Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
 10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thromboembolism frequently complicates gastric cancer. This study examined the solid phase interaction between gastric cancer and coagulation proteins in situ that may explain coagulation activation and that may contribute to tumor progression and angiogenesis in this tumor type. Immunohistochemical techniques were applied to tissues from 37 cases of adenocarcinoma of the stomach obtained at surgical resection. Fibrinogen was present throughout the tumor stroma. Fibrin and its D-dimer cross-link sites occurred at the host-tumor interface. Subunit "a" of factor (F) XIII and F VII, IX, X, and XII were observed on cancer cells. Prothrombin and prothrombin fragment F1+2 (F1+2) were demonstrated in the tumor stroma on cancer cells and on small blood vessels. Tissue factor (TF) was present on cancer cells and tumor-associated macrophages. Protein C was observed on cancer cells and small blood vessels, whereas protein S was present only in the vascular bed. There was no staining for tissue factor pathway inhibitor (TFPI). High-molecular-weight (HMW) urokinase plasminogen activator (u-PA) antigen was not detected, but weak and inconsistent staining for low-molecular-weight (LMW) u-PA was demonstrated on cancer cells. Weak staining for tissue plasminogen activator (t-PA) occurred on cancer cells and in the tumor stroma. In contrast, plasminogen activator inhibitor-1 (PAI-1) expression was strong in the tumor stroma, along with PAI-2 and PAI-3. The endothelium of small stromal blood vessels, particularly near the host-tumor interface, demonstrated von Willebrand factor antigen (vWF Ag). Vascular endothelial growth factor (VEGF) was present on cancer cells and stromal macrophages. These results demonstrate tumor cell-associated TF-dependent extravascular coagulation activation in situ in gastric cancer that does not appear to be counterbalanced by TFPI or sufficient fibrinolytic activity. Colocalization of VEGF with hemostatic proteins suggests that they may cooperate in the pathogenesis of gastric cancer.
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PMID:Tissue factor-dependent coagulation activation and impaired fibrinolysis in situ in gastric cancer. 1288 33

Plasminogen activators (PAs) and their inhibitors (PAIs) are predicted to be involved in the restructuring events that characterize the testis throughout development. We here demonstrate that PAI-3 or protein C (PC) inhibitor (PCI) was expressed in a sexually dimorphic fashion during mouse gonad genesis, whereas PAI-1 and -2 exhibited no sex differences. PCI transcripts accumulated rapidly in the male gonad, from 12.5 d postcoitum onward. Western blot and immunohistochemistry analyses confirmed that male, but not female, fetal gonads produced PCI, and that Leydig cells are the site of PCI synthesis. The occurrence of testicular target proteases for PCI, i.e. PC and urokinase- and tissue-type PA, was further tracked using RT-PCR, plasminogen zymography, and/or immunohistochemistry. PC and tissue-type PA showed no variation between sexes. By contrast, urokinase-type PA and its receptor (uPAR; which dictates the site and extent of proteolysis) exhibited sex differences from 13.5-14.5 d postcoitum. At that time, uPAR expression was restricted to Leydig cells. At earlier ages, uPAR was uniformly and widely distributed in the gonads of both sexes. In adult testes, PCI and uPAR immunoreactivities were also present in Leydig cells. In addition, PCI, PC, and uPAR had a germinal origin. Collectively, these results support the hypothesis that PCI may contribute to proteolysis equilibrium within the testis by acting in tandem with urokinase in Leydig cells and with PC and/or urokinase in spermatogenic cells. It will be important to determine how this role is linked to the phenotype of sterility reported elsewhere in male mice with pci deleted.
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PMID:Evidence for similar expression of protein C inhibitor and the urokinase-type plasminogen activator system during mouse testis development. 1464 12

Protein C inhibitor (PCI), a member of the serine protease inhibitor family, is produced in various human tissues, including the liver, kidney and testis. In addition to inhibiting the anticoagulant protein C pathway, PCI also inhibits urinary plasminogen activator (uPA), which is a well-known mediator of tumor cell invasion. In the present study, to clarify the biologic significance of PCI in the kidney, we compared the expression of PCI between human renal cell carcinoma (RCC) tissue and nontumor kidney tissue. The PCI antigen level in RCC tissue was found to be significantly lower than in nontumor kidney tissue, and expression of PCI mRNA was detected in normal renal proximal tubular epithelial cells (RPTEC), but not in RCC or in an RCC cell line (Caki-1 cells). No differences were detected between the nucleotide sequence of the major cis-elements in the promoter region of the PCI gene from nontumor kidney and RCC tissues, RPTEC and Caki-1 cells, an RPTEC-derived RCC cell line. The in vitro invasiveness of Caki-1 cells transfected with a PCI expression vector was significantly decreased compared to mock-transfected Caki-1 cells, and it was blocked in the presence of anti-PCI antibody. Since PCI itself did not affect the proliferation rate of Caki-1 cells or cell expression of uPA in vitro, the effect of uPA, PCI, heat-inactivated PCI and plasminogen activator inhibitor (PAI)-1 on the invasive potential of cultured RCC cells was evaluated. The in vitro invasiveness of Caki-1 cells, which express uPA, was significantly enhanced by the addition of uPA, and it was inhibited by anti-uPA antibody, PCI and PAI-1, but not by heat-inactivated PCI. In addition, uPA activity was significantly decreased and uPA-PCI complex level was significantly increased in the culture medium of PCI expression vector-transfected Caki-1 cells as compared to mock-transfected Caki-1 cells. These findings strongly suggest that PCI regulates the invasive potential of RCC cells by inhibiting uPA secreted by these cells. The results of our study suggest that PCI might be a potential therapeutic agent for inhibiting renal tumor invasion.
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PMID:Regulation of carcinoma cell invasion by protein C inhibitor whose expression is decreased in renal cell carcinoma. 1469 15

The serine protease tryptase has been associated with a broad range of allergic and inflammatory diseases and, in particular, has been implicated as a critical mediator of asthma. The inhibition of tryptase therefore has the potential to be a valuable therapy for asthma. The synthesis, employing solution phase parallel methods, and SAR of a series of novel 2-azepanone tryptase inhibitors are presented. A member of this series, 8t, was identified as a potent inhibitor of human tryptase (IC(50)=38 nM) with selectivity >/=330-fold versus related serine proteases (trypsin, plasmin, uPA, tPA, APC, alpha-thrombin, and FXa) [corrected].
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PMID:Synthesis of potent and selective 2-azepanone inhibitors of human tryptase. 1469 47

We isolated a novel protease that converts plasminogen to angiostatin-like fragments (BL-angiostatins) from a culture of Bacillus megaterium A9542 through a single-step chromatography on CM-cellulose. The protease, designated bacillolysin MA (BL-MA), belongs to a family of neutral metalloproteinases based on the nucleotide sequence of its gene. At an enzyme:substrate ratio of 1:540, BL-MA cleaved human plasminogen mainly at Ser441-Val442 to form BL-angiostatin and miniplasminogen with a K(m) of 3.0 +/- 0.8 microM and a k(cat) of 0.70 +/- 0.09 s(-1). The resulting BL-angiostatins inhibited the proliferation, migration, and tube formation of vascular endothelial cells at concentrations of 1-10 microg/ml. Although BL-MA failed to activate plasminogen, it increased urokinase-catalyzed activation of plasminogen caused by production of miniplasminogen, which is highly susceptible to activation. In addition, BL-MA was active in converting prourokinase, prothrombin, coagulation factor X, and protein C to their active forms. BL-MA enhanced both the clotting of human plasma and clot dissolution in the presence of prourokinase. Thus, BL-MA affects blood coagulation and fibrinolysis systems and can be used to produce angiostatin-like plasminogen fragments and active serine proteases of human plasma.
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PMID:Bacillolysin MA, a novel bacterial metalloproteinase that produces angiostatin-like fragments from plasminogen and activates protease zymogens in the coagulation and fibrinolysis systems. 1567 46

The serine protease inhibitor (serpin) protein C inhibitor (PCI; also named plasminogen activator inhibitor-3) regulates serine proteases in hemostasis, fibrinolysis, and reproduction. The biochemical activity of PCI is not fully defined partly due to the lack of a convenient expression system for active rPCI. Using pET-15b plasmid, Ni(2+)-chelate and heparin-Sepharose affinity chromatography steps, we describe here the expression, purification and characterization of wild-type recombinant (wt-rPCI) and two inactive mutants, R354A (P1 residue) and T341R (P14 residue), expressed in Escherichia coli. Wild-type rPCI, but not the two mutants, formed a stable bimolecular complex with thrombin, activated protein C and urokinase. In the absence of heparin, wt-rPCI-thrombin, -activated protein C, and -urokinase inhibition rates were 56.7, 3.4, and 2.3 x 10(4) M(-1) min(-1), respectively, and the inhibition rates were accelerated 25-, 71-, and 265-fold in the presence of 10 mug/mL heparin for each respective inhibition reaction. The stoichiometry of inhibition (SI) for wt-rPCI-thrombin was 2.0, which is comparable to plasma-derived PCI. The present report describes for the first time the expression and characterization of recombinant PCI in a bacterial expression system and demonstrates the feasibility of using this system to obtain adequate amounts of biologically active rPCI for future structure-function studies.
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PMID:Characterization of recombinant human protein C inhibitor expressed in Escherichia coli. 1575 93

Thrombin inhibitors are potentially useful in medicine for their anticoagulant and antithrombotic effects. We synthesized and evaluated diverse heterocycle-activated ketones based on the d-Phe-Pro-Arg, and related thrombin active-site recognition motifs, as candidate inhibitors. The peptide-based alpha-ketoheterocycles were typically prepared by either an imidate or a Weinreb amide route (Schemes 1 and 2), the latter of which proved to be more general. Test compounds were generally assayed for inhibition of human alpha-thrombin and bovine trypsin. From a structure-based design standpoint, the heterocycle allows one to explore and adjust interactions within the S1' subsite of thrombin. The preferred alpha-ketoheterocycle is a pi-rich 2-substituted azole with at least two heteroatoms proximal to the carbon bearing the keto group, and a preferred thrombin inhibitor is 2-ketobenzothiazole 3, with a potent K(i) value of 0.2 nM and ca. 15-fold selectivity over trypsin. 2-Ketobenzothiazole 13 exhibited exceedingly potent thrombin inhibition (K(i) = 0.000 65 nM; slow tight binding). Several alpha-ketoheterocycles had thrombin K(i) values in the range 0.1-400 nM. The "Arg" unit in the alpha-ketoheterocycles can be sensitive to stereomutation under mildy basic conditions. For example, 2-ketothiazoles 4 and 59 readily epimerize at pH 7.4, although they are fairly stable stereochemically at pH 3-4; thus, suitable conditions had to be selected for the enzymatic assays. Lead d-Phe-Pro-Arg 2-benzothiazoles 3, 4, and 68 displayed good selectivity for thrombin over other key coagulation enzymes (e.g., factor Xa, plasmin, protein Ca, uPA, tPA, and streptokinase); however, their selectivity for thrombin over trypsin was modest (<25-fold). Compounds 3, 4, and 68 exhibited potent in vitro antithrombotic activity as measured by inhibition of gel-filtered platelet aggregation induced by alpha-thrombin (IC(50) = 30-40 nM). They also proved to be potent anticoagulant/antithrombotic agents in vivo on intravenous administration, as determined in the canine arteriovenous shunt (ED(50) = 0.45-0.65 mg/kg) and the rabbit deep vein thrombosis (ED(50) = 0.1-0.4 mg/kg) models. Intravenous administration of 3, and several analogues, to guinea pigs caused hypotension and electrocardiogram abnormalities. Such cardiovascular side effects were also observed with some nonguanidine inhibitors and inhibitors having recognition motifs other than d-Phe-Pro-Arg. 2-Benzothiazolecarboxylates 4 and 68 exhibited significantly diminished cardiovascular side effects, and benzothiazolecarboxylic acid 4 had the best profile with respect to therapeutic index. The X-ray crystal structures of the ternary complexes 3-thrombin-hirugen and 4-thrombin-hirugen depict novel interactions in the S(1)' region, with the benzothiazole ring forming a hydrogen bond with His-57 and an aromatic stacking interaction with Trp-60D of thrombin's insertion loop. The benzothiazole ring of 3 displaces the Lys-60F side chain into a U-shaped gauche conformation, whereas the benzothiazole carboxylate of 4 forms a salt bridge with the side chain of Lys-60F such that it adopts an extended anti conformation. Since 3 has a 10-fold greater affinity for thrombin than does 4, any increase in binding energy resulting from this salt bridge is apparently offset by perturbations across the enzyme (viz. Figure 4). The increased affinity and selectivity of 2-ketobenzothiazole inhibitors, such as 3, may be primarily due to the aromatic stacking interaction with Trp-60D. However, energy contour calculations with the computer program GRID also indicate a favorable interaction between the benzothiazole sulfur atom and a hydrophobic patch on the surface of thrombin.
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PMID:In-depth study of tripeptide-based alpha-ketoheterocycles as inhibitors of thrombin. Effective utilization of the S1' subsite and its implications to structure-based drug design. 1577 42

Blood coagulation is essential to maintain hemostasis in organisms with a vascular network. Formation of a fibrin-rich clot at a site of vessel injury is a highly complex process that is orchestrated by the coagulation protease cascade. This cascade is regulated by 3 major anticoagulant pathways. Removal of a clot is mediated by the fibrinolytic system. Defects in the regulation of clot formation lead to either hemorrhage or thrombosis. Tissue factor, the primary cellular initiator of blood coagulation, is a transmembrane receptor that is expressed in a tissue-specific manner. The 3 major anticoagulants are tissue factor pathway inhibitor, antithrombin, and protein C, the latter requiring a transmembrane receptor called thrombomodulin for its activation. Tissue factor pathway inhibitor and thrombomodulin are expressed by endothelial cells in a tissue-specific manner, whereas antithrombin and protein C circulate in the plasma. Fibrinolysis requires the activation of plasminogen to plasmin, which is mediated by tissue-type plasminogen activator and urokinase-type plasminogen activator. Interestingly, tissue-type plasminogen activator is expressed by a subset of endothelial cells of discrete size and location. These observations, together with the phenotypes of mice that have defects in the procoagulant, anticoagulant, and fibrinolytic pathways, indicate that hemostasis is regulated in a tissue-specific manner.
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PMID:Tissue-specific hemostasis in mice. 1612 18

A microarray presenting glycerol nanodroplets of fluorogenic peptide substrates was used as a biosensor for the detection of multiple enzyme activities within human plasma. Using 10 different plasma proteases (kallikrein, factor XIIa, factor XIa, factor IXa, factor VIIa, factor Xa, thrombin, activated protein C, uPA and plasmin) and a 361-compound fluorogenic substrate library (Ac-Ala-P3-P2-Arg-coumarin for P = all amino acids except Cys), a database was created for deconvoluting the relative activity of each individual enzyme signal in human plasma treated with various activators (calcium, kaolin, or uPA). Three separate deconvolution protocols were tested: searching for "optimal" sensing substrate sequences for a set of 5 enzymes and using these substrates to detect protease signals in plasma; ranking the "optimal" sensing substrates for 10 proteases using local error minimization, resulting in a set of substrates which were bundled via weighted averaging into a super-pixel that had biosensing properties not obtainable by any individual fluorogenic substrate; and treating each 361-element map measured for each plasma preparation as a weighted sum of the 10 maps obtained for the 10 purified enzymes using a global error minimization. The similarity of the results from these latter two protocols indicated that a small subset of <90 substrates contained the majority of biochemical information. The results were consistent with the state of the coagulation cascade expected when treated with the given activators. This method may allow development of future biosensors using minimal and non-specific markers. These substrates can be applied to real-time diagnostic biosensing of complex protease mixtures.
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PMID:Functional phenotyping of human plasma using a 361-fluorogenic substrate biosensing microarray. 1657 20

Polyserase-1 (polyserine protease-1)/TMPRSS9 (transmembrane serine protease 9) is a type II transmembrane serine protease (TTSP) that possesses unique three tandem serine protease domains. However, the physiological function of each protease domain remains poorly understood. We discovered a new splice variant of polyserase-1, termed Serase-1B, which contains 34 extra amino acids consisting a SEA module (a domain found in sea urchin sperm protein, enterokinase and agrin) adjacent to the transmembrane domain and the first protease domain with a mucin-like box at the C-terminus. The tissue distribution of this enzyme by RT (reverse transcription)-PCR analysis revealed high expression in the liver, small intestine, pancreas, testis and peripheral blood CD14+ and CD8+ cells. To investigate the role of Serase-1B, a full-length form recombinant protein was produced. Interestingly, recombinant Serase-1B was partly secreted as a soluble inactive precursor and it was also activated by trypsin. This activated enzyme selectively cleaved synthetic peptides for trypsin and activated protein C, and it was inhibited by several natural serine protease inhibitors, such as aprotinin, alpha2-antiplasmin and plasminogen activator inhibitor 1. In addition, Serase-1B efficiently converted pro-uPA (urokinase-type plasminogen activator) into active uPA and this activation was strongly inhibited by these natural inhibitors. Furthermore, this activation was also negatively regulated by glycosaminoglycans. Our results indicate that Serase-1B is a novel member of TTSPs that might be involved in uPA/plasmin-mediated proteolysis and possibly implicated in biological events such as fibrinolysis and tumour progression.
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PMID:Serase-1B, a new splice variant of polyserase-1/TMPRSS9, activates urokinase-type plasminogen activator and the proteolytic activation is negatively regulated by glycosaminoglycans. 1687 79


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