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)

A new rat model for investigation of the interactions of thrombin inhibitors with endogenous fibrinolysis in vivo is described. The method utilizes the thrombin-like snake enzyme batroxobin, which mainly cleaves the fibrinopeptide A from fibrinogen and activates factor XIII only to a slight degree. Compared to thrombin-formed fibrin, batroxobin-formed fibrin is more readily lysed by plasmin, since it only cross-links fibrin to a minor extent. Radiolabeled fibrinogen (125I) was given intravenously to monitor the effects of batroxobin on fibrinogen and the effects of plasmin on the fibrin formed. Batroxobin was given intravenously in a dose that converted most fibrinogen to fibrin. Five to 10 minutes after batroxobin administration, 125I-activity in the blood decreased, indicating the disappearance of fibrinogen from the circulating blood. At the same time, the 125I activity as measured with a gamma counter increased over the lungs. The fibrin formed in the microvasculature of the lungs started an endogenous fibrinolysis. This could be seen as reappearance of the 125I activity in the blood from fibrin degradation products accompanied by a decrease in the 125I activity over the lungs. When the rats were given tranexamic acid, the endogenous fibrinolysis was markedly decreased, measured as 125I activity in the blood, over the lungs and in lung parenchyma samples. The thrombin inhibitor DuP 714, which apparently inhibits not only thrombin but also plasmin and tissue plasminogen activator, completely prevented the fibrinolytic phase. The selective thrombin inhibitor argatroban, on the other hand, led to shortened lysis time. It is concluded that the present method provides a convenient and accurate means of studying pharmacological interventions with endogenous fibrinolysis. The differential effects of selective and nonselective thrombin inhibitors on endogenous fibrinolysis at comparable levels of thrombin inhibition are clearly demonstrated.
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PMID:New model for in vivo studies of pharmacological interventions with endogenous fibrinolysis: effects of thrombin inhibitors. 894 18

A cDNA encoding of the serine proteinase inhibitor (serpin), B-43, was cloned from the cDNA library of the bovine brain. It encoded 378 amino acids, and the MW of the protein was estimated to be 42.6 kDa, which is consistent with that of the native B-43 purified from the bovine brain. The homology search revealed that B-43 belongs to the ovalbumin branch of the serpin superfamily. Among them, B-43 was most homologous to human placental thrombin inhibitor (PI-6) and its murine counterpart, with the amino acid identity of 76% and 71%, respectively. Northern blot analysis showed that the size of the transcript was 1.4 kb, and that the expression of B-43 in the bovine brain varied depending on the brain regions, i.e. a lower level of expression was observed in the cerebral cortex and the hippocampus compared to the level of expression that was observed in the medulla oblongata. [35S]-labeled B-43 protein was synthesized in vitro by using a rabbit reticulocyte lysate system, which formed complexes with proteinases such as thrombin, trypsin, alpha-chymotrypsin, and 7S nerve growth factor (NGF), but not with urokinase or plasmin. These results, together with the immunohistochemical localization of B-43 in astrocytes and in some neurons which was observed in the previous study suggest that B-43 may be involved in the regulation of serine proteinases present in the brain or extravasated from the blood.
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PMID:Cloning of a serine proteinase inhibitor from bovine brain: expression in the brain and characterization of its target proteinases. 901 86

The effects of thrombin on adenylyl cyclase activity were examined in rat adrenal medullary microvascular endothelial cells (RAMEC). Confluent RAMEC monolayers were stimulated for 5 min with cAMP-generating agents in the absence and presence of thrombin, and intracellular cAMP was measured with a radioligand binding assay. Thrombin (0.001-0.25 U/ml) dose-dependently inhibited IBMX-, isoproterenol- and forskolin-stimulated cAMP accumulation. A peptide agonist of the thrombin receptor, gamma-thrombin, and the serine proteases trypsin and plasmin, also inhibited agonist-stimulated cAMP levels, while proteolytically inactive PPACK- or DIP-alpha-thrombins were without effect. Moreover, the thrombin inhibitor hirudin abolished the inhibitory effect of thrombin but not of the peptide agonist. These results suggest that the inhibitory action of thrombin on cAMP accumulation is mediated by a proteolytically-activated thrombin receptor. The inhibitor of G(i)-proteins pertussis toxin abolished the inhibitory effect of thrombin on isoproterenol- or IBMX-stimulated cAMP production, while the phorbol ester PMA partly impaired it. The protein kinase C inhibitors staurosporine or H7 and the intracellular Ca2+ chelator BAPTA-AM were without effect. Collectively, our data suggest that the thrombin receptor in RAMEC is negatively coupled to adenylyl cyclase through a pertussis toxin-sensitive G(i)-protein.
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PMID:The thrombin receptor in adrenal medullary microvascular endothelial cells is negatively coupled to adenylyl cyclase through a Gi protein. 919 75

Lung epithelial cells (A549) synthesize and secrete fibrinogen (FBG) in vitro when stimulated with interleukin-6 and dexamethasone. This FBG secretion is polarized in the basolateral direction, suggesting that FBG is a component of the extracellular matrix (ECM). Immunofluorescent staining of A549 cells showed a fibrillar pattern of FBG, similar to the staining detected using antibodies against the matrix constituents, collagen type IV and fibronectin (FN). The same pattern of staining was detected using antibodies against fibrinopeptides A and B, as well as with the T2G1 monoclonal antibody against the fibrin-specific epitope, beta15-21. Matrix staining was unaltered in the presence of the thrombin inhibitor, hirudin, or the plasmin inhibitor, aprotinin, consistent with the interpretation that matrix deposition of FBG does not require such enzymatic action. Metabolic labeling studies confirmed that FBG secreted from A549 cells or deposited into the ECM showed no evidence of thrombin or plasmin proteolytic processing or of transglutaminase-mediated covalent cross-linking (gamma-gamma dimers or alpha-polymers). Incubation of either A549 cell-derived or purified plasma FBG with cultures of human foreskin fibroblasts resulted in FBG deposition in the ECM that colocalized with matrix fibrils containing endogenously produced FN and laminin (LN). Binding of FBG to this exogenously produced matrix was unaltered by inhibition of thrombin and plasmin action, yet also exhibited exposure of the fibrin-specific epitope, beta15-21. The majority (approximately 70%) of newly synthesized and secreted FBG is bound to the cell surface as determined by its trypsin-sensitivity. Cell surface-bound FBG is initially deoxycholate-soluble, which, over time, becomes incorporated in the deoxycholate-insoluble ECM in a similar fashion to FN. These data suggest that matrix incorporation requires the binding of secreted FBG to cell-associated matrix assembly sites. However, unlike FN, FBG in the ECM is composed of the dimeric protamer (A alpha/B beta/gamma gamma) and not high molecular weight polymers indicative of fibrin. This study provides evidence that deposition of FBG in both endogenous and exogenously produced matrices results in conformational changes that occur independently of thrombin cleavage. This matrix-bound FBG, on which unique cell-reactive domains are likely exposed, could augment cellular response mechanisms evoked during injury and inflammation.
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PMID:Thrombin cleavage-independent deposition of fibrinogen in extracellular matrices. 932 31

Using enzymatic microassays, the potency of a series of new boroarginine tripeptides was determined versus thrombin and a panel of serine-proteases implicated in the coagulation and fibrinolysis pathways. The inhibition of the serine-protease complement factor I was also studied. Factor I regulates the alternate pathway of the complement and its inhibition appears to be responsible for the toxic effects of the orally available thrombin inhibitor Ac-D-Phe-Pro-boroArg (DuP-714). The structure of the new boronic acid derivatives tested was modified from that of DuP-714 by replacing the proline in the P2 position by N-cycloalkyl-glycine residues of increasing size (S18989: cyclopropyl; S18563: cyclobutyl; S18326: cyclopentyl; S18229: cyclohexyl). All compounds were found to be slow-tight binding inhibitors of thrombin versus purified human fibrinogen. Replacement of proline by N-cycloalkyl-glycines did not decrease the anti-thrombin potency of the substances up to the cyclopentyl size and this result was confirmed by classical coagulation assays with human plasma in vitro. In contrast, the inhibitory activities of the four new boronic acids were found to be lower than those of DuP-714 versus plasmin, urokinase (u-PA), plasmatic kallikrein, activated protein C (aPC) and complement factor I. The cyclopentyl derivative S18326 is a slightly more active inhibitor of thrombin than DuP-714 (initial IC50 values 3.99 +/- 0.18 nM versus 4.73 +/- 0.27 nM, respectively). Moreover S18326 was identified as the most selective compound of the series with relative potencies being 2 to 29 fold higher than that of DuP-714 versus the panel of serine-proteases tested; the rank order of potency versus the other serine-proteases for S18326 was t-PA>kallikrein>aPC>factor I>plasmin>fXa>u-PA. These results indicate that the size of the thrombin hydrophobic pocket S2 is sufficient to accept larger residues than proline in the P2 position of Ac-D-Phe-X-boroArg derivatives while this is not the case for other important serine-proteases of the fibrinolysis, coagulation and complement pathways. The N-cyclopentyl glycine containing derivative S 18326, which is the most potent and the most selective anti-thrombin compound of the series, currently undergoes major preclinical testing.
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PMID:Selection of S18326 as a new potent and selective boronic acid direct thrombin inhibitor. 936 88

Activated protein C (APC) is a potent physiologic anticoagulant with profibrinolytic properties, and has been shown to prevent thrombosis in different experimental models. We investigated the effect of human APC on thrombin-induced thromboembolism in mice, a model of acute intravascular fibrin deposition leading to death within minutes. APC given intravenously (i.v.) as a bolus 2 min before thrombin challenge (1,250 U/kg) reduced mortality in a dose-dependent manner despite the lack of thrombin inhibitor activity. Significant inhibition of thrombin-induced death was observed at the dose of 0.05 mg/kg, and maximal protection was obtained with 2 mg/kg (> 85% reduction in mortality rate). Histology of lung tissue revealed that APC treatment (2 mg/kg) reduced significantly vascular occlusion rate (from 89.2 to 46.6%, P < 0.01). The protective effect of APC was due to the inhibition of endogenous thrombin formation as indicated by the fact that (a) the injection of human thrombin caused a marked decrease in the coagulation factors of the intrinsic and common pathways (but not of Factor VII), suggesting the activation of blood clotting via the contact system; (b) APC pretreatment reduced markedly prothrombin consumption; (c) the lethal effect of thrombin was almost abolished when the animals were made deficient in vitamin K-dependent factors by warfarin treatment, and could be restored only by doubling the dose of thrombin, indicating that the generation of endogenous thrombin contributes significantly to death; and (d) APC failed to protect warfarin-treated animals, in which mortality is entirely due to injected thrombin, even after protein S supplementation. Other results suggest that APC protects from thrombin-induced thromboembolism by rendering the formed fibrin more susceptible to plasmin degradation rather than by reducing fibrin formation: in thrombin-treated mice, fibrinogen consumption was not inhibited by APC; and inhibition of endogenous fibrinolysis by epsilon-aminocaproic or tranexamic acid resulted in a significant reduction of the protective effect of APC. Since APC did not enhance plasma fibrinolytic activity, as assessed by the measurement of plasminogen activator (PA) or PA inhibitor (PAI) activities, PAI-1 antigen, or 125I-fibrin degrading activity, we speculate that the inhibition of additional (endogenous) thrombin formation by APC interrupts thrombin-dependent mechanisms that make fibrin clots more resistant to lysis, so that the intravascular deposited fibrin can be removed more rapidly by the endogenous fibrinolytic system.
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PMID:Activated human protein C prevents thrombin-induced thromboembolism in mice. Evidence that activated protein c reduces intravascular fibrin accumulation through the inhibition of additional thrombin generation. 944 1

A short history of the research work of S. Okamoto and co-workers, for the previous 50 years, is briefly described. In the 1950s, when the physiologic role of fibrinolysis had not been established, they began to seek for compounds that inhibit the action of plasmin. They examined approximately 200 lysine derivatives and discovered epsilon aminocaproic acid (EACA) and tranexamic acid (t-AMCHA). In the 1970s, we selected thrombin as the target enzyme to be controlled; structure-activity relationship studies, taking arginine as the skeleton structure, led to the discovery of the selective thrombin inhibitor No. 205 (4-ethyl-1-[N2-(5-dimethylamino-1-naphthalenesulfonyl)-L-arginyl]- 1-piperidine), and further attempts to minimize the toxicity finally led to No. 805 (argatroban, MD-805, (2R,4R)-4-methyl-1-(N2-[(3-methyl-1,2,3,4-tetrahydro-8-quinolinyl)-sulfo nyl]-L-arginyl)-2-piperidine carboxylic acid). Argatroban, without any cofactor, inhibits thrombin competitively. The high selectivity of the action of argatroban is promising for treating thrombosis in clinical practice. More recently, taking advantage of our knowledge obtained through previous studies, active center-directed plasmin inhibitors and a selective inhibitor of kallikrein have been found.
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PMID:Enzyme-controlling medicines: introduction. 946 21

The association between cancer and hypercoagulability states is well known. It usually presents as a complication of gastrointestinal tract adenocarcinomas. We present the case of patient diagnosed of prostatic adenocarcinoma who was admitted because of pain and inflammation in the left side of the neck. The ultrasound study showed a jugular vein thrombosis. In the bibliographic review (MEDLINE 1990-1995), we have not found any similar reports Jugular vein thrombosis is a rare complication and usually is secondary to central vein catheter insertion, although it has been also described with ovarian hyperstimulation syndrome, infections, head and neck tumors and rarely in other neoplastic diseases. The physiopathologic process is not well known, although it is known that neoplastic cells interact with the thrombin and plasmin generating systems and that there is also a decrease in coagulation inhibitors, all of which leads to prothrombin activation in the absence of the corresponding increases in thrombin inhibitor complexes.
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PMID:[Jugular thrombosis and adenocarcinoma of the prostate: a state of hypercoagulability?]. 1068 25

The plasminogen activator staphylokinase (SAK) is a promising thrombolytic agent for treatment of myocardial infarction. It can specifically stimulate the thrombolysis of both erythrocyte-rich and platelet-rich clots. However, SAK lacks fibrin-binding and thrombin inhibitor activities, two functions which would supplement and potentially improve its thrombolytic potency. Creating a recombinant fusion protein is one approach for combining protein domains with complementary functions. To evaluate SAK for use in a translational fusion protein, both N- and C-terminal fusions to SAK were constructed by using hirudin as a fusion partner. Recombinant fusion proteins were secreted from Bacillus subtilis and purified from culture supernatants. The rate of plasminogen activation by SAK was not altered by the presence of an additional N- or C-terminal protein sequence. However, cleavage at N-terminal lysines within SAK rendered the N-terminal fusion unstable in the presence of plasmin. The results of site-directed mutagenesis of lysine 10 and lysine 11 in SAK suggested that a plasmin-resistant variant cannot be created without interfering with the plasmin processing necessary for activation of SAK. Although putative plasmin cleavage sites are located at the C-terminal end of SAK at lysine 135 and lysine 136, these sites were resistant to plasmin cleavage in vitro. Therefore, C-terminal fusions represent stable configurations for developing improved thrombolytic agents based on SAK as the plasminogen activator component.
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PMID:Staphylokinase as a plasminogen activator component in recombinant fusion proteins. 992 75

Based on the structural comparison of the S-1 pocket in different trypsin-like serine proteases, a series of Boc-D-trimethylsilylalanine-proline-boro-X pinanediol derivatives, with boro-X being different amino boronic acids, have been synthesised as inhibitors of thrombin. The influence of hydrogen donor/acceptor properties of different residues in the P-1 side chain of these inhibitors on the selectivity profile has been investigated. This study confirmed the structure-based working hypothesis: The hydrophobic/hydrophilic character of amino acid residues 190 and 213 in the neighbourhood of Asp 189 in the S-1 pocket of thrombin (Ala/Val), trypsin (Ser/Val) and plasmin (Ser/Thr) define the specificity for the interaction with different P-1 residues of the inhibitors. Many of the synthesised compounds demonstrate potent antithrombin activity with Boc-D-trimethylsilylalanine-proline-boro-methoxypropylglycine++ + pinanediol (9) being the most selective thrombin inhibitor of this series.
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PMID:Design, synthesis and biological evaluation of selective boron-containing thrombin inhibitors. 1046 5


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