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:3.4.21.73 (urokinase-type plasminogen activator)
10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Barley serpin BSZx is a potent inhibitor of trypsin and chymotrypsin at overlapping reactive sites (Dahl, S.W., Rasmussen, S.K. and Hejgaard, J. (1996) J. Biol. Chem., in press). We have now investigated the interactions of BSZx with a range of serine proteinases from human plasma, pancreas and leukocytes, a fungal trypsin and three subtilisins. Thrombin, plasma kallikrein, factor VIIa/tissue factor and factor Xa were inhibited by BSZx at heparin independent association rates (k(ass)) of 4.5 X 10(3)-1.3 x 10(5) M(-1) s(-1) at 22 degrees C. Only factor Xa turned a significant fraction of BSZx over as substrate. Complexes of these proteinase with BSZx resisted boiling in SDS, and amino acid sequencing showed that cleavage in the reactive center loop only occurred after P1 Arg. Activated protein C and leukocyte elastase were slowly inhibited by BSZx (k(ass)=1-2 x 10(2) M(-1) s(-1)) whereas factor XIIa, urokinase and tissue type plasminogen activator, plasmin and pancreas kallikrein and elastase were not or only weakly affected. The inhibition pattern with mammalian proteinases reveal a specificity of BSZx similar to that of antithrombin III. Trypsin from Fusarium was not inhibited while interaction with subtilisin Carlsberg and Novo was rapid but most BSZx was cleaved as a substrate. Identification of a monoclonal antibody specific for native BSZx indicate that complex formation and loop cleavage result in similar conformational changes.
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PMID:Inhibition of coagulation factors by recombinant barley serpin BSZx. 884 56

The ability of unfractionated (UF) heparin and low-molecular-weight heparin (LMWH) to potentiate the inhibition of fibrinolytic and coagulation factors by protein C inhibitor (PCI) was studied. Inhibition of activated protein C (APC), urokinase plasminogen activator (uPA), tissue plasminogen activator (tPA), thrombin, factor Xa (Xa), factor XIa (XIa) and plasma kallikrein (KK) by PCI was found to be dependent on the size of the polysaccharide. In general, maximal stimulation was reached with UF heparin, except in the case of KK. Differences in heparin stimulation were more pronounced for thrombin, APC, uPA, tPA and XIa, whereas inactivation of Xa by PCI was less dependent on the presence of heparin, and kallikrein showed higher potentiation with LMWH than with UF heparin. The second-order rate constants for enzyme inhibition by PCI were strongly dependent on the ionic strength, and, in general, with an ionic strength higher than 0.15 the heparin stimulation of the inhibition reactions was drastically reduced. These results may explain the large discrepancies in the literature on the effect of heparin on the stimulation of enzyme inhibition by PCI. They also show that LMWH is less efficient in stimulating the PCI inhibition of APC, uPA and tPA, which could contribute to the antithrombotic effect of these enzymes.
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PMID:Heparin stimulation of the inhibition of activated protein C and other enzymes by human protein C inhibitor--influence of the molecular weightof heparin and ionic strength. 897 21

Human endothelial cells express thrombin receptors and PAR-2, the two known members of the family of protease-activated G protein-coupled receptors. Because previous studies have shown that the biology of the human thrombin receptor varies according to the cell in which it is expressed, we have taken advantage of the presence of both receptors in endothelial cells to examine the enabling and disabling interactions with candidate proteases likely to be encountered in and around the vascular space to compare the responses elicited by the two receptors when they are present in the same cell and to compare the mechanisms of thrombin receptor and PAR-2 clearance and replacement in a common cellular environment. Of the proteases that were tested, only trypsin activated both receptors. Cathepsin G, which disables thrombin receptors, had no effect on PAR-2, while urokinase, kallikrein, and coagulation factors IXa, Xa, XIa, and XIIa neither substantially activated nor noticeably disabled either receptor. Like thrombin receptors, activation of PAR-2 caused pertussis toxin-sensitive phospholipase C activation as well as activation of phospholipase A2, leading to the release of PGI2. Concurrent activation of both receptors caused a greater response than activation of either alone. It also abolished a subsequent response to the PAR-2 agonist peptide, SLIGRL, while only partially inhibiting the response to the agonist peptide, SFLLRN, which activates both receptors. After proteolytic or nonproteolytic activation, PAR-2, like thrombin receptors, was cleared from the endothelial cell surface and then rapidly replaced with new receptors by a process that does not require protein synthesis. Selective activation of either receptor had no effect on the clearance of the other. These results suggest that the expression of both thrombin receptors and PAR-2 on endothelial cells serves more to extend the range of proteases to which the cells can respond than it does to extend the range of potential responses. The results also show that proteases that can disable these receptors can distinguish between them, just as do most of the proteases that activate them. Finally, the residual response to SFLLRN after activation of thrombin receptors and PAR-2 raises the possibility that a third, as yet unidentified member of this family is expressed on endothelial cells, one that is activated by neither thrombin nor trypsin.
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PMID:Endothelial cell thrombin receptors and PAR-2. Two protease-activated receptors located in a single cellular environment. 911 Oct 10

Our work was undertaken to compare the relative efficiency of 2 purified prostatic kallikreins, namely, hK2 and prostate-specific antigen (PSA or hK3), in the activation of single-chain urokinase (scuPA). We found that hK2 converts scuPA into an active enzyme with an efficiency equal to approximately 1/50 that of plasmin. During the activation of scuPA by hK2, two fragments of 33 and 22 kDa were generated. The NH2-terminal amino acid sequence of the 33 kDa fragment showed that hK2 cleaved scuPA between Lys158 and Ile159. In contrast to a previous report by another group, our purified hK3 preparation containing no trypsin-like contaminants was totally unable to activate scuPA. Our results show that kallikrein hK2 has plasmin-like activity and suggest that it could be the initiator of a proteolytic cascade leading to prostatic cancer invasion.
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PMID:Prostatic kallikrein hK2, but not prostate-specific antigen (hK3), activates single-chain urokinase-type plasminogen activator. 918 Jan 62

In conclusion, a revised view of the contact system has been presented. This system has little to do with the initiation of hemostasis. Like lupus anticoagulants, deficiencies of contact proteins give prolonged APTTs but may be risk factors for thrombosis. BK from kininogens is a potent modulator of vascular biology inducing vasodilation, tissue plasminogen activator release, and prostacyclin liberation. Kininogens, themselves, are selective inhibitors of alpha-thrombin-induced platelet activation preventing alpha-thrombin from cleaving the cloned thrombin receptor after arginine41. Kininogens' alpha-thrombin inhibitory activity exists in intact kininogens, BK, and all of BK's breakdown products. HK also is the pivotal protein for contact protein assembly on endothelium. It is the receptor for prekallikrein which when bound to HK becomes activated to kallikrein by an endothelial cell enzyme system independent of activated forms of plasma factor XII. Prekallikrein activation on endothelial cells results in kinetically favorable single chain urokinase and plasminogen activation. Thus the "physiologic, negatively charged surface" for contact system activation is really the assembly of these proteins on cell membranes and activation by membrane-associated enzymes.
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PMID:Contact activation: a revision. 919 36

A sequence of 31 amino acids (S565-K595) in domain 6 of the light chain of high molecular weight kininogen (HK) has previously been shown to be responsible for the binding of plasma prekallikrein (PK) or kallikrein. To find effective peptides that might block binding between HK and PK on cell surfaces, a new series of synthetic peptides has now been prepared that incorporates portions of this binding domain sequence. For mapping the minimal sequence within HK, these new peptides were tested for their ability to compete with HK for binding PK in a cell-free system and on human umbilical vein endothelial cells (HUVEC). In the former, at pH 7.4, the kds for binding between kallikrein and either D567-K595, S565-P594, D567-S593, or D567-T591 were all similar to that for the binding of S565-K595 (0.2 to 0.4 micromol/L), but those for the binding of D568-K595, W569-K595, and D567-P589 were an order of magnitude greater (kd = 2 to 5 micromol/L). D567-S586, the shortest chain length of the N- and C-terminal truncation sequences tested, does not effectively compete with kininogen for kallikrein binding (kd = 100 micromol/L). These results imply that D567-T591, a 25-residue peptide (HK25c), contains sufficient structural information for binding kallikrein in solution. D567-T591 also is the minimum structural sequence to block binding of kallikrein to HUVEC-bound HK (IC50 = 50 nmol/L) and to inhibit PK activation to kallikrein on the cell surface (IC50 = 80 nmol/ L). In addition, D567-T591 also inhibits the generation of kallikrein-activated urokinase, which activates plasminogen to plasmin (IC50 = 100 nmol/L). Thus, HK-derived peptides may be useful compounds for modulating excessive fibrinolysis and hypotension in sepsis and multiple trauma.
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PMID:High molecular weight kininogen peptides inhibit the formation of kallikrein on endothelial cell surfaces and subsequent urokinase-dependent plasmin formation. 922 69

HK31 (S565-K595) has previously been shown to encompass the binding domain for plasma prekallikrein (PK) within domain 6 of high molecular weight kininogen (HK). The complementary binding domain for HK within PK is mapped to PK56 (F56-G86), in the Apple 1 domain and to PK266 (K266-C295) in the Apple 4 domain. Isothermal titration calorimetry demonstrated that either PK peptide binds to HK31 in 1:1 stoichiometry. Binding of the alternate PK peptide into a ternary complex is facilitated nearly 2-fold. Fluorescence emission spectroscopy revealed that only the binding of PK56 caused a limited decrease in intrinsic tryptophane fluorescence emission intensity of HK31. We conclude that the two PK peptides bind to the HK peptide at different sites. To map the minimal sequence within HK31, truncated new peptides were tested for their ability to compete with HK for binding PK in a cell-free system. D567-T591, a 25-residue peptide which contains sufficient structural information for binding kallikrein in solution, blocked the binding of kallikrein to HK bound to endothelial cells and inhibited PK activation to kallikrein and the generation of kallikrein-activated urokinase on endothelial cell surfaces. HK-derived peptides could modulate excessive fibrinolysis and hypotension in sepsis and multiple trauma.
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PMID:Physical and biological significance of peptide sequences mediating the interaction between high molecular weight kininogen and plasma prekallikrein. 922 46

The urokinase receptor (uPAR) binds urokinase-type plasminogen activator (u-PA) through specific interactions with uPAR domain 1, and vitronectin through interactions with a site within uPAR domains 2 and 3. These interactions promote the expression of cell surface plasminogen activator activity and cellular adhesion to vitronectin, respectively. High molecular weight kininogen (HK) also stimulates the expression of cell surface plasminogen activator activity through its ability to serve as an acquired receptor for prekallikrein, which, after its activation, may directly activate prourokinase. Here, we report that binding of the cleaved form of HK (HKa) to human umbilical vein endothelial cells (HUVEC) is mediated through zinc-dependent interactions with uPAR. These occur through a site within uPAR domains 2 and 3, since the binding of 125I-HKa to HUVEC is inhibited by vitronectin, anti-uPAR domain 2 and 3 antibodies and soluble, recombinant uPAR (suPAR), but not by antibody 7E3, which recognizes the beta chain of the endothelial cell vitronectin receptor (integrin alphavbeta3), or fibrinogen, another alphavbeta3 ligand. We also demonstrate the formation of a zinc-dependent complex between suPAR and HKa. Interactions of HKa with endothelial cell uPAR may underlie its ability to promote kallikrein-dependent cell surface plasmin generation, and also explain, in part, its antiadhesive properties.
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PMID:Binding of high molecular weight kininogen to human endothelial cells is mediated via a site within domains 2 and 3 of the urokinase receptor. 929 14

The non-specific serine-protease inhibitor protein-C inhibitor (PCI) inactivates its target enzymes by forming stable 1:1 complexes. Heparin stimulates most PCI/protease reactions, but interferes with the inhibition of tissue kallikrein by PCI by a hitherto unknown mechanism. In this study we analyzed the inhibitory effect of heparin on the tissue-kallikrein-PCI interaction. Free PCI and tissue-kallikrein x PCI complexes but not free tissue kallikrein bound to heparin-Sepharose, implying that the inhibitory effect of heparin cannot be caused by a tissue-kallikrein-heparin interaction. Heparin did not dissociate tissue-kallikrein x PCI complexes, making it unlikely that in the presence of heparin PCI becomes a substrate for, rather than an inhibitor of, tissue kallikrein. However, heparin-bound PCI, which was able to form complexes with 125I-urokinase, did not form complexes with 125I-tissue-kallikrein. This suggests that the inhibitory effect of heparin is either based on the neutralization of positive charges in the PCI molecule, which might be required for the interaction of PCI with the acidic protease tissue kallikrein, or on a change in reactivity of PCI upon heparin binding, making heparin-bound PCI no longer a tissue-kallikrein inhibitor. Neutralization of basic amino acids in the PCI molecule by glutamic acid, which prevented in a dose-dependent way the inhibitory effect of heparin, did not have any effect on the tissue-kallikrein-PCI interaction. Therefore, direct involvement of basic amino acid residues present in the heparin-binding site of PCI in the tissue-kallikrein-PCI interaction can be excluded. Heparin binding might rather cause a change in reactivity of PCI (e.g. by inducing a conformational change or by steric interference), thereby preventing its interaction with tissue kallikrein.
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PMID:Heparin binding of protein-C inhibitor--analysis of the effect of heparin on the interaction of protein-C inhibitor with tissue kallikrein. 934 5

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


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