants inhibited 125I-thrombin binding to the endothelium in a concentration-dependent manner (IC50: 0.1 USP U heparin/ml; 0.1 ATU hirudin/ml). Endothelium-bound 125I-thrombin was displaced by either heparin (50% liberated at 4.1 U/ml) or hirudin (0.4 U/ml). Using de-endothelialized aortas, heparin inhibited thrombin binding by the exposed subendothelium (IC50: 1.8 U/ml) whereas hirudin was without effect. Neither heparin nor hirudin was able to significantly liberate thrombin bound to the exposed subendothelium. These observations suggest that both heparin and hirudin mask the binding site on thrombin to the endothelial cell membrane. A separate site on thrombin must bind to the subendothelium because only heparin inhibits binding. Thrombin, although bound reversibly to the endothelium, is bound irreversibly to the exposed subendothelium due, probably, to reaction with endogenous extracellular antithrombin activities (e.g. antithrombin-III, protease nexin-1).
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PMID:Comparison of the effects of heparin and hirudin on thrombin binding to the normal and the de-endothelialized rabbit aorta in vitro. 177 13

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

Recent studies have suggested important roles for certain proteases and protease inhibitors in the growth and development of the CNS. In the present studies, inhibitors of urokinase or thrombin in cultured neural cells and serum-free medium from the cells were identified by screening for components that formed sodium dodecyl sulfate-stable complexes with 125I-urokinase or 125I-thrombin. Rinsed glioblastoma possessed two components that complexed 125I-urokinase. One was type 1 plasminogen activator inhibitor (PAI-1), because the 125I-urokinase-containing complexes were immunoprecipitated with anti-PAI-1 antibodies. The other component formed complexes with 125I-urokinase that were not recognized by antibodies to PAI-1 or protease nexin-1 (PN-1). Its identity is unknown. In addition to these cell-bound components, the glioblastoma cells also secreted two inhibitors that formed complexes with 125I-urokinase; one was PAI-1, and the other was PN-1. The secreted PN-1 also formed complexes with 125I-thrombin. It was the only thrombin inhibitor detected in these studies. Human neuroblastoma cells did not contain components that formed detectable complexes with either 125I-urokinase or 125I-thrombin. However, human neuroblastoma cells did contain very low levels of PN-1 mRNA and PN-1 protein. Added PN-1 bound to the surface of both glioblastoma and neuroblastoma cells. This interaction accelerated the inhibition of thrombin by PN-1 and blocked the ability of PN-1 to form complexes with 125I-urokinase. Thus, cell-bound PN-1 was a specific thrombin inhibitor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitors of urokinase and thrombin in cultured neural cells. 198 20

The addition of two synthetic peptides with antiprotease activity to the culture medium of mouse neuroblastoma cells results in the promotion of neurite outgrowth. One of these peptides has a sequence corresponding to the reactive center of protease nexin-1 and inhibits both trypsin and thrombin. Its effect on neuroblastoma cells is similar to that found on serum withdrawal from the culture medium, giving rise to cells with one or two long neurites, and is reversed upon the addition of thrombin to the culture medium. The sequence of the other peptide is present in one of the precursor proteins of the main component of the amyloid plaques of Alzheimer's disease patients' brains, and corresponds to protease nexin-2. It can inhibit trypsin but fails to inhibit thrombin at low doses. Its effect on neuroblastoma cells is slightly different from that observed after serum deprivation, as a significant proportion of stellate cells, with short and branched neurites, is observed. An increase in the phosphorylation of microtubule-associated protein MAP-1B, which accompanies neurite outgrowth induced by serum deprivation, is also observed upon addition of the two antiprotease synthetic peptides, although the nexin-2 (amyloid) peptide induces a less marked increase in phosphorylated MAP-1B than does the nexin-1 peptide. These results may be correlated with the different antiprotease activities of both synthetic peptides, thus suggesting a role for a balance between trypsin-like and thrombin-like proteases and their inhibitors in eliciting neurite outgrowth under normal and pathological conditions.
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PMID:Addition of protease inhibitors to culture medium of neuroblastoma cells induces both neurite outgrowth and phosphorylation of microtubule-associated protein MAP-1B. 205 67

A protease nexin released by activated platelets forms stable complexes with alpha-thrombin. Active-site-blocked thrombin does not form the stable complex, but it inhibits formation of the stable complex by active alpha-thrombin. gamma-Thrombin, which has a damaged substrate recognition site (the anion-binding exosite), did not form the complex and did not inhibit formation of the stable complex by alpha-thrombin. Complex formation was inhibited by the C-terminal dodecapeptide of hirudin, which has been shown to bind to the anion-binding exosite. A monoclonal antibody that blocks reactions of thrombin that involve the anion-binding exosite also inhibited formation of a stable complex of alpha-thrombin and the platelet-derived protease nexin. It is concluded that the anion-binding exosite of thrombin, a site that confers a high degree of specificity for substrates with a complementary site, binds to the platelet nexin prior to reaction of the catalytic site with the serpin.
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PMID:The reaction of thrombin with platelet-derived nexin requires a secondary recognition site in addition to the catalytic site. 205 9

Increasing attention is being paid to alterations of the hemostatic balance in tumors, in general, and brain tumors, in particular. Apparently divergent results, showing excess fibrinolysis (i.e., increased plasminogen activator activity) or its inhibition (i.e., increased inhibitor activity), have been reported. The 9L rat brain tumor is a gliosarcoma and a model used to study treatment paradigms for human gliomas. To study the roles of fibrin and fibrinolysis in this brain tumor model, we used these features to investigate the nature of the plasminogen activator (PA) and thrombin inhibitors in normal rat brain and in the 9L rat brain tumor, growing both in vitro and in vivo in rat brain. The results indicate that cells cultured from the tumor in vitro express PA inhibitory activity which is both of the protease nexin I and PA inhibitor 1 types. However, the serpin PA inhibitory activity in extracts of both the normal brain and tumor is of the protease nexin I/PA inhibitor 3 type. This activity is higher in the tumor than in the surrounding "normal" tissue. In addition, we present evidence for a novel thrombin inhibitor which (a) is present only in the tumor growing in rat brain and undetectable either in the normal brain tissue or in vitro, (b) is in a latent, but sodium dodecyl sulfate-activatable, state, and (c) does not bind urokinase. In current studies, investigators are exploring the roles of these molecules and the target serine proteases they inhibit in the pathogenesis of gliomas.
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PMID:Serpin inhibitors of urokinase and thrombin in normal rat brain and the 9L brain tumor: evidence for elevated expression of protease nexin I-like inhibitor and a novel sodium dodecyl sulfate-activated tumor antithrombin. 211 23

Centrifuged human platelets bound soluble 125I-labelled fibrin, mediated by a plasma factor. Binding was inhibited by D-phenylalanyl-L-prolyl-L-arginyl- chloromethane (PPACK), which specifically blocks thrombin. As the binding-promoting principle was adsorbed to barium citrate, it was tentatively characterized as prothrombin, suggesting that it might be converted to thrombin at the cell surface. The peptide GRGDSP failed to inhibit binding, thus eliminating the glycoprotein IIb/IIIa complex as a receptor. Most likely, a thrombin - fibrin complex is recognized by a cell receptor, possibly protease-nexin I. In a platelet concentrate, the cells also internalized 125I-labelled fibrin, providing evidence that platelets are involved in the clearance of circulating fibrin - monomer complexes. Engulfment was again inhibited by PPACK or hirudin but not by an antibody against the glycoprotein IIb/IIIa complex.
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PMID:Cell-binding and internalization of soluble fibrin by platelets. 213 33

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

Protease nexin-1 (PN-1) is a potent thrombin inhibitor that is identical to the glia-derived neurite-promoting factor or glia-derived nexin. Here we report immunocytochemical studies of adult human cerebral cortex that revealed the presence of strong immunoreactivity for PN-1 in capillaries and in the smooth muscle cells of arteries and arterioles. Expression of PN-1 was also abundant in astroglial processes in the parenchyma and in perivascular astroglial endfeet of human cerebral cortex. In situ hybridization with an 35S-labeled RNA antisense probe for PN-1 resulted in significant labeling of astrocytes and blood vessels. Because thrombin is known to cause retraction of neurites and modification of astrocytic morphology at low concentrations, PN-1 around blood vessels may play a major protective role against extravasation of thrombin and possibly other serine protease into the human brain.
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PMID:Protease nexin-1. Localization in the human brain suggests a protective role against extravasated serine proteases. 222 Oct 8

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