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)

In contrast to most other serine proteases, tissue-type plasminogen activator (t-PA) possesses enzymatic activity as the one-chain zymogen form. The hypothesis that lysine residues 277 or 416 may be involved in stabilization of an active conformation of one-chain t-PA via salt-bridge formation with aspartic acid residue 477 was tested by site-directed mutagenesis. Four recombinant t-PA mutants were constructed. The amidolytic activities of these analogues were compared to that of authentic t-PA. Substitution of arginine-275 provided an analogue [( R275G]t-PA) resistant to plasmin cleavage. The amidolytic activity of [R275G]t-PA was comparable to that of authentic one-chain t-PA, and so was the activity of [R275L,K277L]t-PA, in which additional substitution of lysine residue 277 was carried out. This suggested that its presence was nonessential for obtaining one-chain t-PA activity. In contrast, substitution of lysine residue 416 to obtain [K416S]t-PA and [K416S,H417T]t-PA resulted in substantial quenching of amidolytic one-chain activity. As expected, the amidolytic activities of the two-chain forms were less affected by the substitution. Involvement of lysine residue 416 in one-chain t-PA activity was also indicated by decreased activities of [K416S]t-PA and [K416S,H417T]t-PA with plasminogen as the substrate. The one-chain activity of the lysine residue 416 substitution analogues was partially restored in the presence of fibrin. This could indicate that strong ligands such as fibrin might provide an alternative stabilization of the active conformation of one-chain t-PA.
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PMID:Quenching of the amidolytic activity of one-chain tissue-type plasminogen activator by mutation of lysine-416. 211 46

The cDNA encoding full-length human tissue-type plasminogen activator (t-PA) and five variant cDNAs, constructed by in vitro site-directed mutagenesis, were cloned and expressed in Chinese hamster ovary cells. The variant cDNAs were designed to increase the fibrin affinity of t-PA by mutagenesis in the kringle domains of specific amino acids which are assumed to constitute the lysine-binding site. These amino acids were replaced with the corresponding amino acids present in kringle 1 of plasminogen, which has a high affinity for lysine analogues. The mutants included: rt-PA-Arg125 with a Pro125----Arg mutation; rt-PA-Arg164,Tyr165 with Ser164,Ser165----Arg,Tyr; rt-PA-Arg125,Arg164,Tyr165 with Pro125,Ser164,Ser165----Arg,Arg,Tyr; rt-PA-Arg213 with Val213----Arg; and rt-PA-Arg252 with Thr252----Arg. Compared to wild-type recombinant t-PA (rt-PA), the catalytic efficiency for plasminogen activation was enhanced 4-fold for rt-PA-Arg125, and 3-fold for rt-PA-Arg252 while stimulation of plasminogen activation by CNBr-digested fibrinogen was comparable to wild-type rt-PA for rt-PA-Arg125 and 2-fold enhanced for rt-PA-Arg252. All rt-PA moieties showed a similar concentration-dependent and nearly quantitative binding to fibrin as well as to lysine-Sepharose and induced a similar time- and concentration-dependent lysis of a 125I-fibrin-labeled plasma clot immersed in human plasma. Equieffective concentrations (causing 50% clot lysis in 2 h) were 0.17 micrograms/ml for rt-PA-Arg125, and 0.31 micrograms/ml for rt-PA-Arg252 as compared to 0.55 micrograms/ml for rt-PA. The initial plasma half-life following intravenous bolus injection of 0.25 mg/kg in hamsters was 1.2-2.6 min, not significantly different from wild-type rt-PA (2.4 min). Continuous infusion over 60 min in hamsters with a 125I-fibrin-labeled pulmonary embolus produced 50% clot lysis over background with a dose of 0.9-1.8 mg/kg, which is not markedly superior to wild-type rt-PA (2.1 mg/kg). It is concluded that these variants, designed to mimic the high affinity fibrin-binding site of plasminogen, are not endowed with a markedly improved thrombolytic potency.
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PMID:Biochemical and functional characterization of human tissue-type plasminogen activator variants with mutagenized kringle domains. 211 13

An assessment was made of two methods for determining the potency of tissue-type plasminogen activator (TPA). A chromogenic microtitre plate assay was established which contained TPA, plasminogen, a synthetic plasmin substrate (H-D-valyl-L-leucyl-L-lysyl-p-nitroaniline dihydrochloride, S2251) and any one of the following stimulators: native fibrinogen, enzymatic and chemical digests of fibrinogen, poly-D-lysine (PDL) and chemical derivatives of the latter. The chromogen assay was compared with an automated clot-lysis (turbidimetric) assay for sensitivity, reproducibility and validity for potency determination. Reference preparations of TPA were titrated in both assays: in the chromogen assay the dose-response curves were non-parallel, whereas parallelism was observed in the clot-lysis assay. Thus, the chromogen assay was restricted in its applicability and disqualified from any routine regulatory use. The potency of individual lots of recombinant (r)TPA could only be estimated in International Units (IU) of TPA activity with the automated clot-lysis assay and the potency values obtained (IU/vial) were in remarkably close agreement with the manufacturers' values.
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PMID:The potency of tissue-type plasminogen activator (TPA) determined with chromogen and clot-lysis assays. 211 89

We prepared heparin-inserted phospholipid liposomes as a functional model of heparan sulfate present on the vascular surface and examined tissue plasminogen activator (t-PA) catalyzed plasminogen activation on the liposome surface. Kinetic analyses showed a marked increase in the affinity of t-PA for Lys-plasminogen in the presence of heparin-inserted phosphatidylcholine (PC) liposomes. The catalytic efficiency (kcat/Km) of t-PA for the plasminogen activation on the surface of heparin-inserted PC liposomes was 5.4 times that on the surface of heparin-free PC liposomes. This stimulatory action of immobilized heparin was apparently affected by changing the phospholipid component of liposomes. Phosphatidylethanolamine or stearylamine, having a positively charged group, reduced the catalytic efficiency of t-PA by raising its Km value (10-fold), whereas negatively charged phospholipids, phosphatidylserine and phosphatidylinositol, did not affect the efficiency. t-PA and generated plasmin bound to the liposome surface heparin were protected from inhibition by plasminogen activator inhibitor type 1 and alpha 2-plasmin inhibitor, respectively. t-PA-induced clot lysis of euglobulin or whole plasma, which contained native (Glu-) plasminogen and the above inhibitors, was also accelerated by addition of heparin-inserted PC liposomes. These results suggest that the vascular surface heparin-like molecules may play an important role in modulating fibrinolytic events. The principles of conjugation of t-PA with a biologically active liposome will be applied to the construction of better thrombolytic agents.
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PMID:Tissue plasminogen activator catalyzed Lys-plasminogen activation on heparin-inserted phospholipid liposomes. 211 67

Tissue-type plasminogen activator (t-PA) is an important component of the fibrinolytic system. t-PA is released into the circulation as a one-chain peptide with little enzyme activity. There exist several mechanisms which enhance plasminogen activation rate by t-PA: 1. activation of enzyme activity of one-chain t-PA by fibrin binding; 2. activation of enzyme activity by transforming one-chain to two-chain t-PA by plasmin; 3. stimulation of plasminogen activation by forming a ternary complex of t-PA, plasminogen and fibrin; 4. stimulation of plasminogen activation by forming Lys-plasminogen, which has a higher affinity to fibrin and is a better substrate for t-PA than Glu-plasminogen; 5. enhancement of ternary complex concentration after initiation of fibrinolysis due to tighter binding of t-PA and plasminogen to partially degraded fibrin.
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PMID:[Mechanisms of activation of tissue-type plasminogen activator]. 211 5

The kringle-2 domain (residues 176-262) of tissue-type plasminogen activator (t-PA) was cloned and expressed in Escherichia coli. The recombinant peptide, which concentrated in cytoplasmic inclusion bodies, was isolated, solubilized, chemically refolded, and purified by affinity chromatography on lysine-Sepharose to apparent homogeneity. [35S]Cysteine-methionine-labeled polypeptide was used to study the interactions of kringle-2 with lysine, fibrin, and plasminogen activator inhibitor-1. The kringle-2 domain bound to lysine-Sepharose and to preformed fibrin with a Kd = 104 +/- 6.2 microM (0.86 +/- 0.012 binding site) and a Kd = 4.2 +/- 1.05 microM (0.80 +/- 0.081 binding site), respectively. Competition experiments and direct binding studies showed that the kringle-2 domain is required for the formation of the ternary t-PA-plasminogen-intact fibrin complex and that the association between the t-PA kringle-2 domain and fibrin does not require plasmin degradation of fibrin and exposure of new COOH-terminal lysine residues. We also observed that kringle-2 forms a complex with highly purified guanidine-activated plasminogen activator inhibitor-1, dissociable by 0.2 M epsilon-aminocaproic acid. The kringle-2 polypeptide significantly inhibited tissue plasminogen activator/plasminogen activator inhibitor-1 interaction. The kringle-2 domain bound to plasminogen activator inhibitor-1 in a specific and saturable manner with a Kd = 0.51 +/- 0.055 microM (0.35 +/- 0.026 binding site). Therefore, the t-PA kringle-2 domain is important for the interaction of t-PA not only with fibrin, but also with plasminogen activator inhibitor-1 and thus represents a key structure in the regulation of fibrinolysis.
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PMID:Functional properties of the recombinant kringle-2 domain of tissue plasminogen activator produced in Escherichia coli. 211 12

The activation of plasminogen by two novel hybrid enzymes, constructed from the A-chain of plasmin and the B-chains of tissue-type plasminogen activator (t-PA) or urokinase, was compared with the activation by the parent enzymes. Basal kinetic constants for 'Lys-plasminogen' (human plasminogen with N-terminal lysine) and 'Glu-plasminogen' (human plasminogen with N-terminal glutamic acid) activation were similar to those of the parent activators. The Km for plasminogen turnover for both hybrid enzymes was considerably decreased in the presence of both soluble fibrin and a mimic, a CNBr digest of fibrinogen. These enhancements and the related apparent negative co-operativity are similar to the behaviour of t-PA itself. The results are discussed with regard to the molecular features involved in the mechanism of fibrin stimulation.
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PMID:Kinetic studies on novel plasminogen activators. Demonstration of fibrin enhancement for hybrid enzymes comprising the A-chain of plasmin (Lys-78) and B-chain of tissue-type plasminogen activator (Ile-276) or urokinase (Ile-159). 213 24

The enzyme tissue-type plasminogen activator (t-PA) and its substrate Glu-plasminogen can both bind to fibrin. The assembly of these three components results in about a 1000-fold acceleration of the conversion of Glu-plasminogen into plasmin. Fibrin binding of t-PA is mediated both by its finger (F) domain and its kringle-2 domain. Fibrin binding of Glu-plasminogen involves its kringle structures (K1-K5). It has been suggested that particular kringles contain lysine-binding sites and/or aminohexyl-binding sites, exhibiting affinity for specific carboxyl-terminal lysines and intrachain lysines, respectively. We investigated the possibility that t-PA and Glu-plasminogen kringles share common binding sites in fibrin, limitedly digested with plasmin. For that purpose we performed competition experiments, using conditions that exclude plasmin formation, with Glu-plasminogen and either t-PA or two deletion mutants, lacking the F domain (t-PA del.F) or lacking the K2 domain (t-PA del.K2). Our data show that fibrin binding of t-PA, mediated by the F domain, is independent of Glu-plasminogen binding. In contrast, partial inhibition by Glu-plasminogen of t-PA K2 domain-mediated fibrin binding is observed that is dependent on carboxyl-terminal lysines, exposed in fibrin upon limited plasmin digestion. Half-maximal competition of fibrin binding of both t-PA and t-PA del.F is obtained at 3.3 microM Glu-plasminogen. The difference between this value and the apparent dissociation constant of Glu-plasminogen binding to limitedly digested fibrin (12.1 microM) under these conditions is attributed to multiple, simultaneous interactions, each having a separate affinity. It is concluded that t-PA and Glu-plasminogen can bind to the same carboxyl-terminal lysines in limitedly digested fibrin, whereas binding sites composed of intrachain lysines are unique both for the K2 domain of t-PA and the Glu-plasminogen kringles.
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PMID:Tissue-type plasminogen activator and its substrate Glu-plasminogen share common binding sites in limited plasmin-digested fibrin. 214 85

A comparative kinetic analysis of the enzymatic activities of one-chain and two-chain tissue-type plasminogen activator (t-PA) demonstrates that two-chain t-PA catalyzes the hydrolysis of the peptide substrate D-Val-Leu-Arg-pNA about 4-fold more effectively than one-chain t-PA. The difference is accounted for almost entirely by a corresponding difference is the kcat values of the enzymes, whereas the Km values are similar. The amidolytic activity of two-chain t-PA is not enhanced by intact or partially plasmin-degraded fibrin. In contrast, the activity of one-chain t-PA is stimulated up to 3.7-fold by intact fibrin and up to 4.7-fold by plasmin-degraded fibrin (fibrin X-fragment). The stimulatory effects are realized via increases in the kcat values. It appears thus that in the presence of fibrin the intrinsically inferior catalytic properties of one-chain t-PA become similar to the properties of two-chain t-PA. The dependency of the activity of one-chain t-PA on the concentration of fibrin monomer is consistent with a single association site of both proteins and an association constant of Kass = 6.25 x 10(6) l/mol. Stimulation of one-chain t-PA by plasmin-degraded fibrin is more complex and appears to involve two different binding sites with association constants of Kass = 0.67 x 10(9) l/mol and Kass = 3.85 x 10(6) l/mol, respectively. The stimulatory effects of fibrin and partially plasmin-degraded fibrin on one-chain t-PA are suppressed by epsilon-aminocaproic acid and by a monoclonal antibody directed against the lysine binding site of t-PA. The latter findings support the notion that fibrin activation of one-chain t-PA is mediated by the lysine binding site on kringel domains of the enzyme.
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PMID:Effects of intact fibrin and partially plasmin-degraded fibrin on kinetic properties of one-chain tissue-type plasminogen activator. 214 80

The presence of plasminogen activator (PA) with a Mr of about 35,000 was detected by SDS-PAGE in extract from Guerin epithelioma. The activator, which is a serine proteinase, was partially purified on Sephadex G-50 followed by Lys-Sepharose. Rat plasma, both of healthy and epithelioma-bearing animals, inhibited the activity of such isolated PA. However, the difference between these plasmas in their antiactivator action was observed after inactivation of plasma proteinase inhibitors. In such conditions, the control plasma lost the ability to inhibit the examined PA, whereas the plasma of epithelioma bearing rats retained this ability.
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PMID:Plasminogen activator (PA) in Guerin epithelioma. Additional PA inhibitor in plasma of rats bearing the epithelioma. 214 18


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