Recombinant human microplasmin: production and potential therapeutic properties.

The effect of recombinant human microplasmin was studied in ischemic stroke models in mice and in an extracorporeal loop thrombosis model in rabbits. Human microplasminogen ( micro Plg), which lacks the five 'kringle' domains of plasminogen was expressed with high yield in Pichia pastoris. It was purified, converted to microplasmin ( micro Pli) and equilibrated with 5 mmol L(-1) citrate, pH 3.1, yielding a stable preparation. In mice with middle cerebral artery (MCA) ligation, an intravenous (i.v.) bolus of 5.0 mg kg(-1) micro Pli reduced infarct size at 24 h from 27 (26-30) to 25 (21-28) mm3 (median and range, n= 16 each, P= 0.0001), whereas 4.0 mg kg(-1) rt-PA and 40 mg kg(-1) micro Plg had no effect. Infarct reduction was observed with administration at 4 h after occlusion. In mice with MCA, infarct size at 24 h was reduced from 20 (14-30) to 9.1 (3.1-25) mm3 with 5.0 mg kg(-1) micro Pli (n = 15 each, P < 0.002) and to 11 (5.2-27) mm3 with 4.0 mg kg(-1) rt-PA (n = 6; P= 0.02). Infarct reduction was still observed at 10 h after occlusion with micro Pli but not with t-PA. In rabbits with radiolabeled clots in an extracorporeal arteriovenous loop, local infusion of 2.5 mg kg(-1) micro Pli over 2 h, induced 51 +/- 15% lysis (mean +/- SD, n= 11) vs. a control value of 23 +/- 5.5%. micro Pli did not prolong template bleeding times, whereas equipotent doses of rt-PA were associated with extensive rebleeding. The potency of micro Pli in both models was similar to that of intact plasmin. These findings indicate that recombinant micro Pli may be useful for treatment of ischemic stroke and arterial thrombosis.

Polyethylene glycol-derivatized cysteine-substitution variants of recombinant staphylokinase for single-bolus treatment of acute myocardial infarction.

BACKGROUND: Thrombolytic therapy of acute myocardial infarction (AMI) is evolving toward bolus administration. Derivatization of proteins with polyethylene glycol (PEG) may reduce their clearance. METHODS AND RESULTS: A staphylokinase (SakSTAR) variant with 12 amino acid substitutions to reduce its antigenicity, SakSTAR (K35A, E65Q, K74R, E80A, D82A, T90A, E99D, T101S, E108A, K109A, K130T, K135R), and with Ser in position 3 mutated into Cys (code SY161), was derivatized with maleimide-PEG with M:(r) of 5,000 (P5), 10,000 (P10), or 20,000 (P20). The PEGylated variants recognized only one third of the antibodies elicited with wild-type SakSTAR in AMI patients. In experimental animals, plasma clearances were reduced 2. 5- to 5-fold with P5, 5- to 20-fold with P10, and 20-fold with P20, and bolus injection induced pulmonary plasma clot lysis at doses inversely related to their clearance. Intravenous bolus injection of 5 mg of the P5, P10, or P20 variants in AMI patients was associated with plasma half-lives (t(1/2alpha)) of 13, 30, and 120 minutes and clearances of 75, 43, and 8 mL/min, respectively, compared with 3 minutes and 360 mL/min for SakSTAR. Injection of 5 mg P5 variant restored TIMI-3 flow within 60 minutes in 14 of 18 AMI patients (78%, 95% CI 55% to 91%) and of 2.5 mg in 7 of 11 patients (63%, 95% CI 35% to 85%), both in the absence of fibrinogen degradation. The immunogenicity of the variants was significantly (P:<0.002) reduced. CONCLUSIONS: The staphylokinase variant SY161-P5, derivatized with one linear polyethylene glycol molecule of M:(r) 5000, is a promising fibrin-selective agent for single-bolus coronary thrombolysis.

Recombinant staphylokinase variants with reduced antigenicity due to elimination of B-lymphocyte epitopes.

Site directed mutagenesis (350 variants) of recombinant staphylokinase (SakSTAR), a potent fibrin-selective thrombolytic agent, was undertaken in order to reduce its antigenicity while maintaining its potency. Variants with K35A, (ie, Lys[K] in position 35 substituted with Ala[A]), E65D or E65Q, K74R or K74Q, E80A+D82A, K130T, and K135R displayed increased enzymatic activity or reduced binding of human staphylokinase-specific antibodies. Additive mutagenesis identified 8 variants with intact thrombolytic potencies, which absorbed down to less than a third of SakSTAR-specific antibodies. Intra-arterial administration in 61 patients with peripheral arterial occlusion caused no significant allergic reactions. Median neutralizing antibody titers (with 15 to 85 percentiles), expressed as microgram (microg) compound neutralized per milliliter plasma, were 4.4 (0.3 to 49) for the variants, compared with 12 (4 to 100) in 70 patients given wild-type SakSTAR (P =.002 by Mann-Whitney rank sum test). Overt neutralizing antibody induction (more than 5 microg compound neutralized per milliliter plasma) was observed in 57 of 70 patients (81%) given wild-type SakSTAR, but only in 28 of 60 patients (47%) treated with variants (P <.0001 by Fisher exact test). On the basis of this study, the variant SakSTAR (K35A, E65Q, K74R, D82A, S84A, T90A, E99D, T101S, E108A, K109A, K130T, K135R) (code SY155) has been selected for further clinical development. (Blood. 2000;96:1425-1432)

Structural and functional basis of plasminogen activation by staphylokinase.

Staphylokinase (Sak), a 15.5-kDa bacterial protein, forms a complex with human plasmin, which in turn activates other plasminogen molecules to plasmin. Three recombinant DNA-based approaches, (i) site directed substitution with alanine, (ii) search for proximity relationships at the complex interface, and (iii) active-site accessibility to protease inhibitors have been used to deduce a coherent docking model of the crystal structure of Sak on the homology-based model of microplasmin (microPli), the serine protease domain of plasmin. Sak binding on microPli is primarily mediated by two surface-exposed loops, loops 174 and 215, at the rim of the active-site cleft, while the binding epitope of Sak on microPli involves several residues located in the flexible NH2-terminal arm and in the five-stranded mixed beta-sheet. Several Sak residues located within the unique alpha-helix and the beta2 strand do not contribute to the binding epitope but are essential to induce plasminogen activating potential in the Sak:microPli complex. These residues form a topologically distinct activation epitope, which, upon binding of Sak to the catalytic domain of microPli, protrudes into a broad groove near the catalytic triad of microPli, thereby generating a competent binding pocket for micro-plasminogen (microPlg), which buries approximately 2500 A of the Sak:microPli complex upon binding. This structural and functional model may serve as a template for the design of improved Sak-derived thrombolytic agents. Following the completion and presentation of the present study, the deduced Sak:microPli:microPlg complex was fully confirmed by X-ray crystallography, which further illustrates the power and potential of the present approach.

Recombinant staphylokinase variants with altered immunoreactivity. III: Species variability of antibody binding patterns.

BACKGROUND: The "charged cluster-to-alanine" substitution variants SakSTAR(K35A,E38A,K74A,E75A,R77A) and SakSTAR(K74A,E75A,R77A,E80A,D82A), previously identified as SakSTAR.M38 and SakSTAR.M89, respectively, induce less antibody formation in patients than wild-type recombinant staphylokinase (SakSTAR), but their specific activities are reduced by 50%. Therefore, the effect of the reversal of one or more of these substituted amino acids on the ratio of activity to antigenicity was studied. METHODS AND RESULTS: Fourteen mutants with one to four "alanine-to-wild-type" reversals were expressed in Escherichia coli and highly purified (> 95%). In rabbits immunized with wild-type SakSTAR, the combined K35,E38,K74,E75,R77 or K74,E75,R77,E80,E82 epitope accounted for only 30% of antibody absorption from plasma, and no clear immunodominant residue could be identified. In baboons immunized with SakSTAR, the K35,E38 and K74,E75,R77 epitopes or the K74,E75,R77 and E80,D82 epitopes contributed equally to account for 50% of total antibody binding, but no immunodominant residues were apparent. In pooled plasma from patients with peripheral arterial occlusion treated with wild-type SakSTAR, about 40% of the antibodies depended on K74 of epitope K74,E75,R77 for binding, whereas epitopes K35,E38 and E80,D82 had a negligible contribution toward antibody recognition. CONCLUSIONS: The recognition pattern by SakSTAR variants of antibodies induced with wild-type SakSTAR differs markedly among species. This implies that a systematic evaluation of reduced antigen recognition and antibody induction in humans will require the development of human or humanized systems. Surprisingly, SakSTAR(K74), with a single substitution of Lys74 with Ala, had an intact specific activity but did not absorb 40% of the antibodies induced in patients by treatment with wild-type SakSTAR.

Recombinant staphylokinase variants with altered immunoreactivity. I: Construction and characterization.

BACKGROUND: Recombinant staphylokinase offers promise for thrombolytic therapy in acute myocardial infarction, but it is immunogenic. Although reduced immunogenicity of heterologous proteinaceous drugs by protein engineering has not previously been reported, an attempt was made to achieve this in staphylokinase by site-specific mutagenesis. METHODS AND RESULTS: Biospecific interaction analysis of a panel of 17 murine monoclonal antibodies against recombinant staphylokinase (SakSTAR variant) identified three nonoverlapping immunodominant epitopes, two of which could be eliminated by substitution mutagenesis of clusters of two or three charged amino acids with alanine. Circulating anti-staphylokinase antibodies elceted in patients by treatment with SakSTAR were incompletely (< 90%) absorbed by these mutants. Therefore, the combination variants K35A,E38A,K74A,E75A,R77A (SakSTAR.M38) and K74A,E75A,R77A,E80A,D82A (SakSTAR.M89) were constructed, expressed in Escherichia coli, highly purified by ion-exchange and hydrophobic interaction chromatography, and characterized. These variants had specific activities that were approximately half that of SakSTAR, and they combined the reduced reactivity with the panels of monoclonal antibodies of their parent molecules. Absorption of circulating antibodies elicited in patients by treatment with SakSTAR was incomplete in 13 of 16 patients (median values, 68% and 65% with SakSTAR.M38 and SakSTAR.M89, respectively). CONCLUSIONS: SakSTAR contains three immunodominant epitopes, two of which were eliminated by site-directed mutagenesis, yielding combination mutants with relatively maintained specific activities that were not recognized by a significant fraction of the antibodies elicited in patients by treatment with wildtype SakSTAR. These mutants appear to be suitable for more detailed investigation of their thrombolytic and antigenic properties.

Phospholipid binding and lecithin-cholesterol acyltransferase activation properties of apolipoprotein A-I mutants.

Recombinant human apolipoprotein A-I (apo A-I) and three deletion mutants: apo A-I(delta Leu44-Leu126), apo A-I(delta Glu139-Leu170), and apo A-I(delta Ala190-Gln243), purified from the periplasmic space of Escherichia coli, were studied. The rate of turbidity decrease following mixing of apo A-I(delta Ala190-Gln243) with dimyristoylphosphatidylcholine (DMPC) vesicles at 23 degrees C was 10-fold lower than that of the other apo A-I proteins, confirming that the carboxy-terminal region of apo A-I plays a role in rapid lipid binding. The Stokes radii of reconstituted high-density lipoproteins (rHDL), containing dipalmitoylphosphatidylcholine and cholesterol, were larger for the three apo A-I mutants [6.3 nm for apo A-I(delta Leu44-Leu126), 6.1 nm for apo A-I(delta Glu139-Leu170), and 6.5 nm for apo A-I(delta Ala190-Gln243)] than for intact apo A-I (5.0 nm). The mutant rHDL all contained 4 apo A-I molecules per particle as compared to 2 for intact apo A-I. Circular dichroism measurements revealed 8 alpha-helices per apo A-I molecule, 5 per apo A-I(delta Leu44-Leu126), 6 per apo A-I(delta Glu139-Leu170), and 4 per apo A-I(delta Ala190-Gln243) molecule as compared to predicted values of 8, 5, 6, and 6 alpha-helices, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)

K1K2Pu, a recombinant t-PA/u-PA chimera with increased thrombolytic potency, consisting of amino acids 1 to 3 and 87 to 274 of human tissue-type plasminogen activator (t-PA) and amino acids 138 to 411 of human single chain urokinase-type plasminogen activator (scu-PA). Purification in centigram quantities and conditioning for use in man.

K1K2Pu, a recombinant t-PA/u-PA chimera with increased thrombolytic potency in animal models of venous and arterial thrombosis, which consists of amino acids 1 to 3 and 87 to 274 of human tissue-type plasminogen activator (t-PA) and amino acids 138 to 411 of human single chain urokinase-type plasminogen activator (scu-PA), was produced and conditioned for use in patients. Chinese hamster ovary cells were transfected with an expression plasmid containing the K1K2Pu cDNA, high producer cell lines were selected and scaled up in 800 cm2 roller bottles, and 350 ml conditioned cell culture medium was harvested 3 to 7 times at 2 to 5 day intervals. Batches of 21 +/- 4 liter (mean +/- SD, n = 28) containing 1.8 +/- 0.6 mg/l of K1K2Pu related antigen were purified by chromatography on Copper chelate-Sepharose and immunoadsorption on an insolubilized murine monoclonal antibody (MA-1C8). Yields were 8.6 +/- 3.4 mg K1K2Pu per batch with a specific activity of 83,000 +/- 44,000 IU/mg. The final material, obtained at a concentration of approximately 0.7 mg/ml, was dialyzed against 0.3 M NaCl, 0.02 M Tris-HCl buffer, pH 7.5, containing 0.01% Tween 80 and 10 KIU/ml aprotinin. It was homogeneous on SDS-PAGE, contained 6.5 +/- 6.9 percent two chain material and the contamination with murine monoclonal antibody was less than 0.1 percent. After filtration of pools of 3 to 5 selected batches on 0.22 microns Millipore filters the material was sterile and virus free by routine screening; it was obtained at a concentration of approximately 0.5 mg/ml with a specific activity of 110,000 +/- 16,000 IU/mg (mean +/- SD, n = 3) and an endotoxin content of 0.5 to 7 units/mg. Bolus injection at a dose of 1 mg/kg in mice did not produce weight loss within 8 days. Thus, this material appears to be suitable for the investigation on a pilot scale of the pharmacokinetic and thrombolytic properties of K1K2Pu in patients with thromboembolic disease.

Characterization of a chimeric plasminogen activator consisting of a single-chain Fv fragment derived from a fibrin fragment D-dimer-specific antibody and a truncated single-chain urokinase.

An Mr 57,000 single-chain chimeric plasminogen activator, K12G0S32, consisting of a variable region fragment (Fv) derived from the fibrin fragment D-dimer-specific monoclonal antibody MA-15C5 and of a 33-kDa (amino acids Ala132 to Leu411) recombinant single-chain urokinase-type plasminogen activator (rscu-PA-33k) was studied. K12G0S32, secreted by infected Spodoptera frugiperda insect cells at a rate of 1.5 micrograms/10(6) cells/48 h, was purified to homogeneity by ion-exchange chromatography and gel filtration. It was obtained essentially as a single-chain molecule with a Ka = 5.5 x 10(9) M-1 for immobilized fragment D-dimer, similar to that of MA-15C5. The specific activity of both its single-chain and two-chain forms on fibrin plates was 100,000 IU/mg of urokinase-type plasminogen activator (u-PA) equivalent. Activation of plasminogen by two-chain K12G0S32 obeyed Michaelis-Menten kinetics with Km = 2.9 +/- 0.6 microM and a k2 = 3.7 +/- 0.6 s-1 (mean +/- S.D.; n = 3), as compared to Km = 12 microM and k2 = 4.8 s-1 for rtcu-PA-32k (recombinant low Mr two-chain u-PA consisting of amino acids Leu144 to Leu411). Single-chain K12G0S32 induced a dose- and time-dependent lysis of a 125I-fibrin-labeled human plasma clot immersed in citrated human plasma; 50% lysis in 2 h was obtained with 0.70 +/- 0.07 micrograms/ml (mean +/- S.D.; n = 5), as compared with 8.8 +/- 0.1 micrograms/ml for rscu-PA-32k (recombinant low Mr single-chain u-PA consisting of amino acids Leu144 to Leu411) (mean +/- S.D.; n = 3). With two-chain K12G0S32, 50% clot lysis in 2 h required 0.25 +/- 0.03 micrograms/ml (mean +/- S.D.; n = 3), as compared with only 0.62 +/- 0.04 micrograms/ml (mean +/- S.D.; n = 2) for rtcu-PA-32k. These results indicate that low Mr single-chain u-PA can be targeted to a fibrin clot with a single-chain Fv fragment of a fibrin-specific antibody, resulting in a 13-fold increase of the fibrinolytic potency of the single-chain form and a 2.5-fold increase of the potency of the two-chain form.

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.

Characterization of domain deletion and/or duplication mutants of a recombinant chimera of tissue-type plasminogen activator and urokinase-type plasminogen activator (rt-PA/u-PA).

Chimeric molecules comprising the A-chain of tissue-type plasminogen activator (t-PA) and the catalytic domain of urokinase-type plasminogen activator (u-PA) have intact enzymatic characteristics of u-PA, but only partial fibrin-binding properties of t-PA (Nelles et al., J Biol Chem 1987; 262: 10855-62). The following domain deletion and/or duplication mutants of such a t-PA/u-PA chimera were constructed, purified and characterized: rt-PA-delta FE/u-PA, with deletion of the finger-like (F) and epidermal growth factor-like (E) domains, rt-PA-delta K1 delta K2/u-PA, with kringle 1 (K1) replaced by a second copy of kringle 2 (K2), and rt-PA-delta FEK1 delta K2/u-PA, with F and E domain deletions in rt-PA-delta K1 delta K2/u-PA. The specific activities on fibrin plates of the single-chain (sc) chimeras ranged between 68,000 IU/mg for rt-PA-delta K1 delta K2/scu-PA and 200,000 IU/mg for rt-PA-delta FEK1 delta K2/scu-PA, as compared to 120,000 IU/mg for rscu-PA. The specific activities of their plasmin-generated two-chain (tc) derivatives ranged between 120,000 IU/mg for rt-PA-delta K1 delta K2/tcu-PA and 240,000 IU/mg for rt-PA-delta FEK1 delta K2/tcu-PA, as compared to 100,000 IU/mg for rtcu-PA. All two-chain chimeras activated plasminogen following Michaelis-Menten kinetics, with catalytic efficiencies between 0.072 microM-1s-1 for rt-PA-delta K1 delta K2/tcu-PA and 0.081 microM-1 s-1 for rt-PA-delta FEK1 delta K2/tcu-PA, as compared to 0.088 microM-1 s-1 for rtcu-PA.(ABSTRACT TRUNCATED AT 250 WORDS)

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.

Structural and functional characterization of mutants of recombinant single-chain urokinase-type plasminogen activator obtained by site-specific mutagenesis of Lys158, Ile159 and Ile160.

Single-chain urokinase-type plasminogen activator (scu-PA) is converted to urokinase by hydrolysis of the Lys158-Ile159 peptide bond. Site-directed mutagenesis of Lys158 to Gly or Glu yields plasmin-resistant mutants with a 10-20-fold reduced catalytic efficiency for the activation of plasminogen [Nelles et al. (1987) J. Biol. Chem. 262, 5682-5689]. In the present study, we have further evaluated the enzymatic properties of derivatives of recombinant scu-PA (rscu-PA), produced by site-directed mutagenesis of Lys158, Ile159 or Ile160, in order to obtain additional information on the structure/function relations underlying the enzymatic properties of the single- and two-chain u-PA moieties. [Arg158]rscu-PA (rscu-PA with Lys158 substituted with Arg) appeared to be indistinguishable from wild-type rscu-PA with respect to plasminogen-activating potential (catalytic efficiency k2/Km = 0.21 mM-1 s-1 versus 0.64 mM-1 s-1), conversion to active two-chain urokinase by plasmin (k2/Km = 0.13 microM-1 s-1 versus 0.28 microM-1 s-1), as well as its specific activity (48,000 IU/mg as compared to 60,000 IU/mg) and its fibrinolytic potential in a plasma medium (50% lysis in 2 h with 2.8 micrograms/ml versus 2.1 micrograms/ml). [Pro159]rscu-PA (Ile159 substituted with Pro) and [Gly159]rscu-PA (Ile159 converted to Gly) are virtually inactive towards plasminogen (k2/Km less than 0.004 mM-1 s-1). They are however converted to inactive two-chain derivatives by plasmin following cleavage of the Arg156-Phe157 peptide bond in [Pro159]rscu-PA and of the Lys158-Gly159 peptide bond in [Gly159]rscu-PA. [Gly158,Lys160]rscu-PA (with Lys158 converted to Gly and Ile160 to Lys) has a low catalytic efficiency towards plasminogen both as a single-chain form (k2/Km = 0.012 mM-1 s-1) and as the two-chain derivative (k2/Km = 0.13 mM-1 s-1) generated by cleavage of both the Arg156-Phe157 and/or the Lys160-Gly161 peptide bonds by plasmin. These findings suggest that the enzymatic properties of rscu-PA are critically dependent on the amino acids in position 158 (requirement for Arg or Lys) and position 159 (requirement for Ile). Conversion of the basic amino acid in position 158 results in a 10-20-fold reduction of the catalytic efficiency of the single-chain molecule but yields a fully active two-chain derivative. The presence of Ile in position 159 is not only a primary determinant for the activity of the two-chain derivative, but also of the single-chain precursor. Cleavage of the Arg156-Phe157 or the Lys160-Gly161 peptide bonds by plasmin yields inactive two-chain derivatives.

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.

Comparative thrombolytic properties of single-chain forms of urokinase-type plasminogen activator.

The specific thrombolytic properties of urokinase and three molecular forms of single-chain urokinase-type plasminogen activator (scu-PA) were compared in a human plasma milieu in vitro and in an experimental thrombosis model in rabbits. These scu-PA molecules included Mr 54,000 scu-PA from human urine (urinary scu-PA), scu-PA from conditioned media of a human lung adenocarcinoma cell line (CALU-3,ATCC,HTB-55) (cellular scu-PA) and an Mr 32,000 proteolytic derivative of cellular scu-PA (scu-PA-32k). All four molecular forms induced significant lysis of a 125I-labeled human plasma clot immersed in citrated human plasma at concentrations between 50 and 200 IU/mL. None of the four showed absolute fibrin-specificity, but at equivalent lytic dose the three single-chain forms appeared to cause less fibrinogen degradation and alpha 2-antiplasmin consumption than two-chain urokinase. In addition, the fibrinolytic potential of the three single-chain forms was largely maintained during pre-incubation in plasma for up to 48 hours whereas that of urokinase was completely inhibited. Intravenous (IV) infusion of cellular scu-PA or scu-PA-32k into rabbits with a 125I-labeled thrombus in the jugular vein caused significant dose-dependent lysis at concentrations ranging from 8,700 to 35,000 and from 9,000 to 36,000 IU/kg respectively. Clot lysis was accompanied by minor alpha 2-antiplasmin consumption or fibrinogen breakdown. In contrast, urokinase induced lysis at doses between 20,000 and 200,000 IU/kg, but at higher doses was associated with significant systemic activation of the fibrinolytic system. It is concluded that scu-PA obtained from CALU-3 cell cultures has identical thrombolytic properties to that obtained from urine. In addition, the scu-PA-32k proteolytic derivative has the same fibrin-specific thrombolytic properties as the intact molecule. Cellular scu-PA and scu-PA-32k may therefore constitute more readily available alternatives for clot-selective thrombolytic therapy in man.

Absence of synergism between tissue-type plasminogen activator (t-PA), single-chain urokinase-type plasminogen activator (scu-PA) and urokinase on clot lysis in a plasma milieu in vitro.

A potential synergic effect of tissue-type plasminogen activator (t-PA), single-chain urokinase-type plasminogen activator (scu-PA) or urokinase on clot lysis was investigated in a whole human plasma system in vitro. The system consisted of a human plasma clot labeled with 125I-fibrinogen, immersed in citrated whole human plasma, to which the thrombolytic agents were added. Clot lysis was quantitated by measurement of released 125I, and activation of the fibrinolytic system in the surrounding plasma by measurements of fibrinogen and alpha 2-antiplasmin. t-PA, scu-PA and urokinase induced a dose-dependent and time-dependent clot lysis; 50 percent lysis after 2 h was obtained with 5 nM t-PA, 20 nM scu-PA and 12 nM urokinase. At these concentrations no significant activation of the fibrinolytic system in the plasma was observed with t-PA and scu-PA, whereas urokinase caused significant alpha 2-antiplasmin consumption and concomitant fibrinogen degradation. The shape of the dose-response curves was different; t-PA and urokinase showed a log linear dose-response whereas that of scu-PA was sigmoidal. Combinations of t-PA and scu-PA, of t-PA and urokinase or of scu-PA and urokinase at thrombolytic doses of each showed no synergism for thrombolysis. Fifty percent clot lysis in 2 h was obtained at total concentrations of the combined agents of 5 to 15 nM with molar ratios ranging from 1:4 to 4:1.(ABSTRACT TRUNCATED AT 250 WORDS)

Biological and thrombolytic properties of proenzyme and active forms of human urokinase--IV. Variability in fibrinolytic response of plasma of several mammalian species.

The fibrinolytic and fibrinogenolytic properties of recombinant pro-urokinase (Rec-pro-UK) and recombinant urokinase (Rec-UK) were compared with those of natural urokinase (Nat-UK) and of tissue-type plasminogen activator (t-PA) in an in vitro system consisting of 125I-labeled autologous plasma clots immersed in plasma of humans, five primate species, dogs, rabbits and pigs. With each of the four plasminogen activators, a dose-dependent clot lysis was observed, the degree of which differed, however, very markedly from one species to the other. At a concentration of 100 IU/ml of urokinase extensive plasma clot lysis was obtained in plasma of man, Macaca mulatta, Macaca fascicularis and Macaca radiata, while the plasma clots of Papio cynocephalus, Papio anubis and rabbit, dog and pig were much more resistant to lysis. No significant differences in the extent of lysis were observed between Rec-pro-UK and Rec-UK nor between Rec-UK and Nat-UK. Comparable degrees of lysis were obtained with t-PA at 3- to 5-fold lower concentrations. Lysis with Rec-UK or Nat-UK was always associated with extensive activation of the fibrinolytic system in plasma, evidenced by fibrinogen breakdown and plasminogen activation and alpha 2-antiplasmin consumption. With t-PA, extensive clot lysis was obtained in the absence of fibrinolytic activation in the plasma. With Rec-pro-UK the response was intermediate; at high concentrations (200 IU/ml) extensive lysis in the reactive species was associated with fibrinogen consumption, while at intermediate concentrations (50-100 IU/ml) significant clot lysis was obtained in the reactive species in the absence of marked activation of the fibrinolytic system in the plasma.