Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

A covalent hybrid plasminogen activator was prepared from the sulfhydryl forms of the NH2-terminal heavy (A) chain of human plasmin (PlnA) containing the fibrin-binding domain and the COOH-terminal B chain of tissue plasminogen activator (t-PAB) containing the catalytic domain. The sulfhydryl form of PlnA [PlnA(SH)2] was isolated from reduced Lys-2-plasmin on an L-lysine-substituted Sepharose column, and the sulfhydryl form of t-PAB [t-PAB(SH)] was prepared from reduced two-chain tissue plasminogen activator (t-PA) by removing the tissue plasminogen activator NH2-terminal A chain (t-PAA) on an L-lysine-substituted Sepharose column from the chain mixture. The specific plasminogen activator activity, with soluble fibrin, of the isolated t-PAB(SH) chain was determined to be 62,700 international units (IU)/mg of protein, about 13% of the specific plasminogen activator activity of the parent t-PA. The PlnA(SH)2 and the t-PAB(SH) chains were mixed in a 1:1 molar ratio, and hybridization (reoxidation) was allowed to proceed by first dialyzing out the reducing agent at 4 degrees C and then concentrating the mixture. The time for maximum hybridization, or formation of the covalent hybrid activator, was 6 days, as determined by both specific plasminogen activator activity, with soluble fibrin, and specific amidolytic activity; sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed the continual formation of an Mr approximately 92,000 hybrid. The covalent PlnA-t-PAB hybrid activator was isolated from the 6-day hybridization mixture by a two-step affinity chromatography method.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A covalent molecular weight approximately 92,000 hybrid plasminogen activator derived from human plasmin fibrin-binding and tissue plasminogen activator catalytic domains. 311 4

Tissue-type plasminogen activator (t-PA) is a mosaic protein containing several distinct structural domains attached to the serine protease catalytic unit present at its COOH terminus. To investigate structure-function relationships in t-PA, we deleted the NH2-terminal domains, finger and epidermal growth factor, by genetic engineering. The genes for the parent and mutant t-PA were expressed in a bovine papilloma virus-dependent mammalian cell system. The secreted proteins were purified to homogeneity. The mutant protein was processed to the expected size of about 60 kDa compared to approximately 68 kDa for the parent t-PA, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fibrin autography. While the mutant t-PA had amidolytic activity comparable to native t-PA, it did not bind appreciably to fibrin. Consequently, fibrin-dependent enzymic activity, i.e. plasminogen activation in the presence of soluble fibrin and fibrinolysis were lower than with native recombinant t-PA. The effect of deletion of NH2-terminal domains on the plasma half-life (t1/2) was investigated by injecting native and mutant t-PA into mice. While the majority of the t-PA disappeared initially with a t1/2 of about 2 min, mutant t-PA cleared at a much slower rate with t1/2 of about 50 min. These findings suggest that the NH2-terminal domains of t-PA not only determine its specificity for binding to fibrin but also mediate its clearance from plasma in vivo. Furthermore, the catalytic unit in t-PA seems to function autonomously.
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PMID:Structure-function analysis with tissue-type plasminogen activator. Effect of deletion of NH2-terminal domains on its biochemical and biological properties. 312 83

Plasminogen activators convert the proenzyme plasminogen to the active serine protease plasmin by hydrolysis of the Arg560-Val561 peptide bond. Physiological plasminogen activation is however regulated by several additional molecular interactions resulting in fibrin-specific clot lysis. Tissue-type plasminogen activator (t-PA) binds to fibrin and thereby acquires a high affinity for plasminogen, resulting in efficient plasmin generation at the fibrin surface. Single-chain urokinase-type plasminogen activator (scu-PA) activates plasminogen directly but with a catalytic efficiency which is about 20 times lower than that of urokinase. In plasma, however, it is inactive in the absence of fibrin. Chimeric plasminogen activators consisting of the NH2-terminal region of t-PA (containing the fibrin-binding domains) and the COOH-terminal region of scu-PA (containing the active site), combine the mechanisms of fibrin specificity of both plasminogen activators. Combination of t-PA and scu-PA infusion in animal models of thrombosis and in patients with coronary artery thrombosis results in a synergic effect on thrombolysis, allowing a reduction of the therapeutic dose and elimination of side effects on the hemostatic system.
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PMID:Mechanisms of plasminogen activation by mammalian plasminogen activators. 313 4

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.
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PMID: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. 314 23

A gene coding for the bacterial plasminogen activator staphylokinase (SAK) was cloned from Staphylococcus aureus bacteriophage 42D into an exoprotease reduced mutant strain of Bacillus subtilis (1). Yields of up to 50 mg SAK per litre of culture supernatant were obtained depending on the medium used. SAK purified by ion exchange chromatography and gel filtration had a specific activity of 16,000 units/mg protein. Isoelectric focusing of the purified SAK revealed heterogeneity with respect to the isoelectric points. Four different SAK proteins were identified among which the majority fraction had an IEP of 6.3 and a N-terminal amino acid sequence of NH2-Lys-Gly-Asp ... This N-terminus was 10 amino acids downstream of the expected signal peptide cleavage site beyond AA 27. It resulted most likely from a postsecretory proteolytic modification of the transiently appearing and correct processing product. In contrast to other plasminogen activators SAK was found to be resistant to proteolytic inactivation by plasmin.
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PMID:Purification and characterization of the bacterial plasminogen activator staphylokinase secreted by a recombinant Bacillus subtilis. 314 68

Porcine tissue-type plasminogen activator (t-PA) increases the binding of 125I-glu-plasminogen to clots made from human plasma or purified fibrinogen in a time and t-PA concentration dependent fashion. The accumulation of plasminogen was faster and greater on noncrosslinked plasma clots than on clots which had been crosslinked by Factor XIIIa. Furthermore, the uptake of plasminogen to crosslinked fibrin clots occurred at a slower rate in the presence of alpha 2-plasmin inhibitor (alpha 2 PI) than in its absence. The kinetics of the uptake of 125I-plasminogen were analyzed using SDS-polyacrylamide gel electrophoresis and radioautography of solubilized plasma clots formed in the presence of t-PA. During the initial phase there was a decrease of clot-bound glu-plasminogen; simultaneously, there was a slight increase in clot-bound glu-plasmin and in plasmin complexed to alpha 2 PI that was crosslinked to alpha-chain polymers of fibrin. This was followed by a marked increase in clot-bound plasminogen having glutamic acid as NH2-terminal (glu-plasminogen) and gluplasmin. t-PA-induced enhancement of glu-plasminogen uptake appears to be mediated by plasmin but does not require the conversion of glu-plasminogen to plasminogen having lysine or methionine as NH2-terminal. The described mechanism assures an adequate supply of clot-bound plasmin, which is the enzyme ultimately involved in the degradation of fibrin.
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PMID:Tissue-type plasminogen activator increases the binding of glu-plasminogen to clots. 621 Mar 7

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

We report the isolation of a specific protease zymogen from chicken plasma. The purification procedure involves barium citrate precipitation, ammonium sulfate fractionation, removal of plasminogen and plasmin on lysine-Sepharose, followed by anion and cation exchange, and gel permeation chromatography. Based on quantitative radioimmunoassay the zymogen is present in plasma at a concentration of 160 mg/liter, and it is obtained by our procedure in highly purified form with a yield of 1.4%. The single polypeptide chain contains an NH2-terminal alanine residue. The native molecule migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular weight of 84,000 under reducing conditions. It can be identified as an inactive proenzyme because it has very low amidolytic activity, does not react with the fluorescent active site titrant 4-methyl-lumbelliferyl p-guanidinobenzoate, and does not incorporate radioactive [3H]diisopropylfluorophosphate. It is very susceptible to limited proteolysis which converts it to an active enzyme with trypsin-like specificity. The active enzyme, likewise a single polypeptide chain, migrates as a doublet with apparent molecular weights of 39,000 and 40,000. Its amidolytic activity with synthetic peptide substrates is at least 40-fold higher than that of the proenzyme, it reacts efficiently with 4-methylumbelliferyl p-guanidinobenzoate, and incorporates [3H]diisopropylfluorophosphate while undergoing irreversible inactivation. The enzyme appears to be a reasonably efficient plasminogen activator in zymographic gels, but not in solution. With human high molecular weight kininogen as substrate the enzyme was about 25% as efficient as human plasma kallikrein. It lacks any plasminogen-independent proteolytic activity with other protein substrates, and it hydrolyzes small peptide substrates designed for both human kallikrein and urinary urokinase, respectively. Inhibition studies with peptide chloromethyl ketones indicate enzymatic properties closer to human plasma kallikrein than to the human plasminogen activator urokinase (EC 3.4.21.31). The chicken plasma enzyme and the plasminogen activator from the conditioned media of Rous sarcoma virus-transformed chick embryo fibroblasts treated with tumor promoter are different by criteria of tryptic peptide maps, and amino acid composition and enzymatic specificity. The designations chicken plasma prekallikrein plasminogen proactivator and chicken plasma kallikrein plasminogen activator are proposed for the zymogen and enzyme forms, respectively. Using rabbit antibodies against the proenzyme we developed a solid phase immunoadsorption procedure that allowed us to isolate the protein with an overall yield of 11.4%.
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PMID:A proenzyme from chicken plasma similar to human plasma prekallikrein. 655 13

The activation of plasminogen results from proteolytic cleavage of the Arg560-Val561 bond by plasminogen activators (Sottrup-Jensen et al. PNAS (1975) 72, 2577). This region of the zymogen occurs in a small disulfide loop that must restrict the conformation around this bond. The nonapeptide sequence NH2-Cys-Pro-Gly-Arg-Val-Val-Gly-Gly-Cys-NH2 of plasminogen containing the activator sensitive arginyl valine bond was synthesized by carbodiimide coupling of Boc-Cys-Pro-Gly-OH(S-4-methylbenzyl) to NH2-Arg(NO2)-Val-Val-Gly-Gly-Cys-NH2(S-4-methylbenzyl), followed by HF treatment and K3Fe(CN)6 oxidation to form a disulfide bond. Purified peptide was not a substrate for urokinase (UK) or plasminogen activator (PA) but possessed a slightly inhibitory activity towards PA. Addition of a lysine to the N-terminus of the nonapeptide yielded a decapeptide sequence of plasminogen that was a better substrate for UK but not for PA. The decapeptide inhibits PA slightly but not UK. These results suggest that active site geometry for PA must be more restrictive than that of UK and that other regions may be involved in the productive interactions with the activators inducing a better fit of the cyclic peptide loop.
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PMID:Synthesis and properties of cyclic peptides containing the activation site of plasminogen. 717 5

The primary structure of the major N-linked carbohydrate chains attached to Asn302 of urinary-type plasminogen activator (urokinase) have been determined. Urokinase was completely deglycosylated with peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase F from Flavobacterium meningosepticum. Released oligosaccharides were separated from the remaining protein using gel-permeation chromatography on Bio-Gel P-100, and then on Bio-Gel P-6. Fractionation of the oligosaccharides was achieved by a combination of FPLC anion-exchange chromatography on Mono Q HR 5/5 and amine-adsorption HPLC on LiChrospher 100-NH2. Analysis by 1H-NMR spectroscopy demonstrated that the collection of N-glycans comprises di-, tri-, and tri'-antennary structures. The glycans contain predominantly GalNAc beta 1-4GlcNAc beta instead of Gal beta 1-4GlcNAc beta elements. The GalNAc residue is mainly sulfated at O4, or to a lesser extent it bears N-acetylneuraminic acid at O6; alternatively the GlcNAc residue can be fucosylated at O3. The major component, which accounts for more than 30 mol/100 mol of the total oligosaccharide pool, consists of an (alpha 1-6)-fucosylated diantennary N-linked carbohydrate chain with (SO4-)-4GalNAc beta 1-4GlcNAc beta 1-2 antennae.
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PMID:The major N-linked carbohydrate chains from human urokinase. The occurrence of 4-O-sulfated, (alpha 2-6)-sialylated or (alpha 1-3)-fucosylated N-acetylgalactosamine(beta 1-4)-N-acetylglucosamine elements. 773 45


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