Purification and characterization of a novel inhibitor of urokinase from human urine. Quantitation and preliminary characterization in plasma

Urokinase-related proteins in human urine occur mainly as a 1:1 complex of urokinase with an inhibitor (Stump, D. C., Thienpont, M., and Collen, D. (1986) J. Biol. Chem. 261, 1267-1273). BALB/c mice were immunized with this urokinase-urokinase inhibitor complex and spleen cells fused with mouse myeloma cells, resulting in hybridomas producing monoclonal antibodies. Three antibodies reacting with the complex but not with urokinase were utilized to develop a sensitive (0.5 ng/ml) enzyme-linked immunosorbent assay for the urokinase inhibitor, which was used for monitoring its purification by chromatography on zinc chelate-Sepharose, concanavalin A-Sepharose, SP-Sephadex C-50, and Sephadex G-100. A homogenous glycoprotein of apparent Mr 50,000 was obtained with a yield of 40 micrograms/liter urine and a purification factor of 320. One mg of the purified protein inhibited 35,000 IU of urokinase within 30 min at 37 degrees C. This protein was immunologically related to both the purified urokinase-urokinase inhibitor complex and to the inhibitor portion dissociated from it by nucleophilic dissociation. It was immunologically distinct from all known protease inhibitors, including the endothelial cell-derived fast-acting inhibitor of tissue-type plasminogen activator, the placental inhibitor of urokinase and protease nexin. In electrophoresis the protein migrated with beta-mobility. Inhibition of urokinase occurred with a second order rate constant (k) of 8 X 10(3) M-1 s-1 in the absence and of 9 X 10(4) M-1 s-1 in the presence of 50 IU of heparin/ml. The urokinase inhibitor was inactive towards single-chain urokinase-type plasminogen activator and plasmin, but it inhibited two-chain tissue-type plasminogen activator with a k below 10(3) M-1 s-1 and thrombin with a k of 4 X 10(4) M-1 s-1 in the absence and 2 X 10(5) M-1 s-1 in the presence of heparin. The concentration of this urokinase inhibitor in plasma from normal subjects determined by immunoassay was 2 +/- 0.7 micrograms/ml (mean +/- S.D., n = 25). The protein purified from plasma by immunoabsorption had the same Mr, amino acid composition, and immunoreactivity as the urinary protein. Furthermore, when urokinase was added to plasma, time-dependent urokinase-urokinase inhibitor complex formation was observed at a rate similar to that observed for the inhibition of urokinase by the purified inhibitor from urine. This urokinase inhibitor, purified from human urine, most probably represents a new plasma protease inhibitor.     

双专－性抗体介导的纤溶作用

用双功能团试剂将抗尿激酶单克隆抗体Ｎ３４的ＩｇＧ和抗人活化血小板α－颗粒膜蛋白ＧＭＰ－１４０单克隆抗体ＳＺ－５１的Ｆａｂ片段通过二硫键共价偶联,偶联的抗体保留了对各自抗原的亲和性。这种对尿激酶和血栓同时具有亲和活性的双专一性抗体（Ｎ３４－ＳＺ－５１）提高低分子量尿激酶的溶栓效率３８倍,且对血浆中纤维蛋白原的含量基本上不影响。     

Urokinase receptors in human monocytes

Receptors for the 54 kDa plasminogen activator urokinase were characterized in freshly isolated and 5-14 day cultured human monocytes. The half saturation constant was about 55 pM in freshly isolated monocytes at 4 degrees C and 140 pM at 37 degrees C. Diisopropylfluorophosphate-inactivated urokinase was bound with the same affinity as catalytically active urokinase. Binding per cell of 2-5 pM urokinase increased progressively during cell culture with a concomitant decrease in the apparent affinity. By 14 days, binding had increased 5-7-fold and the half-saturation constant had increased to 500 pM at 4 degrees C, indicating a large increase in the binding capacity. Affinity cross-linking of labelled urokinase to receptors showed a 110 kDa complex in both freshly isolated and cultured monocytes. When cells with labelled urokinase (prebound at 4 degrees C) were incubated at 37 degrees C, about 80% of the urokinase dissociated as the intact molecule, whereas about 20% was degraded to iodide and iodotyrosine. Electron microscopic autoradiography of cultured monocytes incubated at 4 degrees C showed a marked heterogeneity between cells with regard to bound urokinase. Autoradiographic grains were mainly seen over the plasma membrane in areas rich in microvilli and invaginations. Transfer of the cells to 37 degrees C caused no major alteration in the distribution of grains. Thus, freshly prepared monocytes have urokinase receptors (approx. 55 kDa) of high affinity. Development to macrophage-like cells in culture causes a decrease in affinity and a large increase in capacity. The receptors are confined mainly to certain areas of the plasma membrane. Internalization and degradation of the ligand occurs only to a minor extent.     

An inhibitor of plasminogen activation from human placenta. Purification and characterization

Placental extracts contain inhibitors of human urinary urokinase. These extracts form a heterogeneous population of complexes with 125I-urokinase that are recognizable by changes in gel filtration profile and mobility during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Treatment with reducing agents eliminated the size heterogeneity without loss of activity, thereby allowing the placental inhibitor to be purified. Active inhibitor has been isolated in apparently homogeneous form after an eight-step procedure that included salt extraction, ammonium sulfate fractionation, column chromatography on CM-cellulose, DEAE-Sepharose, and hydroxylapatite, chromatofocusing, preparative gel electrophoresis, and hydrophobic chromatography. The purified inhibitor has Mr = 47,000. The inhibitor is relatively specific for plasminogen activators since it does not inhibit the action of plasmin, factor XIIa, plasma kallikrein, or thrombin. The inhibitor forms complexes with 1:1 stoichiometry that block the active sites of urokinase (but not prourokinase) and both one- and two-chain forms of tissue plasminogen activator. The stability of these complexes in sodium dodecyl sulfate-polyacrylamide gel electrophoresis suggest that they are based on covalently bonded structures. Although both types of plasminogen activator are inhibited, the rate of interaction is significantly faster with urokinase, tissue plasminogen activator being inhibited less efficiently. The complexes formed can be dissociated by mild alkali or hydroxylamine, thereby regenerating both enzymes and inhibitor at their original molecular weights. The results suggest that the complexes are stabilized by ester-like bonds; these might involve the hydroxyl of serine at the active site of the proteases and a carboxyl group in the inhibitor.     

Thrombolytic properties of an inactive proenzyme form of human urokinase secreted from human kidney cells

The relative fibrin-binding, fibrinolytic and fibrinogenolytic properties of single-chain pro-urokinase, an inactive proenzyme form of human urokinase purified from cultured human kidney cells, and urokinase were compared. The affinity of single-chain pro-urokinase for fibrin was much higher than that of urokinase. In Vitro thrombolytic studies showed that single-chain pro-urokinase is approximately three times more potent in fibrinolysis than urokinase and that it does not degrade fibrinogen in the plasma at a concentration, at which complete plasma clot lysis takes place; whereas, urokinase extensively degrades the fibrinogen in the plasma. These specific, potent thrombolytic properties of single-chain pro-urokinase seem to be due to its high affinity for fibrin and to its conversion from the inactive single-chain form to the active two-chain form on the thrombus by the catalytic amount of plasmin generated during coagulation. This single-chain pro-urokinase obtained from human kidney cells by tissue culture should prove advantageous than urokinase in thrombolytic therapy.     

Competition of activated protein C and urokinase for a heparin-dependent inhibitor

Human urine contains a hitherto unrecognized heparin-dependent inhibitor of activated protein C (APC) (Mr approximately 50,000) that coelutes from heparin-Sepharose together with the only observed peak of urokinase inhibitory activity at a position (0.35 M NaCl) similar to that of plasma protein C (PC) inhibitor. Based on functional assays and immunoblot studies, urokinase and APC compete for this crude inhibitor in the absence or presence of heparin. These results suggest that the same heparin-dependent urinary inhibitor that is immunologically different from several known protease inhibitors is responsible for the observed inhibition of APC and urokinase. In the absence of heparin this inhibitor inhibits APC and urokinase with similar rates, and heparin enhances its inhibitory activity toward both enzymes with more pronounced stimulation of its PC inhibitory activity than its urokinase inhibitory activity. Half-maximal stimulation of inhibition of APC occurs at about 2 mU/ml and maximal stimulation (approximately 10-fold increase of the pseudo-first-order rate constant) at greater than or equal to 50 mU/ml of heparin. This is the first demonstration of competition between APC and urokinase for a heparin-dependent inhibitor. These results may therefore represent a new link between the two major antithrombotic pathways, the PC pathway and the fibrinolytic system.     

Structural and functional characterization of the inhibition of urokinase by alpha 2-macroglobulin

We have investigated the interaction of alpha 2-macroglobulin (alpha 2M) with the serine proteinase urokinase, an activator of plasminogen. Urokinase formed sodium dodecyl sulfate stable complexes with purified alpha 2M and with alpha 2M in plasma. These complexes could be visualized after polyacrylamide gel electrophoresis by protein blots using 125I-labeled anti-urokinase antibody or by fibrin autography, a measure of fibrinolytic activity. According to gel electrophoretic analyses under reducing conditions, urokinase cleaved alpha 2M subunits and formed apparently covalent complexes with alpha 2M. Urokinase cleaved only about 60% of the alpha 2M subunits maximally at a mole ratio of 2:1 (urokinase: alpha 2M). Binding of urokinase to alpha 2M protected the urokinase active site from inhibition by antithrombin III-heparin and inhibited, to a significant extent, plasminogen activation by urokinase. Reaction of urokinase with alpha 2M caused an increase in intrinsic protein fluorescence and, thus, induced the conformational change in alpha 2M that is characteristic of its interactions with active proteinases. Our results indicate that both in plasma and in a purified system the alpha 2M-urokinase reaction is functionally significant.     

Plasminogen activator: Morphological evidence of binding, internalization and delivery to lysosomes in 3T3 mouse fibroblasts

Summary Using a direct conjugate of urokinase and ferritin, the binding has been followed at the plasma membrane and the internalization of urokinase into BALB/C-3T3 fibroblasts, cultured in plasminogen-free conditions. At 0° C, the conjugate was observed bound on both coated and uncoated cell surface regions as singlets, and small and large clusters. No binding was observed in the presence of excess native urokinase. The binding was impaired by preincubation of the conjugate with a competitive inhibitor of the catalytic site, suggesting an interaction between the receptor and the catalytic site of the enzyme.Within 1 min at 37° C, urokinase clustered on coated regions of the plasma membrane. At 5 min after warming, ferritin was found on deeply indented coated pits and in both coated and uncoated vesicles close to the cell surface. By 10 min at 37° C, ferritin particles were present in uncoated endosomes and in multivesicular bodies in the Golgi area. Within 10 min, the receptors on the surface strongly decreased. New receptors were observed on the membrane after 20 min at 37° C. At this time, ferritin was observed both in endosomes or multivesicular bodies and in vesicles close to the plasma membrane.     

A bispecific antibody enhances the fibrinolytic potency of single-chain urokinase.

A monoclonal antibody specific for an epitope at the amino terminus of the beta chain of fibrin and a monoclonal antibody that binds both one- and two-chain high molecular weight urokinase were chemically cross-linked [using N-succinimidyl 3-(2-pyridyldithio)propionate and 2-iminothiolane]. The chemically modified material was heterogeneous, ranging in molecular size from tetramers to monomers and containing the two antibodies in various ratios. Nevertheless, fractions of a molecular size larger than a monomer were capable of binding fibrin and urokinase simultaneously in a radioimmunoassay. These fractions also enhanced fibrinolysis by high molecular weight single-chain urokinase (scuPA) by 50-fold and plasma clot lysis by 5-fold. Whereas scuPA significantly decreased the concentration of fibrinogen in plasma clot assay supernatants, scuPA in association with the bispecific antibody did not.     

Linkage of extracellular plasminogen activator to the fibroblast cytoskeleton: colocalization of cell surface urokinase with vinculin

Several cell types display binding sites for [125I]urokinase (Vassalli, J.-D., D. Baccino, D. Belin. 1985. J. Cell Biol. 100:86-92) which in certain cases are occupied with endogenous urokinase. These sites appear to focus urokinase at cell surfaces and hence may participate in tissue matrix destruction and cell invasion. Recently Pollanen et al. (1987) demonstrated that the cell surface urokinase of human fibroblasts and fibrosarcoma cells is deposited underneath the cells in strands, apparently at sites of cell-to-substratum contact. Here, using immunofluorescence double labeling, we show that the urokinase strands present on human foreskin fibroblasts are colocalized with strands of vinculin, an intracellular actin-binding protein that is deposited at cell-to-substratum focal adhesion sites. Thus, this indicates linkage of the plasminogen/plasmin system both to sites of cell adhesion and to the cytoskeleton. The urokinase strands on HT 1080 fibrosarcoma cells are more numerous and have shapes that are more tortuous than those on normal fibroblasts. In intact HT 1080 cells, colocalized vinculin strands are obscured by an intense background of soluble vinculin but are apparent on isolated ventral plasma membranes. Certain properties of the urokinase strands suggest that they are related to the [125I]urokinase-binding sites that have been described by several groups: (a) incubating fibroblasts with dexamethasone for 48 h or at pH 3 at 5 degrees C for 10 min greatly decreases the number and intensity of the urokinase strands; (b) strands reappear when glucocorticoid- treated cells are incubated with exogenous 54-kD (but not 35-kD) urokinase, and this process is inhibited by a previously described 16- amino acid peptide that blocks [125I]urokinase binding to the cells.     

Role of the light chain of high molecular weight kininogen in adhesion, cell-associated proteolysis and angiogenesis

Cleavage of high molecular weight kininogen (HK) by plasma kallikrein results in a light chain and a heavy chain (HK). The light chain has two domains: D6, which binds (pre)kallikrein, and D5, which binds to anionic surfaces, including heparin as well as zinc. Initially, HK was thought to be important for surface-activated coagulation. HKa or D5 binds to the urokinase receptor on endothelial cells, thereby enhancing the conversion of prourokinase to urokinase by kallikrein, and, thus, cell-associated fibrinolysis. HKa or D5 is antiadhesive by competing with vitronectin binding to the urokinase receptor and/or forming a complex with vitronectin. D5 inhibits endothelial cell migration, proliferation, tube formation and angiogenesis, thus modulating inflammation and neovascularization.     

Identification of two types of protein immunochemically related to urinary urokinase occurring in human plasma

Plasma urokinase, a plasminogen activator immunochemically related to urinary urokinase (UK), was removed from human plasma (3.5 ng/ml) by immuno-depletion with antibodies raised against UK. The remaining plasminogen activator activity of the depleted plasma could not be inhibited by anti-UK antibodies and a sensitive ELISA for UK did not detect any UK levels that were higher than the background of the assay (0.1 ng/ml). However, when the depleted plasma was subjected to SDS-PAGE, substantial amounts of protein were found hereafter around 110 and 46 kD which now gave a positive reaction in the ELISA (35-350 ng/ml plasma). From these observations it is concluded that in human plasma two types of UK-related protein occur: Type I, among which the plasma urokinase, has antigenic determinants which are directly accessible to the anti-UK antibodies, Type II has determinants in a latent form. The function of the 110 kD type-II protein is that of a plasminogen activator; that of the 46 kD protein is not yet clear.     

Immunological identity of heparin-dependent plasma and urinary protein C inhibitor and plasminogen activator inhibitor-3

Purified plasma and urinary protein C inhibitors (PCI) formed heparin-dependent complexes with activated protein C (APC) which were detected by immunoblotting after nondenaturing gel electrophoresis. Bands representing APC.PCI complexes were also seen on immunoblots after incubation of plasma with APC and heparin. The same immunoblot pattern of complexes was detected by three different methods: method A, monoclonal antibody to plasminogen activator inhibitor-3 (PAI-3, urinary urokinase inhibitor) + 125I-labeled anti-mouse IgG; method B, polyclonal antibodies to PCI + 125I-labeled purified plasma PCI; and method C, monoclonal antibody to protein C + 125I-protein C. Plasma depleted of PAI-3 by immunoadsorption with insolubilized monoclonal antibody to PAI-3 showed no detectable antigen or complexes with APC as visualized by methods A or B. This PAI-3-depleted plasma had less than 10% of the heparin-dependent inhibitory activity of normal plasma toward APC. Purified plasma PCI was fully reactive in an enzyme-linked immunoabsorbent assay for PAI-3, and plasma and urinary PCI inhibited urokinase activity in a heparin-dependent manner. These data indicate that heparin-dependent plasma and urinary PCI and PAI-3 are immunologically and functionally very similar if not identical. This observation identifies a new interrelation between the protein C anticoagulant and the fibrinolytic systems. In addition, plasma contains a heparin-independent inhibitor of APC which is not immunologically related to plasma PCI or to PAI-3.     

Spontaneous fibrinolysis in whole human plasma. Identification of tissue activator-related protein as the major plasminogen activator causing spontaneous activity in vitro

Spontaneous fibrinolysis of plasma clots was studied by following the lysis of the clots formed in 125I-fibrinogen-supplemented citrated plasma. Lysis of the clots invariably follows sigmoidal kinetics with S50 (the time required for 50% clot lysis) ranging from 3.5 to 4.7 days in 8 samples of pooled blood bank plasma and in the majority of apparently healthy donor plasmas. The spontaneous lysis of factor XII-deficient and prekallikrein-deficient plasmas was found to be similar to that of normal plasma. Addition of ellagic acid or antibodies against kallikrein or urokinase to normal pooled plasma did not alter significantly its rate of spontaneous lysis. On the other hand the addition of antibody against tissue activator (t-PA) inhibited over 80% of the spontaneous fibrinolysis in a 7-day incubation period at 37 degrees C, and the clot visually persisted for more than a month. Therefore, the factor XII-dependent components and prourokinase/urokinase system do not contribute significantly in whole plasma fibrinolysis in vitro, while the t-PA-related protein appears to be the major plasminogen activator responsible for initiating spontaneous fibrinolysis in whole plasma. Exogenous addition of increasing amounts of purified HeLa cell t-PA to normal pooled plasma in the ng/ml range cause progressively faster clot lysis. By extrapolation, normal pooled plasma is found to contain endogenous tissue activator in an amount functionally equivalent to 2 ng/ml of purified 60-kDa t-PA. The molecular nature of the t-PA-related proteins in plasma was studied by zymographic and immunological methods. The major t-PA-related protein in plasma was found to have a molecular mass of 100 kDa as determined by zymography. By incubating purified HeLa 60-kDa t-PA with a t-PA-depleted plasma, the 100-kDa component can be generated in plasma, suggesting that the latter is formed as a result of the binding of 60-kDa t-PA to a binding protein in plasma.     

Oral urokinase: absorption, mechanisms of fibrinolytic enhancement and clinical effect on cerebral thrombosis

The oral administration of the thrombolytic agent urokinase was studied. Its intestinal absorption was demonstrated in dogs by the observation of a prolonged urokinase activity in plasma with a concomitant lytic effect on artificial thrombi after intraduodenal administration. In situ intestine-liver perfusion experiments in dogs revealed that a plasminogen activator, distinct from the administered urokinase--thus presumed to be a tissue plasminogen activator--was liberated into the circulation in association with intestinal absorption of urokinase. Its absorption in men was demonstrated in a cross-over double blind study of oral urokinase on healthy subjects. On the basis of these results a double blind clinical trial of oral urokinase was performed on 101 patients with cerebral thrombosis. The results showed the usefulness of urokinase treatment, particularly in the early phase after the onset of stroke. The clinical effect was influenced by the plasma plasminogen level.     

Purification of plasminogen activators from human seminal plasma.

Two plasminogen activators (1 and 2) were isolated from human seminal plasma by hiigh-speed centrifugation, Sephadex-gel filtration and ion-exchange chromatography. The activators were shown to be homogeneous by polyacrylamide-disc -gel electrophoresis at pH 8.3 and 4.5, and by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. The molecular weights of activators 1 and 2 were estimated as 69 000 and 74 000. Their amino acid compositions are very similar, both being high in aspartic acid, glutamic acid, serine, glycine and leucine, and low in methionine, tryptophan, tyrosine, isoleucine and histidine. Activators 1 and 2 each possess 16 cysteine residues. Both activators have isoelectric points of approx. 7.0, are stable over a wide pH range at temperatures up to 60 degrees C, but lose activity at higher temperatures, particularly under very basic or acidic conditions. They are not inhibited by EDTA, Mg2+ and Ca2+ at 10 mM concentrations, but their activity decreases on addition of 10 mM-cysteine or Fe2+ and 6-aminohexanoate or sera from pregnant women. The precipitin band formed between urokinase and its antiserum is continuous with the precipitin bands formed between the seminal plasminogen activators and the urokinase antiserum. Antisera to urokinase inhibit both the activity of urokinase and the seminal plasminogen activators.     

Activation of plasminogen by pro-urokinase. I. Mechanism

The mechanism of the activation of plasminogen by recombinant pro-urokinase (Rec-pro-UK), obtained by expression of the human pro-urokinase gene in Escherichia coli, was investigated in purified systems. In mixtures of Rec-pro-UK and plasminogen, both active urokinase and plasmin are quickly generated. Addition of plasmin inhibitors (aprotinin or alpha 2-antiplasmin) abolishes the conversion of Rec-pro-UK to urokinase but not the activation of plasminogen to plasmin, suggesting that Rec-pro-UK activates plasminogen directly. Human plasma competitively inhibits the activation of plasminogen by pro-urokinase with a Ki of 0.2% (v/v). This explains the relative stability of Rec-pro-UK in plasma and the lack of activation of the plasma fibrinolytic system in the absence of fibrin. The competitive inhibition by plasma is abolished by the addition of CNBr-digested fibrinogen although Rec-pro-UK has no specific affinity for fibrin. These findings suggest that the fibrin specificity of the activation of plasminogen by pro-urokinase is due to neutralization by fibrin of the competitive inhibition exerted by plasma and not to fibrin-enhanced activation of plasminogen.     

肝素修饰尿激酶某些性质的研究

本文对比研究了溴化氰活化及高碘酸活化肝素修饰的两种修饰尿激酶的性质。结果表明尿激酶在溴化氰活化肝素(肝素CN),高碘酸钠活化肝素(肝素I_4)的共价修饰后,其残余自由氨基分别是64％和52％;酶活性分别保留94％和90％;抗胃蛋白酶水解以及抗冻融变性的能力均高于天然酶;在离体血浆中的失活速变低于天然酶。本文还对修饰酶进行了萤光及紫外差光谱的分析,讨论了修饰过程对构象的影响。     

Human epidermal plasminogen activator : Characterization, localization, and modulation

Using biochemical and immunocytochemical approaches, we have investigated the plasminogen activator (PA) of primary human epidermal cell cultures. A rabbit antibody raised against human urinary PA (urokinase) inhibited greater than or equal to 96% of the PA activity in the keratinocyte cultures. Immunoblot and double immunodiffusion analyses of keratinocyte PA with anti-urokinase antibody confirmed that epidermal PA was of the urokinase type. Immunocytochemical investigation of human keratinocyte cultures with anti-urokinase antibody revealed two characteristic staining patterns for PA. First, cells at the advancing edge of subconfluent colonies were cytoplasmically stained in a granular pattern. Similar staining was observed at the migrating edges of confluent epidermal cell cultures that had been wounded by cutting with a blade. This induction of PA staining was independent of cell division. Secondly, differentiated epidermal cells located on the surface of colonies were stained either at the plasma membrane or homogeneously throughout the cell. The highly differentiated, spontaneously shed cells were usually very heavily stained by anti-urokinase antibody. These immunocytochemical experiments suggest that PA expression is highly regulated in human epidermal cells. Specifically, PA expression appears to be related to cellular differentiation and to cell movement in expanding or wounded keratinocyte colonies.     

Reaction of thrombin and proteinases of the fibrinolytic system with a mechanism-based inhibitor, 3,4-dihydro-3-benzyl-6-chloromethylcoumarin

Thrombin, plasmin and tissue plasminogen activator (one- and two-chain forms) were examined with respect to their reaction with the suicide substrate, 3,4-dihydro-3-benzyl-6-chloromethylcoumarin, at 4 degrees C. The enzymes were irreversibly inhibited and the apparent second-order rate constants ki/Ki were 31,000, 316, 187 and 250 M-1.s-1, respectively. The extent of fibrin clot lysis induced by urokinase and two-chain tissue plasminogen activator was considerably decreased after treatment of these enzymes with the dihydrocoumarin derivative (molar excess of inhibitor over enzyme ranging from 6 to 21 for urokinase and 50 to 1500 for tissue plasminogen activator). This inhibitor has been tested as anticoagulant in human plasma and was effective at prolonging the prothrombin time from 12 to 40 s.