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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Covalent linkage of tissue-type plasminogen activator (t-PA) to a monoclonal antibody specific for the fibrin beta chain (anti-fibrin 59D8) results in a thrombolytic agent that is more specific and more potent than t-PA alone. To provide a ready source of this hybrid molecule and to allow tailoring of the active moieties for optimal activity, we have engineered a recombinant version of the 59D8-t-PA conjugate. The rearranged 59D8 heavy chain gene was cloned and combined in the expression vector pSV2gpt with sequence coding for a portion of the gamma 2b constant region and the catalytic beta chain of t-PA. This construct was transfected into heavy chain loss variant cells derived from the 59D8 hybridoma. Recombinant protein was purified by affinity chromatography and analyzed with electrophoretic transfer blots. These revealed a 65-kDa heavy chain-t-PA fusion protein that is secreted in association with the 59D8 light chain in the form of a 170-kDa disulfide-linked dimer. Chromogenic substrate assays showed the fusion protein to have 70% of the peptidolytic activity of native t-PA and to activate plasminogen as efficiently as t-PA. In a competitive binding assay, reconstituted antibody was shown to have a binding profile similar to that of native 59D8. Thus, by recombinant techniques, we have produced a hybrid protein capable of high-affinity fibrin binding and plasminogen activation.
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PMID:Construction and expression of a recombinant antibody-targeted plasminogen activator. 311 46

This mini-review deals with structure-function relationships of human tissue-type plasminogen activator. The enzyme consists of a single polypeptide chain of 527 amino acids. A two-chain form is produced by proteolytic cleavage of the Arg 275-Ile 276 peptide bond. The aminoterminal heavy or A-chain consists of a finger domain, a growth factor domain and two kringle domains. The carboxyterminal light or B-chain contains the active site and is homologous to the catalytic chains of other serine proteases. The light chain is able to activate plasminogen, but requires the heavy chain for fibrin-binding and fibrin-stimulation. Particularly, the finger domain and kringle 2 of the heavy chain are involved in the interaction with fibrin. Other specific properties of the plasminogen activator, such as its rapid hepatic clearance and its inhibition by plasminogen activator inhibitors have not yet been related to specific domains in the protein structure.
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PMID:Relationships between structure and function of tissue-type plasminogen activator. 312 46

The plasminogen activator urokinase was linked covalently to a monoclonal antibody specific for the amino terminus of the beta chain of human fibrin by means of the unidirectional cross-linking reagent N-succinimidyl-3-(2-pyridyldithio)propionate. N-Succinimidyl-3-(2-pyridyldithio)propionate allowed the amino groups on urokinase to be coupled to the sulfhydryl groups on iminothiolane (which had been introduced into the antibody before the coupling reaction). The inter-heavy chain sulfhydryl of the Fab' of this antibody was also linked to N-succinimidyl-3-(2-pyridyldithio)propionate-substituted urokinase. The antibody- or Fab'-urokinase complexes were purified by two affinity chromatography steps. In the first, benzamidine was used as ligand for urokinase, in the second, a heptapeptide consisting of the 7 amino-terminal residues of the beta chain of fibrin (beta peptide) was used as ligand for the antibody. The activity of the purified conjugates was compared with that of urokinase alone in an assay measuring lysis of 125I-fibrin monomer covalently linked to Sepharose CL-4B. For any concentration of either urokinase alone or urokinase-antifibrin antibody conjugate, an equivalent amount of lysis (release of labeled peptide from fibrin monomer-Sepharose) was obtained with 1/250 the concentration (with respect to urokinase content) of antifibrin antibody-urokinase conjugate. The antifibrin Fab'-urokinase conjugate exhibited a similar enhancement of activity in comparison with urokinase. Enhanced fibrinolysis was fully inhibited by beta peptide. These results suggest that antibody targeting enhances the concentration of urokinase in the vicinity of immobilized fibrin monomer, thereby also increasing the local conversion of plasminogen to plasmin, which in turn degrades its substrate, fibrin. Univalent antigen-antibody binding is sufficient for optimal efficiency.
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PMID:Characterization of an antibody-urokinase conjugate. A plasminogen activator targeted to fibrin. 361 Oct 93

A genomic clone carrying the human tissue-type plasminogen activator (t-PA) gene was isolated from a cosmid library, and the gene structure was elucidated by restriction mapping, Southern blotting, and DNA sequencing. The cosmid contained all the coding parts of the mRNA, except for the first 58 bases in the 5' end of the mRNA, and had a total length of greater than 20 kilobases. It was separated into at least 14 exons by at least 13 introns, and the exons seemed to code for structural or functional domains. Thus, the signal peptide, the propeptide, and the domains of the heavy chain, including the regions homologous to growth factors, and to the "finger" structure of fibronectin, are all encoded by separate exons. In addition, the two kringle regions of t-PA were both coded for by two exons and were cleaved by introns at identical positions. The region coding for the light chain, comprising the serine protease part of the molecule was split by four introns, revealing a gene organization similar to other serine proteases.
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PMID:The structure of the human tissue-type plasminogen activator gene: correlation of intron and exon structures to functional and structural domains. 608 98

Human high molecular weight urokinase, a plasminogen activator, when minimally reduced with 0.01 M 2-mercaptoethanol for 10 h at pH 8.0 and 25 degrees C and then carboxymethylated with sodium iodoacetate, gave two chains, a functionally active heavy chain with about 80% of the original activity and a light chain. These two chains were found to be linked by a single interchain disulfide bond. The functionally active heavy chain can be isolated by an affinity chromatography method with [N alpha-(epsilon-aminocaproyl)-DL-homoarginine hexylester]-Sepharose. The light chain, which has no enzyme activity, is not adsorbed to the affinity matrix, whereas the active heavy chain was adsorbed and subsequently eluted. The active heavy chain was further purified by gel filtration on Sephadex G-100. This preparation was found to be homogeneous by both analytical and sodium dodecyl sulfate-polyacrylamide disc gel electrophoresis. The molecular weight of the active heavy chain was determined to be 33,000 by Sephadex G-100 gel filtration and 31,000 by sodium dodecyl sulfate-polyacrylamide disc gel electrophoresis. Its specific activity, with L-pyroglutamyl-glycyl-L-arginine-p-nitroanilide, was determined to be 208,000 IU/mg of protein. Approximately 87% active sites were found by p-nitrophenyl-p'-guanidino-benzoate titration with a molar activity of 7.41 X 10(9) IU/mmol of active site. The active heavy chain when compared to low molecular weight urokinase has a similar molecular weight, specific activity, and amino acid composition. The NH2-terminal residue found in the active heavy chain was lysine which was the same as that found in low molecular weight urokinase, whereas the NH2-terminal residues found in high molecular weight urokinase were serine and lysine. Serine is the NH2-terminal residue of the light chain of high molecular weight urokinase. The steady state kinetic parameters of activation of human Glu-plasminogen by the active heavy chain were also similar to low molecular weight urokinase, as were the amidase parameters of these enzymes. The Michaelis constants of activation (Kplg) were 2.11 and 2.21 microM, respectively; the catalytic rate constants of activation (kplg) were 51.7 and 44.1 min-1, respectively, with second order rate constants, kplg/Kplg of 24.5 and 20.2 microM-1 min-1, respectively.
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PMID:A functionally active heavy chain derived from human high molecular weight urokinase. 634 38

A urokinase-type plasminogen activator secreted by subcultured normal human umbilical vein endothelial cells was purified and compared to urinary urokinase (Mr = 54,000). The enzyme was isolated from serum-free conditioned medium in the presence of 0.1% (v/v) Triton X-100 by p-aminobenzamidine-agarose affinity chromatography, followed by Sephacryl S-200 gel filtration, followed by immunoadsorption chromatography on affinity purified specific anti-urokinase IgG-Sepharose CL-4B. This plasminogen activator form was obtained from the culture medium with a yield of about 47% and specific activity of about 93,000 IU/mg of protein, and represented approximately 18% of the total multiple molecular plasminogen activator activity forms present in endothelial cell conditioned medium. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified enzyme showed a single band of plasminogen activator activity with an estimated molecular weight of about 54,000 that was completely inhibited by diisopropyl fluorophosphate (DFP) as well as a single band of radioactivity with similar molecular weight for both the isolated L-[4,5-3H]leucine and [3H]DFP-labeled enzyme. The radiolabeled protein focused as a single major band with a pI value of pH 8.5. The endothelial cell activator and urokinase appeared to be identical in terms of sodium dodecyl sulfate-polyacrylamide gel electrophoresis, location of the [3H]DFP-labeled active site in the Mr = 33,000 heavy chain and [3H]DFP-labeled active site tryptic peptide, and two-dimensional 125I-labeled tryptic peptide maps. In quenching experiments of the fibrinolytic activities using affinity purified specific anti-urokinase IgG the endothelial cell-derived activator and urokinase appeared to be immunochemically identical, but unrelated to tissue plasminogen activator. These results indicate that the Mr = 54,000 urokinase-type plasminogen activator from cultured normal human endothelial cells is similar to, or identical with, Mr = 54,000 urinary urokinase.
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PMID:Isolation and characterization of a urokinase-type plasminogen activator (Mr = 54,000) from cultured human endothelial cells indistinguishable from urinary urokinase. 653 33

A plasminogen activator, previously designated as rat urinary esterase A (Nustad, K., and Pierce, J. V. (1974) Biochemistry 13, 2312-2319), was separated from kallikrein of rat urine and purified to homogeneity. In polyacrylamide slab gel electrophoresis, the purified enzyme showed three closely migrating protein bands which were labeled with [14C]diisopropylphosphorofluoridate and stained on a zymogram using the chromogenic substrate methionine-alpha-naphthyl ester. Two chains, heavy chain(s) (Mr approximately 15,800, 14,200) and light chain(s) (Mr approximately 8,850, 8,550), were separated in SDS-polyacrylamide gel under reducing conditions, while two bands (Mr approximately 24,500 and 23,000) were seen under nonreducing conditions. The active site of the enzyme was associated with the heavy chain. The purified enzyme was stained for carbohydrate by the periodic acid-Schiff reagent. Five bands were distinguished in slab gel electrofocusing with isoelectric points ranging from 5.05 to 5.45. The purified enzyme lysed fibrin clots containing plasminogen but not plasminogen-free fibrin. It hydrolyzed benzyloxylcarbonyl-Gly-Gly-Arg-amino-4-trifluoromethyl coumarin, and a Km of 53 microM and a Vmax of 63 mumol/min/mg of enzyme were obtained at pH 8.0 and 37 degrees C. The enzyme cleaved kininogen substrates to produce kinin which was measured by bioassay or radioimmunoassay. The enzyme was inhibited by soybean or lima bean trypsin inhibitor, aprotinin, alpha 1-antitrypsin, phenylmethanesulfonyl fluoride, D-Phe-Phe-ArgCH2Cl, antipain, leupeptin, benzamidine, and pentamidine. Its pH optimum was 8.5 to 9.0; it was unstable on dilution and on heating. On immunoelectrophoresis, an antiserum to the esterase formed precipitin arcs with rat plasma and this enzyme at identical positions, which in turn were different from those formed with kallikrein. This urinary enzyme belongs to the family of serine proteinases and is immunologically related to urinary kallikrein.
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PMID:Purification and characterization of rat urinary esterase A, a plasminogen activator. 668 2

Two spontaneously arising variant clones were selected from the N18 neuroblastoma cell line solely on the basis of their flattened morphology and tight adherence to the culture flask. Two other clones having the round loosely adherent morphology typical of the parent line were also selected, and flat variants were shown to arise in them upon prolonged cultivation. The flat variant clones have slower growth rates in culture, lower cloning efficiencies in suspension, and reduced acetylcholinesterase inducibility when compared with either the parent N18 line or the round cell clones. Cells of both morphologic types have high levels of plasminogen activator and are tumorigenic, although the variants have a slower growth rate in vivo, consistent with their slower growth rate in culture. SDS-polyacrylamide gel electrophoresis of total protein from the two cell types shows that the flat variants have increased amounts of a 200,000 molecular weight polypeptide that has tentatively been identified as the heavy chain of myosin. Round morphological revertants from one of the flat variant clones exhibited growth characteristics typical of the parent N18 line, but their content of myosin heavy chain, although reduced, was not so low as that in the round cell clones originally isolated. The possibility of a causal relationship between flat morphology, reduced suspension cloning efficiency, and increased content of myosin heavy chain is discussed.
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PMID:Clonal variation in cultured neuroblastoma cells. I. Isolation and characterization of variants. 719 8

In a previous study we have shown that monoclonal antibody F1 (MoAb F1), directed against an epitope on the heavy chain of factor XII distinct from the binding site for anionic surfaces, is able to activate factor XII in plasma (Nuijens JH, et al: J Biol Chem 264; 12941, 1989). Here, we studied in detail the mechanism underlying the activation of factor XII by MoAb F1 using purified proteins. Formation of factor XIIa was assessed by measuring its amidolytic activity towards the chromogenic substrate H-D-Pro-Phe-Arg-pNA (S-2302) in the presence of soybean trypsin inhibitor and by assessing cleavage on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Upon incubation with MoAb F1 alone, factor XII was auto-activated in a time-dependent fashion, activation being maximal after 30 hours. Factor XII incubated in the absence of MoAb F1 was hardly activated by kallikrein, whereas in the presence of MoAb F1, but not in that of a control MoAb, the rate of factor XII activation by kallikrein was promoted at least 60-fold. Maximal activation of factor XII with kallikrein in the presence of MoAb F1 was reached within 1 hour. This effect of kallikrein on the cleavage of factor XII bound to MoAb F1 was specific because the fibrinolytic enzymes plasmin, urokinase, and tissue-type plasminogen activator could not substitute for kallikrein. Also, trypsin could easily activate factor XII, but in contrast to kallikrein, this activation was independent of MoAb F1. SDS-PAGE analysis showed that the appearance of amidolytic activity correlated well with cleavage of factor XII. MoAb F1-induced activation of factor XII in this purified system was not dependent on the presence of high-molecular-weight kininogen (HK), in contrast to the activation of the contact system in plasma by MoAb F1. Experiments with deletion mutants revealed that the epitopic region for MoAb F1 on factor XII is located on the kringle domain. Thus, this study shows that binding of ligands to the kringle domain, which does not contribute to the proposed binding site for negatively charged surfaces, may induce activation of factor XII. Therefore, these findings point to the existence of multiple mechanisms of activation of factor XII.
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PMID:Monoclonal antibody F1 binds to the kringle domain of factor XII and induces enhanced susceptibility for cleavage by kallikrein. 749 70

The low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP) is a large cell surface receptor consisting of a 515-kDa heavy chain and an 85-kDa light chain proteolytically derived from a 600-kDa precursor. Previous work has shown that LRP is responsible for mediating the internalization of urinary-type plasminogen activator (uPA) complexed to plasminogen activator inhibitor type I (PAI-1) (Nykjaer et al., 1992; Herz et al., 1992). The current study indicates that pro-urokinase (pro-uPA) and two chain urokinase (tc-uPA) bind directly to purified LRP, and that LRP mediates their internalization and degradation in Hep G2 cells. In vitro binding assays demonstrated that pro-uPA and tc-uPA bind to purified LRP with affinities (Kd = 45 and 60 nM, respectively) that are approximately 15 to 20-fold weaker than the affinity of uPA.PAI-1 complex for LRP (Kd = 3 nM). Competitive binding experiments revealed that pro-uPA and tc-uPA completely inhibit binding of uPA.PAI-1 complexes to purified LRP. The binding of 125I-pro-uPA to LRP is blocked by the 39-kDa receptor-associated protein, but not by an amino-terminal fragment of uPA, which is known to block binding of uPA to the urokinase receptor. 125I-Pro-uPA can be internalized and degraded by Hep G2 cells independent of PAI-1. Both the internalization and degradation are completely blocked by receptor-associated protein or affinity-purified LRP antibodies, indicating that LRP is mediating this process. These processes are also blocked by the amino-terminal fragment, which suggests that the favored pathway for uPA metabolism is initial binding to the urokinase receptor, followed by ligand transfer to LRP, then internalization leading to degradation.
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PMID:Low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor mediates cellular uptake of pro-urokinase. 769 18


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