Biochemical characterization of single-chain chimeric plasminogen activators consisting of a single-chain Fv fragment of a fibrin-specific antibody and single-chain urokinase.

K12G0S32 is a 57-kDa recombinant single-chain chimeric plasminogen activator consisting of scFv-K12Go, a single-chain variable-region antigen-binding fragment (Fv) of the monoclonal antibody MA-15C5, which is specific for fragment D-dimer of human cross-linked fibrin, and a low-molecular-mass (33 kDa) urokinase-type plasminogen activator (u-PA-33k) containing amino acids Ala132-Leu411 (Holvoet, P., Laroche, Y., Lijnen, H. R., Van Cauwenberghe, R., Demarsin, E., Brouwers, E., Matthyssens, G. & Collen D. (1991) J. Biol. Chem. 266, 19717-19724). In addition, the Arg156-Phe157 thrombin-cleavage site in the u-PA moiety of K12G0S32 is removed by substitution of Phe157 with Asp. In the present study, the fibrinolytic potency of K12G0S32, determined in a system composed of a 125I-fibrin-labeled human plasma clot submerged in citrated plasma, was found to be only twofold higher than that of intact single-chain u-Pa (rscu-PA), but 17-fold higher than that of rscu-PA(M), a variant of rscu-PA in which the thrombin-cleavage site was removed by substitution of Phe157 with Asp. The fibrinolytic potency of K12G0S32T, with an intact thrombin-cleavage site, was 6-15-fold higher than that of rscu-PA. Conversion of 1 microM single-chain K12G0S32 or rscu-PA(M) into their two-chain derivatives with plasmin occurred at a rate of 1.0 +/- 0.15 nmol.min-1.nmol plasmin-1 and 0.85 +/- 0.074 nmol.min-1.nmol plasmin-1, compared to 14 +/- 2.3 nmol.min-1.nmol plasmin-1 and 18 +/- 2.6 nM.min-1.nmol plasmin-1 for K12G0S32T and rscu-PA, respectively. Purified fragment D-dimer of human cross-linked fibrin inhibited the fibrinolytic potency of single-chain K12G0S32T, but not of two-chain K12G0S32T, in a dose-dependent manner. Furthermore, the fibrinolytic potencies of two-chain K12G0S32 and K12G0S32T were not significantly higher than those of recombinant two-chain u-PA (rtcu-PA) or of rtcu-PA(M). These findings suggest that the 59-fold increase in fibrinolytic potency of K12G0S32T, relative to that of rscu-PA(M), is due both to targeting of the activator to the clot via the single-chain Fv fragment (sixfold increase) and to a more efficient conversion of single-chain K12G0S32T to its two-chain derivative (eightfold increase). Thus, targeting to clots by means of fibrin-specific antibodies results in a significant increase of the fibrinolytic potency of single-chain but not of two-chain u-PA.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of a recombinant chimeric plasminogen activator composed of a fibrin fragment-D-dimer-specific humanized monoclonal antibody and a truncated single-chain urokinase.

A recombinant chimeric plasminogen activator, MA-15C5Hu/scu-PA-32k, composed of a humanized fibrin fragment-D-dimer-specific monoclonal antibody (MA-15C5Hu) and a recombinant low-molecular-mass single-chain urokinase-type plasminogen activator, comprising amino acids Leu144-Leu411 (scu-PA-32k), was produced by cotransfecting Chinese hamster ovary (CHO) cells with the cDNA encoding the MA-15C5Hu light-chain sequence and the cDNA encoding the MA-15C5Hu heavy-chain sequence fused with the cDNA encoding scu-PA-32k. Purified MA-15C5Hu/scu-PA-32k migrated as a 215-kDa band on non-reducing SDS/PAGE, which is consistent with a molecule composed of one antibody and two scu-PA-32k moieties. However, the chimera was obtained as a mixture of single-chain u-PA-32k (37%) and amidolytically inactive (50%) and active (13%) two-chain u-PA-32k, the latter of which was removed by immunoadsorption on a monoclonal antibody specific for two-chain urokinase. The fragment-D-dimer affinity and enzymatic properties of MA-15CHu/scu-PA-32k were similar to those of MA-15C5Hu or of scu-PA-32k. In an in vitro system composed of a 125I-fibrin-labeled human plasma clot submerged in citrated human plasma, MA-15C5Hu/scu-PA-32k had a 12-fold higher fibrinolytic potency than scu-PA-32k: 50% lysis in 2 h required 0.43 +/- 0.12 micrograms u-PA-32k equivalent of the chimera/ml versus 5.4 +/- 0.3 micrograms/ml of scu-PA-32k (mean +/- SEM, n = 4). Addition of purified fibrin fragment-D dimer reduced the fibrinolytic potency of MA-15C5Hu/scu-PA-32k in a concentration-dependent way, indicating that the increased potency is the result of antibody targeting. Thus, a recombinant humanized antifibrin antibody/u-PA chimera has been obtained in which only the variable domains of the antibody moiety are of non-human origin. The chimera has intact antigen-binding capacity, u-PA enzymatic activity and a significantly increased fibrinolytic potency in a plasma medium in vitro.     

Construction and characterization of a recombinant chimeric plasminogen activator consisting of a fibrin peptide and a low molecular mass single-chain urokinase

A recombinant chimeric plasminogen activator (f beta/scuPA-32k), with a fibrin beta-chain peptide (comprising Gly15 through Arg 42) linked to the N-terminal of a low molecular mass (32 kDa) single-chain urokinase (scuPA-32k, comprising Leu144 through Leu 411) via a 50 amino acid linker sequence, was produced by expression the corresponding chimeric cDNA in Escherichia coli cells. After refolding in vitro, the chimeric protein was purified to homogeneity by zinc chelate-Sepharose chromatography, Sephacryl S200 chromatography and benzamidine-Sepharose chromatography in sequence. The apparent molecular mass was 36 kDa shown by SDS-PAGE analysis. The special activity was 87,000 IU/mg detected by fibrin plate determination. F beta/scuPA-32k could directly activate plasminogen following Michaelis-Menten kinetics with K(m) = 0.52 microM and k(2) = 0.0024 s(-1). Mediated by plasmin, the single-chain molecule could be converted to the active two-chain molecule. The chimeric protein had 3.3 times higher fibrin affinity than scuPA-32k in the fibrin concentration of 3.2 mg/mL, while the chimeric protein inhibited the fibrin clotting and platelet aggregation. F beta/scuPA-32k showed a higher thrombolytic potency in vitro plasma clot lysis than scuPA-32k and depleted less fibrinogen in plasma. These results showed that the chimeric protein had not only higher fibrinolytic activity but also anti-thrombus activity. Further evaluation of the thrombolytic potential in appropriate animal models is required.     

Characterization of a chimeric plasminogen activator consisting of amino acids 1 to 274 of tissue-type plasminogen activator and amino acids 138 to 411 of single-chain urokinase-type plasminogen activator

A chimeric plasminogen activator (t-PA/scu-PA-s), consisting of amino acids 1-263 of tissue-type plasminogen activator (t-PA) and 144-411 of single-chain urokinase-type plasminogen activator (scu-PA), was previously shown to maintain the enzymatic properties of scu-PA but to have only partially acquired the fibrin affinity of t-PA, possibly as a result of steric interaction between the functional domains of t-PA and scu-PA (Nelles, L., Lijnen, H. R., Collen, D., and Holmes, W.E. (1987) J. Biol. Chem. 262, 10855-10862). Therefore, we now have constructed an extended chimeric t-PA/scu-PA protein, consisting of amino acids 1-274 of t-PA and 138-411 of scu-PA, which thus has an additional sequence of 17 residues in the region joining the two proteins. The highly purified extended chimeric protein (t-PA/scu-PA-e) was found to have similar specific activity on fibrin film (65,000 IU/mg), kinetic constants for the activation of plasminogen (Km = 1 microM, k2 = 0.0026 s-1), fibrin affinity (50% binding at a fibrin concentration of 3.3 g/liter), and fibrin specificity of clot lysis in a plasma environment (50% lysis in 2 h with 8 nM of the chimer) as the previously characterized chimeric protein (t-PA/scu-PA-s). Thus, unexpectedly, the fibrin affinity of t-PA is also only partially expressed in this extended chimeric protein. Therefore, the NH2-terminal chains (A-chains) of the plasmin-generated two-chain derivatives t-PA/tcu-PA-e, t-PA/tcu-PA-s, and of t-PA were isolated. These A-chain structures of the chimers were found to have lost most of their fibrin affinity, whereas the fibrin affinity of the A-chain of native t-PA was maintained. Differential reactivity of the A-chain structures of both chimeric molecules with monoclonal antibodies directed against the A-chain of t-PA suggested that they were conformationally altered. Sequential fibrin binding experiments with t-PA/scu-PA-e and t-PA/scu-PA-s yielded 45 +/- 8 (n = 11) and 43 +/- 5% (n = 8), respectively, binding in the first cycle and 44 +/- 7 (n = 11) and 27 +/- 10% (n = 8), respectively, binding in the second cycle. This suggests that the low affinity of the chimeric molecules for fibrin is not due to the occurrence of subpopulations of molecules with different fibrin affinity but, instead, to a uniformly decreased fibrin affinity in all molecules.     

Characterization of a recombinant chimeric plasminogen activator with enhanced fibrin binding

A recombinant chimeric plasminogen activator (GHRP-scu-PA-32K), consisting of the tetrapeptide Gly-His-Arg-Pro fused to the N-terminus of the low-molecular single-chain urokinase-type plasminogen activator (Leu144-Leu411), was produced by expression in CHO cells. The stable expression cell line was selected for large-scale expression. The product was purified by antibody-Sepharose affinity chromatography with a recovery of 67%. The apparent molecular weight of purified GHRP-scu-PA-32K was 33 kDa according to SDS-PAGE. Its specific activity was 150000 IU/mg protein according to fibrin plate determination. The conversion of single-chain to two-chain molecules mediated by plasmin was comparable for GHRP-scu-PA-32K (K(m)=4.9 microM, k(2)=0.35 s(-1)) and scu-PA-32K. The activation of plasminogen by GHRP-scu-PA-32K (K(m)=1.02 microM, k(2)=0.0028 s(-1)) was also similar to that of scu-PA-32K. The fibrin binding of GHRP-scu-PA-32K was 2.5 times higher than that of scu-PA-32K at a fibrin concentration of 3.2 mg/ml. In contrast to scu-PA-32K in vitro 125I-fibrin-labeled plasma clot lysis, GHRP-scu-PA had a higher thrombolytic potency, whereas it depleted less fibrinogen in plasma. These results show that GHRP-scu-PA-32K as expected is a potential thrombolytic agent.     

Expression and purification of a single-chain variable fragment antibody derived from a polyol-responsive monoclonal antibody

A previously described polyol-responsive monoclonal antibody (PR-mAb) was converted to a single-chain variable fragment (scFv). This antibody, PR-mAb NT73, reacts with the beta' subunit of Escherichia coli RNA polymerase and has been used for the immunoaffinity purification of polymerase. mRNAs encoding the variable regions of the heavy chain (VH) and light chain (VL) were used as the template for cDNA synthesis. The sequences were joined by the addition of a "linker" sequence and then cloned into several expression vectors. A variety of expression plasmids and E. coli hosts were used to determine the optimal expression system. Expression was highest with the pET22b(+) vector and the Rosetta(DE3)pLysS host strain, which produced approximately 60 mg purified His-tagged scFv per liter of culture (3.3 g wet weight cells). Although the production of soluble scFv was preferred, overproduced scFv formed inclusion bodies under every expression condition. Therefore, inclusion bodies had to be isolated, washed, solubilized, and refolded. The FoldIt protein refolding kit and enzyme-linked immunosorbent assay were sequentially used to determine the optimal refolding conditions that would produce active His-tagged scFv. Immobilized metal affinity chromatography was used for the final purification of the refolded active scFv. The polyol-responsiveness of the scFv was determined by an ELISA-elution assay. Although the scFv loses considerable affinity for its antigen, it maintains similar polyol-responsiveness as the parent monoclonal antibody, PR-mAb NT73.     

Activation with plasmin of tow-chain urokinase-type plasminogen activator derived from single-chain urokinase-type plasminogen activator by treatment with thrombin

Thrombin converts single-chain urokinase-type plasminogen activator (scu-PA) to an inactive two-chain derivative (thrombin-derived tcu-PA) by hydrolysis of the Arg-156--Phe-157 peptide bond. In the present study, we show that inactive thrombin-derived tcu-PA (specific activity 1000 IU/mg) can be converted with plasmin to active two-chain urokinase-type plasminogen activator (specific activity 43,000 IU/mg) by hydrolysis of the Lys-158--Ile-159 peptide bond. This conversion follows Michaelis-Menten kinetics with a Michaelis constant Km of 37 microM and a catalytic rate constant k2 of 0.013 s-1. The catalytic efficiency (k2/Km) for the activation of thrombin-derived tcu-PA by plasmin is about 500-fold lower than that for the conversion of intact scu-PA to tcu-PA. tcu-PA, generated by plasmin treatment of thrombin-derived tcu-PA, has similar properties to tcu-PA obtained by digestion of intact scu-PA with plasmin (plasmin-derived tcu-PA); its plasminogen activating potential and fibrinolytic activity in an in vitro plasma clot lysis system appear to be unaltered. These observations confirm that the structure of the NH2-terminal region of the B chain of u-PA is an important determinant for its enzymatic activity, whereas that of the COOH-terminal region of the A chain is not.     

Characterization of urokinase type plasminogen activator modified by phenylglyoxal

A chemical modification of single-chain urokinase-type plasminogen activator (scu-PA) with phenylglyoxal under mild conditions resulted in the scu-PA derivatives with various numbers of the modified Arg residues. The study of properties of the resulting derivatives demonstrated that the modification of 4-12 Arg residues did not cause any loss of the activator, fibrinolytic, and potential amidase activities of the activator. The scu-PA with four modified Arg residues was found to be the most stable derivative in human blood plasma; it causes a more efficient lysis of plasma clots than the native activator. Three of four modified Arg residues are supposed to be within the 178RRHRGGS184 cluster, which was localized in the superficial loop of the scu-PA globule and was shown to interact with the complementary series of negatively charged residues in the molecule of the main plasma inhibitor PAI-1. The neutralization of positively charged Arg residues in this cluster decreases the affinity of scu-PA and the double chain urokinase-type plasminogen activator for PAI-1, which results in an enhancement of the stability in plasma and the fibrinolytic efficiency of the activator. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2002, vol. 28, no. 4; see also http://www.maik.ru.     

Expression and long-term stability of a recombinant single-chain Fv antibody fragment in transgenic Nicotiana tabacum seeds

A functionally active anti-hepatitis B surface antigen single-chain Fv antibody fragment (scFv) was expressed in seeds of transgenic tobacco plants using genetic constructs for expression in the vacuole or the apoplastic fluid. Antibody levels close to 0.2% of the total soluble protein were found. After storage of the transgenic tobacco seeds for one year and a half a year at room temperature, the scFv maintained its antigen-binding activity in full.     

A specific plasminogen activator inhibitor‐1 antagonist derived from inactivated urokinase

Fibrinolysis is a process responsible for the dissolution of formed thrombi to re‐establish blood flow after thrombus formation. Plasminogen activator inhibitor‐1 (PAI‐1) inhibits urokinase‐type and tissue‐type plasminogen activator (uPA and tPA) and is the major negative regulator of fibrinolysis. Inhibition of PAI‐1 activity prevents thrombosis and accelerates fibrinolysis. However, a specific antagonist of PAI‐1 is currently unavailable for therapeutic use. We screened a panel of uPA variants with mutations at and near the active site to maximize their binding to PAI‐1 and identified a potent PAI‐1 antagonist, PAItrap. PAItrap is the serine protease domain of urokinase containing active‐site mutation (S195A) and four additional mutations (G37bR–R217L–C122A–N145Q). PAItrap inhibits human recombinant PAI‐1 with high potency (K_d = 0.15 nM) and high specificity. In vitro using human plasma, PAItrap showed significant thrombolytic activity by inhibiting endogenous PAI‐1. In addition, PAItrap inhibits both human and murine PAI‐1, allowing the evaluation in murine models. In vivo, using a laser‐induced thrombosis mouse model in which thrombus formation and fibrinolysis are monitored by intravital microscopy, PAItrap reduced fibrin generation and inhibited platelet accumulation following vascular injury. Therefore, this work demonstrates the feasibility to generate PAI‐1 inhibitors using inactivated urokinase.     

Characterization of a recombinant single-chain molecule comprising the variable domains of a monoclonal antibody specific for human fibrin fragment D-dimer

A recombinant single-chain molecule, scFv-K12G0, containing the variable domains of the monoclonal antibody MA-15C5, specific for fragment D-dimer of human cross-linked fibrin, was constructed and expressed in Spodoptera frugiperda, Sf9, insect cells. The Arg108 carboxyl-terminal amino acid of the variable domain of the light-chain of the antibody was connected through a synthetic Ala-Gly-Gln-Gly-Ser-Ser-Val peptide linker with the Gln1 amino-terminal amino acid of the variable domain of its heavy chain. scFv-K12G0 was secreted by the infected Sf9 cells at a rate of 10 micrograms/10(6) cells within 48 h, resulting in conditioned medium with a maximal concentration of 15 mg of scFv-K12G0/liter. The molecule, purified to homogeneity by ion exchange chromatography and gel filtration, migrated as a single Mr band on reduced sodium dodecyl sulfate-gel electrophoresis. It bound to immobilized fragment D-dimer with an affinity constant of 4.0 x 10(9) M-1 (2.0 x 10(10) M-1 for intact MA-15C5). Clearing of scFv-K12G0 from the circulation in rabbits occurred with an initial half-life (t1/2 alpha) of 10 min and a clearance of 5.1 ml min-1, as compared to 90 min and 210 ml min-1 for intact MA-15C5. Nephrectomy resulted in a prolongation of t1/2 alpha to 110 min, suggesting that the rapid clearance of scFv-K12G0 occurs primarily via the kidney, presumably by glomerular filtration. The results indicate that the single-chain recombinant molecule scFv-K12G0 is secreted in functionally intact form and suggest that it may be useful for targeting of radioisotopes or plasminogen activators to blood clots in vivo.     

Cloning, expression and characterisation of a single-chain Fv antibody fragment against domoic acid in Escherichia coli

Domoic acid is a potent neuroexcitatory toxin that causes amnesic shellfish poisoning in humans through ingestion of contaminated shellfish. The variable regions of the heavy chain (V(H)) and light chain (V(L)) of an antibody specific for domoic acid were cloned from a mouse hybridoma cell line and used to construct single-chain antibody fragments (scFvs) in a variety of formats. V(H)-linker-V(L) scFvs were expressed better in Escherichia coli than the V(L)-linker-V(H) format, while use of the commonly used (Gly4Ser)3 inter-domain linker resulted in higher yields than a longer (Gly4Ser)6 linker variant. Higher soluble protein yields were achieved in E. coli TOP 10 than in E. coli XL1-Blue cells and co-production of the E. coli disulfide bond isomerase enzyme DsbC allowed higher cell densities to be attained during scFv production, leading to increased yields of recombinant protein. The purified scFv exhibited binding similar to the parent monoclonal antibody and is being used to develop an immunosensor to detect domoic acid in contaminated shellfish samples.     

Construction and high-level expression of a single-chain Fv antibody fragment specific for acidic isoferritin in Escherichia coli

A functional single-chain Fv antibody fragment (scFv) specific for acidic isoferritin (AIF) was produced at high level in Escherichia coli. The variable regions of heavy chain (V(H)) and light chain (V(L)) from the hybridoma 4c9 were connected with a flexible linker using an assembly polymerase chain reaction. The construct of V(H)-linker-V(L) was inserted into a phagemid pCANTAB 5 E followed by selection with the Recombinant Phage Antibody System (RPAS). Anti-AIF scFv gene from the recombinant phagemid pCAN4c9 was subcloned into pET28a fused to N-terminal His-tag sequence in frame and overexpressed in E. coli BL21(DE3). With an on-column refolding procedure based on Ni-chelating chromatography, the active anti-AIF scFv was recovered efficiently from inclusion bodies with a refolding yield of approximate 75% confirmed by spectrophotometer. The activity of refolded scFv was determined through sodium dodecyl sulfate-polyacrylamide gel electrophoresis, Western blotting and enzyme-linked immunosorbent assay. The results showed anti-AIF scFv retains the specific binding activity to AIF with an affinity constant of 7.29 x 10(-8) mol l(-1). The overall yield of anti-AIF scFv with bioactivity in E. coli flask culture was more than 60 mg l(-1).     

An optimized fermentation process for high-level production of a single-chain Fv antibody fragment in Pichia pastoris

The expression of a humanized single-chain variable domain fragment antibody (A33scFv) was optimized for Pichia pastoris with yields exceeding 4 g L(-1). A33scFv recognizes a cell surface glycoprotein (designated A33) expressed in colon cancer that serves as a target antigen for immunotherapy of colon cancer. P. pastoris with a MutS phenotype was selected to express A33scFv, which was cloned under regulation of the methanol-inducible AOX1 promoter. We report the optimization of A33scFv production by examining methanol concentrations using fermentation technology with an on-line methanol control in fed-batch fermentation of P. pastoris. In addition, we examined the effect of pH on A33scFv production and biomass accumulation during the methanol induction phase. A33scFv production was found to increase with higher methanol concentrations, reaching 4.3 g L(-1) after 72 h induction with 0.5% (v/v) methanol. Protein production was also greatly affected by pH, resulting in higher yields (e.g., 4.88 g L(-1)) at lower pH values. Biomass accumulation did not seem to vary when cells were induced at different pH values, but was greatly affected by lower concentration of methanol. Purification of A33scFv from clarified medium was done using a two-step chromatographic procedure using anion-exchange and hydrophobic interaction chromatography, resulting in 25% recovery and >90% purity. Pure A33scFv was tested for functionality using surface plasmon resonance and showed activity against immobilized A33 antigen. Our results demonstrate that functional A33scFv can be produced in sufficient quantities using P. pastoris for use in further functionality studies and diagnostic applications.     

Structural and functional characterization of the single-chain Fv fragment from a unique HCV E1E2-specific monoclonal antibody

The nucleotide sequence of the unique neutralizing monoclonal antibody D32.10 raised against a conserved conformational epitope shared between E1 and E2 on the serum-derived hepatitis C virus (HCV) envelope was determined. Subsequently, the recombinant single-chain Fv fragment (scFv) was cloned and expressed in Escherichia coli, and its molecular characterization was assessed using multi-angle laser light scattering. The scFv mimicked the antibody in binding to the native serum-derived HCV particles from patients, as well as to envelope E1E2 complexes and E1, E2 glycoproteins carrying the viral epitope. The scFv D32.10 competed with the parental IgG for binding to antigen, and therefore could be a promising candidate for therapeutics and diagnostics.     

Stability of a single-chain Fv antibody fragment when exposed to a high shear environment combined with air-liquid interfaces

The effect of shear on the antigen binding activity of a recombinant scFv antibody fragment was investigated in the presence of air-liquid interfaces using a stirred vessel that was incompletely filled. Changes in binding activity of the scFv to its antigen were monitored using an optical biosensor which had been sensitized with hen egg lysozyme (the antigen). The biosensor response was used as a measure of scFv binding activity. In buffer solution (mean velocity gradient approximately 20,000 s-1), loss of binding activity followed a first-order model with a mean rate constant of 0.83 h-1. In unstirred buffer solution, no such loss was observed. Similarly, in sheared fermentation broth there was no loss of binding activity and protective effects were attributed to the antifoam PPG.     

Characterization of a recombinant fusion protein of the finger domain of tissue-type plasminogen activator with a truncated single chain urokinase-type plasminogen activator

Human recombinant single chain urokinase-type plasminogen activator (recombinant scu-PA) and a hybrid between human tissue-type plasminogen activator (t-PA) and scu-PA, obtained by ligation of cDNA fragments encoding the NH2-terminal region (amino acids 1-67) of t-PA and the COOH-terminal region (amino acids 136-411) of scu-PA, were expressed in a mammalian cell system. The proteins were purified from conditioned culture media containing 2% fetal calf serum by chromatography on zinc chelate-Sepharose, immunoadsorption chromatography on an insolubilized murine monoclonal antibody directed against urokinase, benzamidine-Sepharose chromatography, and Ultrogel AcA 44 gel filtration. Between 180 and 230 micrograms of the purified proteins were obtained per liter of conditioned medium, with a yield of approximately 18% and a purification factor of 720-1900. On sodium dodecyl sulfate gel electrophoresis under reducing conditions, the proteins migrated as single bands with approximate Mr 50,000 for recombinant scu-PA and Mr 43,000 for the t-PA/scu-PA hybrid. Following conversion to urokinase with plasmin, the proteins had a specific amidolytic activity comparable to that of natural scu-PA. Both proteins activated plasminogen directly with Km = 0.53 and 1.4 microM and k2 = 0.0034 and 0.0027 s-1, respectively. Both proteins did not bind specifically to fibrin and had a comparable degree of fibrin selectivity as measured in a system composed of a whole human 125I-fibrin-labeled plasma clot suspended in human plasma. It is concluded that this chimeric protein, consisting of the NH2-terminal "finger-like" domain of t-PA and the COOH-terminal region of scu-PA, has very similar enzymatic properties as compared to scu-PA, but has not acquired the fibrin affinity of t-PA.     

Secretion of single-chain urokinase-type plasminogen activator from insect cells.

A cDNA encoding human urokinase-type plasminogen activator was inserted downstream from the polyhedrin promoter of the baculovirus Autographa californica nuclear polyhedrosis virus. A protein of similar Mr to urokinase (UK) was synthesized and approx. 90% was secreted from recombinant virus-infected Spodoptera frugiperda cells. Zymography and Western blotting analysis of the insect-derived protein demonstrated that it was comprised solely of the high-Mr form of UK. No low-Mr UK was detected. Amidolytic activity assays showed that 96% of the insect cell-derived UK was in the single-chain proenzyme form. The yield of UK from insect cells was 1986 international units/ml/10(6) infected cells.