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)

Plasminogen activation by single-chain urokinase-type plasminogen activator or pro-urokinase (pro-UK) is accompanied by the generation of two-chain urokinase (UK) by plasmin which provides a positive feedback. In the present study, the time course of the activation of Glu-plasminogen and of Lys-plasminogen (10 microM) by pro-UK (1.0 nM) was studied. In the presence of native plasminogen (Glu-plasminogen), three distinct phases with different rates of plasmin generation were observed. The initial phase was slow and corresponded to the intrinsic activity of pro-UK as reflected by the activity of a plasmin-resistant mutant (Lys158----Ala). This was followed by a second phase which had the most rapid rate. The third phase had a plasminogen activation rate which was significantly slower than the second and paralleled the rate of activation by UK (1.0 nM). The second phase coincided with the time at which there was only about 50% conversion of pro-UK to UK, whereas the final phase coincided with essentially complete conversion. In the presence of fibrin fragment E-2 (20 microM), previously shown to strongly promote plasminogen activation by pro-UK, the identical phenomenon was observed, but at one-tenth the concentration of pro-UK. The most rapid rate of plasmin generation again coincided with transitional (25-60%) pro-UK to UK conversion. To further examine this phenomenon, the rate of pro-UK to UK conversion was controlled by using kallikrein in the presence of a plasmin inhibitor. In this experiment, the activation of Glu-plasminogen bound to solid-phase fibrin was measured. A similar three-phase sequence was observed, the highest rate of plasmin generation coinciding with about 45% conversion of pro-UK to UK. A mechanism for this transitional state phenomenon was postulated based on the established significantly higher affinity of pro-UK than of UK for Glu-plasminogen. This exceptional property for a proenzyme may enable a transient activity to be generated during the transition from pro-UK to UK corresponding to the more favorable KM of pro-UK and the kcat of UK. This hypothesis was supported by the results from experiments in which Lys-plasminogen was substituted for the Glu form. No transitional state activity was observed, consistent with the relatively high KM of pro-UK against Lys-plasminogen.
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PMID:A transitional state of pro-urokinase that has a higher catalytic efficiency against glu-plasminogen than urokinase. 163 75

The goal of the present study was to assess the relative importance of receptor-bound and secreted plasminogen activator urokinase (u-PA) in generating cell-surface plasmin and fostering destruction of normal tissue by tumor cells. We first showed that active site-inhibited u-PA could displace endogenous u-PA from the surface of the human colon adenocarcinoma cell line HCT 116. We then prepared expression vectors for u-PA and for a mutant molecule in which the codon for the active site serine residue was changed to encode alanine. Expression of non-functional mutant u-PA decreased the level of cell-bound active u-PA by more than 95% via a mechanism that involved competition for receptor sites. Decreased cell-surface u-PA activity was associated with a decrease in cell-bound plasmin activity to undetectable levels, suggesting that receptor-bound u-PA plays an important role in the generation of plasmin on the cell surface. Transfectants that secreted eightfold to 20-fold elevated levels of active wild-type u-PA showed approximately 50% increases in cell-associated u-PA and only twofold to fourfold increases in cell-associated plasmin, suggesting that the role of secreted u-PA in generating cell-surface plasmin activity was relatively minor. In parent cells and both types of transfectants there was a good correlation between the amount of plasmin bound to the tumor cell surface and the extent to which a basement membrane substrate was degraded. These studies show that receptor-bound u-PA provides an efficient mechanism for plasmin generation on the surface of tumor cells, which, in turn, contributes significantly to their degradative potential.
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PMID:Effects of urokinase receptor occupancy on plasmin generation and proteolysis of basement membrane by human tumor cells. 164 83

We present evidence that over-expression of human plasminogen, the precursor to the serine protease plasmin, can be cytotoxic to mammalian cells. When an expression vector containing plasminogen cDNA is transfected into baby hamster kidney cells, the number of drug-resistant colonies as well as the levels of plasminogen secreted by those colonies is lower than observed in similar transfections of other protease precursor genes. The recombinant plasminogen accumulates intracellularly as degraded NH2-terminal fragments. In contrast, a mutant of plasminogen that produces inactive plasmin (active site Ser740 changed to Ala) is synthesized by these cells as a full-length plasminogen molecule, and the colony numbers and expression levels are normal. Thus, the generation of plasmin activity is responsible for the cytotoxic phenomena and the degradation associated with plasminogen expression. In addition, experiments using a plasminogen mutant that cannot be activated to plasmin (activation cleavage site Arg560 to Gly) or using coexpression of antisense urokinase RNA indicate that an endogenous plasminogen activator is responsible for converting newly synthesized plasminogen to plasmin. Finally, coexpression of plasminogen with alpha 2-plasmin inhibitor, a serpin which is the physiologic inhibitor of plasmin, prevents the toxic effects of intracellular plasmin activity and allows the synthesis and secretion of native human plasminogen.
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PMID:Expression of recombinant human plasminogen in mammalian cells is augmented by suppression of plasmin activity. 183 Dec 1

Plasmin generation by equimolar concentrations of tissue plasminogen activator (t-PA), pro-urokinase (pro-UK), and urokinase (UK), and a twofold higher concentration of a plasmin-resistant mutant rpro-UK (Ala-158-pro-UK) was measured on a microtiter plate reader. The promoting effects on this reaction of equimolar concentrations of fibrinogen, soluble fibrin (Desafib), CNBr fragment FCB-2 (an analogue of fragment D), or purified fragment E-2 were compared. Plasmin generation by t-PA was moderately promoted by fibrinogen, substantially promoted by Desafib and FCB-2, but not at all promoted by fragment E-2. By contrast, plasmin generation by pro-UK or by Ala-158-pro-UK was not promoted either by fibrinogen, Desafib, or FCB-2, but was significantly promoted by fragment E-2. Plasmin generation by UK was not significantly promoted by any of the fibrin(ogen) preparations. Treatment of fragment E-2 by carboxypeptidase-B (CPB), eliminated its promotion of pro-UK and Ala-158-pro-UK-induced plasmin generation. Pretreatment of FCB-2 with plasmin slightly potentiated its promotion of t-PA activity. This effect of plasmin pretreatment of FCB-2 was reversed by CPB treatment. Plasmin pretreatment of FCB-2 did not induce any promotion of activity in pro-UK or Ala-158-pro-UK. The findings show that the intrinsic activity of pro-UK and the activity of t-PA are promoted by different regions of the fibrin(ogen) molecule. The latter is stimulated primarily by a determinant in the fragment D region, which is available in intact fibrin. By contrast, plasminogen activation by the intrinsic activity of pro-UK was stimulated exclusively by fragment E-2, which is unavailable in intact fibrin. The findings are believed relevant to fibrinolysis and support the concept that t-PA and pro-UK are complementary, sequential, and synergistic in their actions.
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PMID:A comparative study of the promotion of tissue plasminogen activator and pro-urokinase-induced plasminogen activation by fragments D and E-2 of fibrin. 183 71

The reaction between plasminogen activators and plasminogen activator inhibitor-1 is characterized by an initial rapid formation of an inactive reversible complex. The second-order association rate constant (k1) of complex formation of recombinant two-chain tissue-type plasminogen activator (rt-PA) or recombinant two-chain urokinase-type plasminogen activator (rtcu-PA) by recombinant plasminogen activator inhibitor-1 (rPAI-1) is 2.9 +/- 0.4 x 10(7) M-1 s-1 (mean +/- S.D., n = 30) and 2.0 +/- 0.6 x 10(7) M-1 s-1 (n = 12), respectively. Different molecular forms of tissue- or urokinase-type plasminogen activator which do not form covalent complexes with rPAI-1, including rt-PA-Ala478 (rt-PA with the active-site Ser478 mutagenized to Ala) and anhydro-urokinase (rtcu-PA with the active-site Ser356 converted to dehydroalanine) reduced k1 in a concentration-dependent manner, compatible with 1:1 stoichiometric complex formation between rPAI-1 and these ligands. The apparent dissociation constant (KD) of the complex between rPAI-1 and rt-PA-Ala478, determined as the concentration of rt-PA-Ala478 which reduced k1 to 50% of its control value, was 3-5 nM. Corresponding concentrations of active-site-blocked two-chain rt-PA were 150-250-fold higher. The concentration of anhydro-urokinase which reduced k1 to 50% was 4-6 nM, whereas that of active-site-blocked rtcu-PA was 100-250-fold higher. Recombinant single-chain urokinase-type plasminogen activator had an apparent KD of about 2 microM. These results suggest that inhibition of rt-PA or rtcu-PA by rPAI-1 proceeds via a reversible high affinity interaction which does not require a functional active site but which is markedly reduced following inactivation of the enzymes with active-site titrants.
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PMID:On the reversible interaction of plasminogen activator inhibitor-1 with tissue-type plasminogen activator and with urokinase-type plasminogen activator. 190 Feb 84

The mechanism of the activation of plasminogen by single-chain urokinase-type plasminogen activator (single-chain u-PA, scu-PA) was studied using rscu-PA-Glu158, a recombinant plasmin-resistant mutant of human scu-PA obtained by site-specific mutagenesis of Lys158 to Glu, and rPlg-Ala740, a recombinant human plasminogen in which the catalytic site is destroyed by mutagenesis of the active-site Ser740 to Ala. Conversion of 125I-labeled single-chain plasminogen to two-chain plasmin was quantitated on reduced sodium dodecyl sulfate-gel electrophoresis combined with autoradiography and radioisotope counting of gels bands. The efficiencies of both rscu-PA-Glu158 and rscu-PA for the activation of rPlg-Ala740 and of natural plasminogen were comparable and were 250-500-fold lower than that of recombinant two-chain u-PA (rtcu-PA) for rscu-PA-Glu158 and 100-200-fold lower for rscu-PA. Pretreatment of rscu-PA-Glu158 or rscu-PA with excess alpha 2-antiplasmin, which efficiently neutralizes all contaminating rtcu-PA, did not significantly reduce the catalytic efficiency of these single-chain moieties, indicating that they have a low but significant intrinsic plasminogen activating potential. The low intrinsic catalytic efficiency of rscu-PA for the conversion of plasminogen to plasmin may be sufficient to generate trace amounts of plasmin, which may regulate plasminogen activation by converting poorly active rscu-PA to very active rtcu-PA.
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PMID:Plasminogen activation with single-chain urokinase-type plasminogen activator (scu-PA). Studies with active site mutagenized plasminogen (Ser740----Ala) and plasmin-resistant scu-PA (Lys158----Glu). 196 15

Using site-directed mutagenesis, we have changed the asparagine in human single-chain urinary plasminogen activator (u-PA) at position 302 to an alanine. This alteration removes the only known amino acid residue glycosylated in the protein. The single-chain u-PA containing an alanine residue at position 302 instead of asparagine (scu-PA(N302A] cDNA gene was expressed in the yeast Saccharomyces cerevisiae. Secretion of the protein product into the culture broth was achieved by replacing the human secretion signal codons with those from yeast invertase, adding a yeast promoter from the constitutively expressed glycolytic genes triosephosphate isomerase or phosphoglycerate kinase, and integrating multiple copies of these transcriptional units into the genome of yeast strains carrying the "supersecreting" mutation ssc1. When fermented in a fed-batch mode, these recombinant baker's yeast strains secreted scu-PA(N302A) in a strongly growth-associated manner. Greater than 90% of the u-PA found in the culture broth was in the single-chain form. Scu-PA(N302A) was purified to homogeneity using two chromatography steps. The purified protein had a molecular weight of 47,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and lacked any detectable N-linked glycosylation. The in vitro fibrinolytic properties of scu-PA(N302A) were found to be essentially equivalent to those of natural single-chain u-PA derived from the human kidney cell line TCL-598. Since scu-PA(N302A) lacks the immunogenic N-linked carbohydrate pattern of yeast, it may be a useful therapeutic agent which can be produced economically by yeast fermentation.
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PMID:Characterization of a nonglycosylated single chain urinary plasminogen activator secreted from yeast. 210 31

Increased extracellular proteolysis because of unregulated activation of blood coagulation, complement, and fibrinolysis is observed in thrombosis, shock, and inflammation. In the present study, we have examined whether the plasma kallikrein-kinin system, the classical pathway of complement, and the fibrinolytic system could be inhibited by alpha 1-antitrypsin reactive site mutants. Wild-type alpha 1-antitrypsin contains a Met residue at P1 (position 358), the central position of the reactive center. It did not inhibit plasma kallikrein, beta-factor XIIa, plasmin, tissue-type plasminogen activator (t-PA), or urokinase. In contrast, these serine proteases were inhibited by alpha 1-antitrypsin Arg358. For the inhibition of C1s, a double mutant having Arg358 and a Pro----Ala mutation at P2 (position 357) was required. This double modification was made because C1-inhibitor, the natural inhibitor of C1s, has Arg and Ala residues at positions P1 and P2. Plasminogen activator inhibitor 1, the natural inhibitor of t-PA, also has Arg and Ala residues at positions P1 and P2. In a purified system, alpha 1-antitrypsin Ala357-Arg358 was 150-fold less efficient against C1s than C1-inhibitor and 27,000-fold less efficient against t-PA than plasminogen activator inhibitor-1. In plasma, 2.3 microM alpha 1-antitrypsin Ala357-Arg358 reduced by 65% the formation of a complex between kallikrein and C1-inhibitor following activation of the intrinsic pathway of blood coagulation by kaolin. Furthermore, after supplementation by 2.0 microM alpha 1-antitrypsin Ala357-Arg358, zymographic analysis showed that the majority of the free t-PA of normal plasma formed a bimolecular complex with the double mutant. In contrast, 3.4 microM alpha 1-antitrypsin Ala357-Arg358 did not prevent the activation of the classical pathway of complement observed when normal serum is supplemented with anti-C1-inhibitor F(ab')2 fragment. These results demonstrate that alpha 1-antitrypsin Ala357-Arg358 has therapeutic potential for disorders with unregulated activation of the intrinsic pathway of blood coagulation and the fibrinolytic system; however, the double mutant is not an efficient inhibitor for the classical pathway of complement.
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PMID:Reactivity of alpha 1-antitrypsin mutants against proteolytic enzymes of the kallikrein-kinin, complement, and fibrinolytic systems. 219 58

When Glu-plasminogen (plg) was activated by urokinase (UK) in the presence of fibrinogen or fibrin, B beta peptides (B beta 1-42) were released faster from fibrinogen than from fibrin (B beta 15-42). These results were contrary to faster release of B beta 15-42 from fibrin in the UK-activated clotted plasma in comparison to the release of B beta 1-42 from UK-activated plasma. The addition of plasma or lysine-Sepharose pass through fraction to the above system resulted in faster release of B beta peptides from fibrin than fibrinogen. The addition of alpha 2 antiplasmin (alpha 2AP) to the mixture of Glu-pig, UK and fibrinogen or fibrin resulted in faster release of B beta peptides from fibrin than from fibrinogen. These results indicate that fibrin protected plasmin from inactivation by alpha 2AP, leading to cleavage of Arg(42)-Ala(43) bond in beta-chain of fibrin which seems to be less susceptible to plasmin than the same bond in fibrinogen.
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PMID:Release of B beta peptides from fibrinogen or fibrin in the presence of alpha 2 antiplasmin. 242 82

Heterologous gene expression in yeast can be increased up to several hundred-fold by expressing a foreign gene as a fusion to the ubiquitin gene. An endogenous yeast endoprotease (Ub-Xase) removes the ubiquitin from the fusion product to produce the authentic protein. The utility of this technique has been demonstrated by expression of three different proteins in yeast as both unfused and ubiquitin-fused forms: 1) the alpha subunit of the mammalian stimulating G-protein of the adenylate cyclase complex (Gs alpha); 2) a soluble fragment of the T cell receptor protein (sCD4); and 3) the protease domain of human urokinase (UKP). The sequence specificity of the Ub-Xase was demonstrated by mutagenesis of the carboxyl-terminal glycine of ubiquitin to an alanine, which inhibited ubiquitin removal in vivo. Processing of the ubiquitin-Gs alpha fusion protein (ub-Gs alpha) in vivo resulted in Gs alpha which could be reconstituted in mammalian membrane preparations and had the same specific activity as the authentic Gs alpha expressed in yeast. The yeast Ub-Xase has also been shown to work in vitro by the processing of a ub-sCD4 fusion protein synthesized in Escherichia coli. This technology should greatly enhance the utility of yeast for heterologous protein production.
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PMID:Increasing gene expression in yeast by fusion to ubiquitin. 254 Feb 2


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