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)

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

The activation rate of plasminogen by tissue-type plasminogen activator can be increased by fibrin(ogen) fragments. There is a remarkable difference in the effect of these fragments on the stimulation of 1-glu-plasminogen activation and 442-val-plasminogen (mini-plasminogen) activation. Fibrin monomer as well as plasmic fragments Y, D EGTA and D-dimer have a stimulating effect on both 1-glu-plasminogen and 442-val-plasminogen activation, whereas cyanogen bromide fragment FCB2 stimulates only the activation of 1-glu-plasminogen. Results indicate that two types of sites may be operational in fibrin and fibrin(ogen) fragments Y, D EGTA and D-dimer. One type of site (FCB2-related) interacts probably with plasminogen and may be dependent on the kringle 1-4 region; the other type of site probably interacts either with plasminogen in a non-kringle 1-4 region-dependent manner or with tissue-type plasminogen activator.
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PMID:Differences in effects of fibrin(ogen) fragments on the activation of 1-glu-plasminogen and 442-val-plasminogen by tissue-type plasminogen activator. 622 56

In spontaneous fibrinolysis of an alpha 2-plasmin inhibitor-deficient plasma clot or tissue-type plasminogen activator-induced fibrinolysis in a purified system without alpha 2-plasmin inhibitor, the lysis was faster when factor XIII-mediated crosslinking of fibrin to fibrin did not occur. During the initial period, the binding of plasminogen to fibrin steadily increased with incubation time. The initial level and subsequent increase of the binding, which may be critical for the subsequent development of fibrinolysis, were more remarkable when fibrin was not crosslinked. The amount of glu- or lys-plasminogen bound to noncrosslinked fibrin was around 4 or 1.5 times larger than the amount of the respective plasminogen bound to crosslinked fibrin. Plasmin was also found to be bound to noncrosslinked fibrin twice as much as the amount bound to crosslinked fibrin. Structural changes induced by crosslinking of fibrin alpha-chain may reduce either the affinity or the number of available complementary sites to lysine binding sites of plasmin(ogen), thereby decreasing the binding of plasmin(ogen) to fibrin. These results suggest that an increased affinity of noncrosslinked fibrin for plasmin(ogen) is contributory to the accelerated fibrinolysis observed in factor XIII deficiency, in addition to an absence of crosslinking of alpha 2-plasmin inhibitor to fibrin.
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PMID:Differential binding of plasminogen to crosslinked and noncrosslinked fibrins: its significance in hemostatic defect in factor XIII deficiency. 623 70

Two-chain 70 000-dalton plasminogen activator of tissue origin displays only weak activity toward plasminogen in a two-component system. The rate of activation is enhanced a minimum of 50-fold by the presence of fibrin clots or denatured proteins. The stimulation must depend on both chemical determinants and spatial configuration, since native proteins, including fibrinogen, lack significant stimulatory activity. These studies employed chemical modifications of four stimulatory proteins (fibrin, denatured fibrinogen, denatured IgG and denatured ovalbumin) to identify a critical role for lysine residues. Arginine, aspartic acid, cysteine, cystine, glutamic acid, histidine, methionine, tyrosine and tryptophan were found not to be essential. The critical spatial determinant(s) remain(s) unknown.
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PMID:A critical role of lysine residues in the stimulation of tissue plasminogen activator by denatured proteins and fibrin clots. 640 38

In the presence of an excess of streptokinase (SK) the amidolytic activity of the plasminogen-SK complex on chromogenic substrates is 12% lower in serum than in the corresponding plasma. However, in subjects in whom venous stasis lead to a shortening of the euglobulin lysis time to less than 60 min (high responders), the amidolytic activity of the plasminogen-SK complex in serum was 60% higher than in the corresponding plasma. Attempts to find alterations of the plasminogen molecule itself which would account for the enhanced activity in high responder serum were negative. No free plasmin was present and the plasminogens isolated from plasma and serum before and after venous stasis had the same amidolytic activity as gluplasminogen in the presence of an excess of SK. N-terminal analysis of these four plasminogens revealed in each instance glutamic acid. The enhancement of the amidolytic activity of the SK-plasminogen complex in serum of high responders (potentiator activity) could be reproduced by adding purified tissue plasminogen activator (TA) to native blood before clotting, but not if TA was added to plasma or to prestasis serum. Removal of fibrin degradation products from poststasis serum resulted in the disappearance of potentiator activity. These experiments suggest that fibrin degradation products, generated during clotting in the presence of vascular or tissular plasminogen activator act as a potentiator of the amidolytic activity of the plasminogen SK-complex.
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PMID:The amidolytic activity of the SK-plasminogen complex is enhanced by a potentiator which is generated in the presence of vascular plasminogen activator--role of fibrin degradation products. 705 7

In this study, we aimed at improving the therapeutic index of tissue-type Plasminogen Activator (t-PA) as thrombolytic agent in the treatment of myocardial infarction. Liposome-encapsulated t-PA was tested in a rabbit jugular vein thrombosis model: administration of free t-PA (t-PA) as a bolus injection in the ear vein was compared to a similar administration of liposomal t-PA (t-PA-lip), liposomal t-PA in plasminogen-coated liposomes (Plg-t-PA-lip), a mixture of free t-PA and empty liposomes (t-PA+ empty lip) and a saline-blank (blank) in terms of thrombolytic activity and side effects. Liposomal t-PA (t-PA-lip/Plg-t-PA-lip) showed a significantly better thrombolysis efficiency than equimolar doses of free t-PA (t-PA/ t-PA+ empty lip): about 0.24 mg/kg of liposomal t-PA practically equalled the lysis-activity of a dose of free t-PA of 1.0 mg/kg (t-PA1mg/kg). On the other hand, liposome encapsulation did not affect the systemic activation of alpha 2-antiplasmin and plasminogen by t-PA. We conclude that for this model an improvement in thrombolytic efficacy of t-PA is achieved by liposome encapsulation of t-PA. As t-PA-lip and Plg-t-PA-lip -treatment induced similar results, targeting of liposomal t-PA by coupled glu-Plg remains a topic to be optimized in future studies.
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PMID:Thrombolytic treatment with tissue-type plasminogen activator (t-PA) containing liposomes in rabbits: a comparison with free t-PA. 766 33

To examine the basis of enhanced thrombolytic effect of tissue-type plasminogen activator (t-PA) in the presence of lys- or glu-plasminogen, studies were performed with human platelet-rich plasma (PRP) and washed platelets (WP). t-PA inhibited platelet aggregation in PRP and this effect was potentiated by lys-plasminogen as well as glu-plasminogen. t-PA inhibited WP aggregation only in the presence of lys- or glu-plasminogen. The potentiation of the effects of t-PA was greater (P < 0.05) with lys-plasminogen than with glu-plasminogen. t-PA alone also decreased 14C-serotonin release from WP, and lys- as well as glu-plasminogen reversed this effect of low concentrations of t-PA in WP. Aggregation of WP was also inhibited by plasmin, a proteolytic product of plasminogen. Low, but not high concentrations, of plasmin increased the release of 14C-serotonin. Anti-aggregatory effects of plasmin and lys-plasminogen plus t-PA on platelets were attenuated by preincubation of PRP or WP suspension with aprotinin. These observations suggest enhanced inhibitory effect of t-PA on platelet function in the presence of lys-plasminogen as potential basis of salutary interaction in models of arterial thrombosis.
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PMID:Lys- and glu-plasminogen potentiate the inhibitory effect of recombinant tissue plasminogen activator on human platelet aggregation. 809 99

The involvement of specific aspartic acid (D) and glutamic acid (E) residues of the recombinant (r) kringle 2 (K2) domain of tissue-type plasminogen activator (tPA) in stabilizing its interaction with omega-amino acid ligands has been assessed by examination of these binding events subsequent to site-directed mutagenesis of the relevant amino acid residues. We have expressed and purified nonconservative alanine (A) replacement mutants at the following amino acid sequence locations in r-K2tPA:E17 (r-[K2tPA/E17A]), E75 (r-[K2tPA/E75A]), and D78 (r-[K2tPA/D78A]). More conservative E for D replacements were generated at the only other anionic (at neutral pH) amino acids of r-[K2tPA], viz., D57 (r-[K2tPA/D57E]) and D59 (r-[K2tPA/D59E]). Each of these variant polypeptides was then utilized for binding investigations with a series of omega-amino acids. No substantial differences were found in the binding constants (pH 8.0, 25 degrees C) for the ligands, 6-aminohexanoic acid (6-AHxA), 7-aminoheptanoic acid (7-AHpA), L-lysine, and trans-(aminomethyl)cyclohexane-1-carboxylic acid (AMCHA), among wild-type (wt) r-K2tPA, r-[K2tPA/E17A], r-[K2tPA/E75A], and r-[K2tPA/D78A]. On the other hand, dramatic effects on this same binding were observed in recombinant mutants with alterations at D57 and D59. In these cases, even with the most conservative replacements, i.e., r-[K2tPA/D57E] and r-[K2tPA/D59E], the Kd values for these ligands were increased approximately 3-6-fold and 18-85-fold, respectively. NMR analysis of these variants suggested that no substantial gross conformational changes occurred as a result of the mutations made, but some localized alterations in amino acid microenvironments did take place.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Specific anionic residues of the recombinant kringle 2 domain of tissue-type plasminogen activator that are responsible for stabilization of its interaction with omega-amino acid ligands. 838 82

Recombinant tissue-type plasminogen activator (rt-PA) administration rapidly restores blood flow in thrombosed coronary arteries, but coronary arteries often reocclude after initial thrombolysis. This occurs because of the short half-life of rt-PA and rapid increase in plasminogen activator inhibitor (PAI-1) and alpha2-antiplasmin levels in plasma. We hypothesized that administration of lys-plasminogen, which binds to fibrin with 10 times greater affinity and results in a loose fibrin structure (as compared with native glu-plasminogen), before rt-PA would enhance the thrombolytic efficacy of rt-PA and modulate parameters of fibrinolysis. To examine this hypothesis, dogs with electrically induced stable thrombus in the left anterior descending coronary artery (LAD) were treated with saline (group A, n = 9) or lys-plasminogen (group B, 2 mg/kg, n = 5), followed 10 min later by rt-PA (1 mg/kg in 20 min). Four other dogs with occlusive LAD thrombus were first given rt-PA, followed by lys-plasminogen (2 mg/kg) 50 min later (group C). Lys-plasminogen given before rt-PA restored flow in all dogs in 14 +/- 4 min (vs. 22 +/- 9 min in group A, p < 0.05), continuing > 2 h (vs. 41 +/- 15 min in group A, p < 0.02). Lys-plasminogen given after rt-PA did not potentiate the effect of rt-PA. Plasma t-PA antigen concentrations were highest in group B dogs at 2 h after rt-PA infusion. PAI-1 and alpha2-antiplasmin plasma levels were suppressed in all dogs receiving lys-plasminogen whether it was given before or after rt-PA. Therefore, lys-plasminogen given before rt-PA markedly potentiates the effect of rt-PA and alters the parameters of fibrinolysis. In contrast, lys-plasminogen given after rt-PA does not influence the thrombolytic effect of rt-PA, whereas it suppresses PAI-1 and alpha2-antiplasmin levels in plasma. This study also suggests that binding of plasminogen to the clot is more important than the plasma levels of PAI-1 and alpha2-antiplasmin.
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PMID:Recombinant lys-plasminogen given before, but not after, recombinant tissue-type plasminogen activator markedly improves coronary thrombolysis in dogs: relationship of thrombolytic efficacy with parameters of fibrinolysis. 872 Apr 29

Fibrinolysis is regulated in part by the interaction of tissue-type plasminogen activator (t-PA) and plasminogen activator inhibitor type 1 (PAI-1). Previous investigations suggest that three specific arginine residues, Arg-298, Arg-299, and Arg-304 of t-PA, play a critical role in this important regulatory interaction. Our earlier studies have demonstrated that conversion of any of these three residues to a glutamic acid residue reduced the rate of inhibition of t-PA by PAI-1 by factors varying from 58-64. In addition, we have reported that the second order rate constant for inhibition by PAI-1 of the variant t-PA/K296E,R298E,R299E is reduced by a factor of approximately 2800 compared with that of wild type t-PA. In this study, we have significantly extended our earlier observations by identifying t-PA variants that are substantially more resistant to inhibition by PAI-1 than any previously reported variants of t-PA or urokinase-type plasminogen activator. Single-chain t-PA/R275E,R298E, R299E,R304E, for example, is inhibited by PAI-1 approximately 120, 000 times less rapidly than single-chain, wild type t-PA. We also report the first direct comparison of the effects of charge reversal mutations of Arg-298, Arg-299, and/or Arg-304 on the properties of the single- and two-chain forms of t-PA. While these mutations confer extraordinary resistance to inhibition by PAI-1 to both forms of the enzyme, our observations reveal that the single-chain enzyme is affected to a greater extent than the two-chain enzyme. Two-chain, wild type t-PA is inhibited by PAI-1 approximately 1.4 times more rapidly than single-chain t-PA. The corresponding ratio increases to 7.6 or 6.7, respectively, for variants of t-PA containing the R298E, R299E or R298E,R299E,R304E mutations.
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PMID:Variants of tissue-type plasminogen activator that display extraordinary resistance to inhibition by the serpin plasminogen activator inhibitor type 1. 916 16


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