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: UNIPROT:P35237 (thrombin inhibitor)
2,012 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the properties of an artificial chimeric peptide that contains an Arg-Gly-Asp (RGD)-tripeptide, the versatile cell recognition signal of extracellular matrix protein components, coupled to a carboxyl-terminal fragment of the highly specific alpha-thrombin inhibitor, hirudin (residues 53-64): WGRGDSANGDFEEIPEEYL (RGD-hirudin53-64). Hirudin53-64 and RGD-hirudin53-64 inhibited the fibrinogen clotting activity of alpha-thrombin and prolonged the activated partial thromboplastin time of human plasma. In addition, both peptides afforded total protection to thrombin from trypsionolysis. Neither hirudin53-64 nor RGD-hirudin53-64 dramatically interfered with the thrombin-antithrombin inhibition reaction either in the absence or presence of added heparin. alpha-Thrombin-induced platelet aggregation was effectively inhibited by hirudin53-64 and RGD-hirudin53-64. Unlike hirudin53-64, RGD-hirudin53-64 in solution inhibited integrin-mediated endothelial cell and fibroblast cell attachment to polystyrene wells in the presence of fetal bovine serum. Collectively, our results demonstrate that RGD-hirudin53-64 has anticoagulant/antiplatelet aggregation activity attributable to its hirudin sequence and integrin-directed cell attachment activity due to its RGD site. Our results suggest that this chimeric motif may serve as a prototype for a new class of anticoagulants where an integrin-specific sequence "targets" the peptide to a cell (ultimately through the platelet integrin alpha IIb beta 3) trapped amid a thrombus with ensuing proteinase inhibition.
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PMID:Chimeric antithrombin peptide. Characterization of an Arg-Gly-Asp (RGD)- and hirudin carboxyl terminus-containing synthetic peptides. 205 Jun 91

Thrombin activation is an important underlying pathomechanism for septic organ failure. The selective thrombin inhibitor, hirudin, reduces the endotoxin-induced fibrinogen consumption and thus the formation of fibrin monomer, as well as the pulmonary vasoconstriction in pigs at plasma concentrations of 70 to 100 nmol/l. PMN cell activation with subsequent release of digestive proteases is in part responsible for the loss of fluid and protein from the vascular compartment during septic shock. Administration of the inhibitor of PMN elastase, cathepsin G and mast cell chymase, eglin C, reduces the loss of intravascular protein during the first 4 hours of endotoxin shock at plasma concentrations in the range of 2 mumol/l.
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PMID:Therapeutic effects of the combination of two proteinase inhibitors in endotoxin shock of the pig. 278 Jul 41

Thrombin inhibitors have recently advanced to the stage of preclinical testing as anticoagulants. However, little is known about the effects of these inhibitors on the enzymes of the fibrinolytic system. In the present study we evaluated the effect of two protein and two synthetic inhibitors of thrombin on tissue plasminogen activator (tPA), urokinase, and plasmin. We found that hirudin inhibited the amidolytic activity of plasmin but had no effect on tPA or urokinase. Antithrombin III inhibited plasmin and urokinase but had no effect on tPA. D-Phe-Pro-Arg-CH2Cl inhibited plasmin and tPA but had no effect on urokinase. Thromstop inhibited all three fibrinolytic enzymes: plasmin, urokinase, and tPA. Thus each thrombin inhibitor tested had different inhibitory effects on the fibrinolytic enzymes. These effects should be carefully considered when thrombin inhibitors are used as antithrombotic drugs.
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PMID:Inhibition of fibrinolytic enzymes by thrombin inhibitors. 297 31

A fraction of the 125I-thrombin that binds to human platelets is taken into a sodium dodecyl sulfate-resistant 77 kDa complex with a platelet factor (Bennett, W. F., and Glenn, K. C. (1980) Cell 22, 621-627). Here we show that this platelet factor is in several respects similar to protease nexin I (PNI), a fibroblast thrombin inhibitor. The complexes are of the appropriate size, bind to Sepharose that has been derivatized with anti-PNI antibody, do not form when the thrombin active site has been blocked with diisopropylphosphofluoridate, and do not appear on platelets when heparin is present. However, the platelet factor does not bind urokinase, indicating that this "platelet PN" may be distinct from PNI. Following brief incubation with 125I-thrombin, platelet PN X 125I X thrombin complexes are found both associated with the platelets and free in the binding medium. 125I-Thrombin has a higher affinity for platelet PN than for platelet receptors. In 30-s binding incubations carried out with thrombin at concentrations below 0.3 nM, formation of the 77-kDa complex accounts for most of the platelet specific binding of 125I-thrombin. Subtracting this large contribution to 125I-thrombin-specific binding reveals that the reversible binding of 125I-thrombin to platelet receptors exhibits sigmoidal thrombin dose-dependence. Thrombin stimulation of platelet [14C]serotonin release exhibits similar thrombin dose dependence. These results indicate that platelets may possess a mechanism for suppressing their interaction with active thrombin at thrombin doses below 0.3 nM. It is possible that platelet PN carries out this function by capturing thrombin before thrombin binds to its signal-transmitting receptors.
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PMID:Thrombin interaction with platelets. Influence of a platelet protease nexin. 310 83

Binding of 125-I-fibrinmonomer to peritoneal macrophages was investigated in dependence of plasma fibronectin and of its thrombin- or plasmin-derived fragments. Plasma fibronectin failed to enhance cell binding of 125-I-fibrinmonomer. In contrast, 30kD-fragments derived from the N-termini of the fibronectin subunits improved binding considerably. The association with the cell surface was completely inhibited by EDTA, 2-5 mM putrescine and to about 40 per cent by 0.1 mM dansylcadaverine suggesting that a transamidase-catalyzed cross-linking reaction was involved. Thrombin-derived 200kD-remnants of the fibronectin subunit chains failed to mediate cell binding of 125-I-fibrinmonomer provided they had been deprived of residual thrombin activity. Otherwise they were active and their activity was inhibited by the thrombin inhibitor hirudin. Plasmin-derived 200 kD-fragments were inactive as well.
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PMID:Fibrinmonomer binding to macrophages mediated by fibrin-binding fibronectin fragments. 392 11

Prothrombinase affects the proteolytic conversion of prothrombin to thrombin and is the penultimate enzyme in the common coagulation pathway. Prothrombinase is a complex in which the proteinase, Factor Xa, a cofactor, Factor Va, and calcium are bound to a membrane surface to generate the active enzyme. Guinea pig line 1 and line 10 tumor cells, grown as primary cultures from ascites tumors or as cell lines in culture, provide a surface that interacts with coagulation Factor Va and Xa and with calcium ions to form this enzyme complex. Cultured human colorectal carcinoma cells (Colo 205) also participate in prothrombinase complex assembly and function. Prothrombinase generation was measured by following the kinetics of prothrombin conversion to thrombin. Thrombin generation was monitored continuously using the reversible thrombin inhibitor, dansylarginine N-(3-ethyl-1,5-pentanediyl)amide, which displays enhanced fluorescence upon binding to thrombin. Analyses of kinetic data indicate that the apparent dissociation constants (1-4 X 10(-10) mol/liter) and the number of Factor Va-Xa binding sites per tumor cell are comparable to values reported for human and bovine platelets, human lymphocytes, and monocytes. Guinea pig lymphocytes were also active, while erythrocytes were inactive, in the prothrombinase assay. Membrane vesicles, shed by guinea pig and human tumor cells into conditioned medium, also supported functional prothrombinase activity. Although earlier studies indicated that tumor cells may initiate coagulation, this is the first demonstration that tumor cells are competent to bring clotting to fruition by generating thrombin, a step essential to fibrin generation. These data suggest that tumor cells, in the presence of clotting initiators and appropriate coagulation factors, are sufficient to generate the fibrin deposited in solid tumors.
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PMID:Tumor cell generation of thrombin via functional prothrombinase assembly. 405 25

Thrombin binds to platelets and induces platelet activation, but the relationship of binding to activation is not clear. To better define this relationship, we have analyzed parameters of binding and activation by alpha-thrombin and by three analogous proteases that activate platelets somewhat differently. The proteases were nitro-alpha-thrombin, a derivative with nitrated tyrosine, gamma-thrombin, a product of partial proteolysis of alpha-thrombin, and trypsin, a homologous protease. Nitro-alpha-thrombin and native alpha-thrombin activated platelets similarly, whereas gamma-thrombin and trypsin activated to a slightly lesser extent than alpha-thrombin and only after a distinctive delay. alpha-Thrombin and nitro-alpha-thrombin bound to platelets to about the same extent, but only alpha-thrombin showed evidence of saturable binding. Hirudin, a thrombin inhibitor, blocked both platelet activation and saturable binding by alpha-thrombin. With nitro-alpha-thrombin, hirudin blocked platelet activation, but it had no effect on binding. gamma-Thrombin and trypsin bound less than alpha-thrombin and with no evidence of saturable binding. There were identical relationships between the total amount bound and the extent of platelet activation for the four proteases (some show no saturable binding) but distinct differences in the relationships of total amount bound and the rate of activation; similar rates of activation required the binding of three to five times more gamma-thrombin or trypsin than alpha-thrombin. That is, without saturable binding, activation was slower. These data thus show a correlation between total amount bound and extent of activation but no correlation between amount saturably bound and the extent of platelet activation. Conversely, the rate of activation is more closely correlated with saturable binding than with total binding. We conclude that high-affinity saturable binding is not essential for thrombin-induced platelet activation but that it may accelerate the reaction.
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PMID:Thrombin-platelet interactions: an assessment of the roles of saturable and nonsaturable binding in platelet activation. 634 Jun 11

The kininogenase activity of alpha- and beta/gamma-forms of bovine thrombin with respect to the high molecular weight (HMW) and low molecular weight (LMW) human kininogens was studied. It was shown that both forms of the enzyme split of bradykinin from these kininogens. The kininogenase activity of alpha-thrombin is completely blocked by the highly specific thrombin inhibitor Nalpha-dansyl-L-arginine-p-ethylpiperidineamide, but not by the soya bean trypsin inhibitor. The alpha- and beta/gamma-forms of thrombin hydrolyze HMW (Km(app) = 4.5 and 3.3 microM, respectively) and LMW (Km(app) = 10.1 and 4.7 microM, respectively). The specific constants (kcat/Km(app) ) for thrombin with respect to the substrates differ about 7-fold, predominantly due to the high catalytic rates of HMW as compared to LMW; the kcat values are 0.18 and 0.06 min-1, respectively. alpha-Thrombin upon a long-term (over 1 hour) exposure to HMW, besides bradykinin, splits off the product inhibiting the kininogenase activity of thrombin. No differences in the specificity of the beta/gamma-form of thrombin with resect to HMW and LMW were detected.
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PMID:[Kininogenase activity of alpha and beta/gamma forms of bovine thrombin]. 656 67

Purified thrombin from an exogenous source is a hemostatic agent commonly used in neurosurgical procedures. The toxicity of thrombin in the brain, however, has not been examined. This study was performed to assess the effect of thrombin on brain parenchyma, using the formation of brain edema as an indicator of injury. Ten microliters of test solution was infused stereotactically into the right basal ganglia of rats. The animals were sacrificed 24 hours later, and the extent of brain edema and ion content were measured. Concentrations of human thrombin as low as 1 U/microliter resulted in a significant increase in brain water content. Rats receiving 10 U/microliters had a mortality rate of 33% compared to no mortality in the groups receiving smaller doses. Thrombin-induced brain edema was inhibited by a specific and potent thrombin inhibitor, hirudin. A medical grade of bovine thrombin commonly used in surgery also caused brain edema when injected at a concentration of 2 U/microliters. Edema formation was prevented by another highly specific thrombin inhibitor, N alpha-(2-Naphthalenesulfonylglycyl)-4-DL-phenylalaninepiperidid e (alpha-NAPAP). Thrombin-induced brain edema was accompanied by increases in brain sodium and chloride contents and a decrease in brain potassium content. Changes in brain ions were inhibited by both hirudin and alpha-NAPAP, corresponding to the inhibition of brain water accumulation. This study shows that thrombin causes brain edema when infused into the brain at concentrations as low as 1 U/microliter, an amount within the range of concentrations used for topical hemostasis in neurosurgery.
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PMID:Intracerebral infusion of thrombin as a cause of brain edema. 749 Jun 19

We investigated the effects of the thrombin inhibitor, argatroban ((2R,4R)-4-methyl-1-[N2-(3-methyl-1,2,3,4-tetrahydro-8- quinolinesulfonyl)-L-arginyl]-2-piperidinecarboxylic acid) on the endothelium-derived relaxing factor-nitric oxide (EDRF-NO)-dependent relaxant, and the endothelial cell-independent constrictor actions of thrombin. Experiments were performed in isolated rings of canine coronary arteries. Argatroban inhibited thrombin-induced relaxation (range of thrombin activity 0.003-0.3 U/ml), with an ED50 of 0.3 microM. The ED50 value was not different from inhibition of thrombin amidolytic cleavage of the chromogenic substrate N-p-tosylgly-pro-arg-p-nitroanilide acetate (TOGSPAN 0.28 microM), but inhibition was highly selective. Argatroban did not block EDRF-NO-dependent relaxations to trypsin (0.003-0.3 U/ml; Emax -88.7 + 2.0% without vs. -88.1 +/- 2.7% with argatroban), acetylcholine (ACh 1 nM to 1 microM; Emax -90.5 +/- 4.7% and -88.6 +/- 3.1%, with and without argatroban, respectively), or the calcium ionophore A23187 (1 nM to 1 microM; Emax -98.5 +/- 1.2 vs. -99.4 +/- 0.6%). The inhibitory effects of argatroban on thrombin-induced constriction were then compared with those of the irreversible thrombin inhibitor D-phenylalanyl-L-prolyl L-arginine chloromethyl ketone (PPACK). The highest concentration of argatroban (10 microM) inhibited the vasoconstrictor effects of thrombin but did not completely block the effects (Emax 21.4 +/- 8.1% of KCl constriction without argatroban and Emax 14.0 +/- 5.2% of KCl-induced constriction with argatroban). In contrast, both a 10- and a 100-fold lower concentration of PPACK (0.1-1 microM) prevented the thrombin-induced increase in tension. Thrombin-induced constriction therefore appeared to disclose mechanistic differences between the two thrombin inhibitors. Thrombin vasomotor actions were inhibited by argatroban, however, and this may contribute significantly to the therapeutic effect of argatroban.
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PMID:Argatroban and inhibition of the vasomotor actions of thrombin. 750 29


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