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: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recombinant variants of tissue-type plasminogen activator (t-PA) were constructed by site-directed mutagenesis and expressed in Chinese hamster ovary cells. Five variants were designed to improve the function of t-PA by mutagenesis in the kringle 1 (K1) domain. The amino acids were replaced with the corresponding residues present in the kringle 2 (K2) domain of native t-PA. The t-PA mutants expressed were as follows: variant E94V.D95G with point mutations in Glu94----Val and Asp95----Gly; variant N115P.S119M, Asn115----Pro and Ser119----Met; variant P125A.R129Q.R13OS, Pro125----Ala, Arg129----Gln and Arg130----Ser; variant G161R.K162R.-S165W, Gly161----Arg, Lys162----Arg and Ser165----Trp; and variant N115P, Asn115----Pro, respectively. The half-life following intravenous bolus injection in rabbits was prolonged in all variants except P125A.R130S. This was particularly true for N115P.S119M. The kinetic parameters for plasminogen activation were improved in t-PA G161R.K162R.S165W which showed a 0.6-fold decrease in Km, and a 1.8-fold increase in Vmax, thus promoting a 2.7-fold increase in kcat/Km compared to native t-PA. For a similar degree of thrombolysis in the rabbit jugular vein thrombosis model, the thrombolytic activity of G161R.K162R.S165W, at the dose tested, was four-fold greater than that of native t-PA. Thus, the substitution of the amino acids in the K1 domain with those corresponding in the K2 domain significantly enhanced the enzymatic activity of t-PA and improved the plasma survival.
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PMID:Characterization of human tissue-type plasminogen activator variants with amino acid mutations in the kringle 1 domain. 133 23

The tetra-alanine substitution variant KHRR 296-299 AAAA of tissue-type plasminogen activator (t-PA) was previously shown to have enhanced fibrin specificity and enhanced activity in the presence of fibrin compared with the wild-type form of the molecule. The structural requirements for these alterations in enzymatic activity were investigated by constructing several amino acid substitution variants at each of the positions from 296 to 299 and evaluating their activities under a variety of conditions. Effects on plasminogen activator activity were common among the point mutants at positions 296-299; nearly all had a phenotype similar to the KHRR 296-299 AAAA variant. The greatest effects on enzymatic function were found with multiple substitution variants, but some single charge reversals and proline substitutions had substantial effects. The enhanced fibrin specificity of KHRR 296-299 AAAA t-PA results in less fibrinogenolysis than seen with wild-type t-PA. Approximately four times greater concentration of KHRR 296-299 AAAA compared with wild-type t-PA was required to consume 50% of the fibrinogen in human plasma.
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PMID:Involvement of residues 296-299 in the enzymatic activity of tissue-type plasminogen activator. 140 47

Plasminogen activator inhibitor-1 (PAI-1) is a specific inhibitor of the serine proteases tissue-type plasminogen activator (tPA) and urokinase-type plasminogen activator (uPA). To systematically investigate the roles of the reactive center P1 and P1' residues in PAI-1 function, saturation mutagenesis was utilized to construct a library of PAI-1 variants. Examination of 177 unique recombinant proteins indicated that a basic residue was required at P1 for significant inhibitory activity toward uPA, whereas all substitutions except proline were tolerated at P1'. P1Lys variants exhibited lower inhibition rate constants and greater sensitivity to P1' substitutions than P1Arg variants. Alterations at either P1 or P1' generally had a larger effect on the inhibition of tPA. A number of variants that were relatively specific for either uPA or tPA were identified. P1Lys-P1'Ala reacted 40-fold more rapidly with uPA than tPA, whereas P1Lys-P1'Trp showed a 6.5-fold preference for tPA. P1-P1' variants containing additional mutations near the reactive center demonstrated only minor changes in activity, suggesting that specific amino acids in this region do not contribute significantly to PAI-1 function. These findings have important implications for the role of reactive center residues in determining serine protease inhibitor (serpin) function and target specificity.
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PMID:Saturation mutagenesis of the plasminogen activator inhibitor-1 reactive center. 155 96

Thrombolytic effects of tissue-type plasminogen activator (t-PA) are limited by in vivo platelet activation and dynamic coronary vasoconstriction. To examine if the concurrent administration of a fibrin(ogen)-degradation product, pentapeptide 6A (Ala-Arg-Pro-Ala-Lys) with t-PA would improve the thrombolytic effects of t-PA, dogs with electrically induced coronary thrombus were given t-PA alone or with peptide 6A. In dogs given t-PA alone (0.75 mg/kg over 20 min), coronary blood flow was restored in 69% of animals (9 of 13 dogs), with a mean time to reflow of 21 +/- 10 min and duration of reflow of 35 +/- 18 min. Reocclusion occurred in 77% of dogs (7 of 9 dogs). With concurrent administration of peptide 6A (200 mumol), coronary venous 6-keto-PGF1 alpha concentrations increased from 221 +/- 71 to 422 +/- 161 pg/ml (p less than 0.05), but not with t-PA given alone. Coronary blood flow was restored in 7 of 11 dogs (reperfusion rate 64%), with mean time to reflow of 17 +/- 7 min and duration of reflow of 35 +/- 15 min. The coronary reocclusion rate was 86%. All these indices of thrombolysis were similar to those in dogs given t-PA alone. In ex vivo experiments, we also demonstrated release of endothelium-derived relaxing factor from canine coronary artery rings in response to peptide 6A. To further examine the role of prostacyclin (PGI2) in thrombolytic response to t-PA, eight other dogs were given t-PA with a PGI2 analog iloprost (100 ng/kg/min for 40 min).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Combined thrombolytic effects of tissue-plasminogen activator and a fibrinogen-degradation product peptide 6A or iloprost. 171 84

The dissolution of blood clots by plasmin is normally initiated in vivo by the activation of plasminogen to plasmin through the activity of tissue plasminogen activator (t-PA). The rate of plasminogen activation can be stimulated several orders of magnitude by the presence of fibrin-related proteins. Here we describe the kinetic analysis of both recombinant human t-PA (wild-type) and a t-PA variant produced by site-directed mutagenesis in which the original sequence from amino acids 296 to 299, KHRR, has been altered to AAAA. This tetra-alanine variant form of t-PA, K296A/H297A/R298A/R299A t-PA, we refer to as "KHRR" t-PA here. The plasminogen activating kinetics of wild-type t-PA (Activase alteplase) showed a catalytic efficiency which changed over 100-fold dependent on the stimulator in the assay. The lowest rate was in the absence of a stimulator. The following stimulators showed increasing ability to accelerate the catalytic efficiency of the reaction: fibrinogen, fragments of fibrinogen obtained by digestion with plasmin, fibrin, and slightly degraded fibrin. This increase in efficiency was driven primarily by decreases in the Michaelis constant (KM) of the reaction, whereas the catalytic rate constant (kcat) of the reaction did not change significantly. The "KHRR" variant of t-PA displayed novel kinetics with all stimulators tested. In the absence of a stimulator or with the poorer stimulators (fibrinogen and fibrinogen fragments), the KM values of the reaction with Activase alteplase and "KHRR" t-PA were similar. The kcat however, was lower with "KHRR" t-PA than with wild-type t-PA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A region of tissue plasminogen activator that affects plasminogen activation differentially with various fibrin(ogen)-related stimulators. 173 99

Plasmin generation by equimolar concentrations of tissue plasminogen activator (t-PA), pro-urokinase (pro-UK), and urokinase (UK), and a twofold higher concentration of a plasmin-resistant mutant rpro-UK (Ala-158-pro-UK) was measured on a microtiter plate reader. The promoting effects on this reaction of equimolar concentrations of fibrinogen, soluble fibrin (Desafib), CNBr fragment FCB-2 (an analogue of fragment D), or purified fragment E-2 were compared. Plasmin generation by t-PA was moderately promoted by fibrinogen, substantially promoted by Desafib and FCB-2, but not at all promoted by fragment E-2. By contrast, plasmin generation by pro-UK or by Ala-158-pro-UK was not promoted either by fibrinogen, Desafib, or FCB-2, but was significantly promoted by fragment E-2. Plasmin generation by UK was not significantly promoted by any of the fibrin(ogen) preparations. Treatment of fragment E-2 by carboxypeptidase-B (CPB), eliminated its promotion of pro-UK and Ala-158-pro-UK-induced plasmin generation. Pretreatment of FCB-2 with plasmin slightly potentiated its promotion of t-PA activity. This effect of plasmin pretreatment of FCB-2 was reversed by CPB treatment. Plasmin pretreatment of FCB-2 did not induce any promotion of activity in pro-UK or Ala-158-pro-UK. The findings show that the intrinsic activity of pro-UK and the activity of t-PA are promoted by different regions of the fibrin(ogen) molecule. The latter is stimulated primarily by a determinant in the fragment D region, which is available in intact fibrin. By contrast, plasminogen activation by the intrinsic activity of pro-UK was stimulated exclusively by fragment E-2, which is unavailable in intact fibrin. The findings are believed relevant to fibrinolysis and support the concept that t-PA and pro-UK are complementary, sequential, and synergistic in their actions.
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PMID:A comparative study of the promotion of tissue plasminogen activator and pro-urokinase-induced plasminogen activation by fragments D and E-2 of fibrin. 183 71

The effects of recombinant tissue-type plasminogen activator (rt-PA) and of an inactive mutant of rt-PA, obtained by mutagenesis of the active site Ser478 to Ala (rt-PA-Ala478), on the synthesis and secretion of plasminogen activator inhibitor-1 (PAI-1) by human umbilical vein endothelial cells (HUVEC) in culture were studied. Under base-line conditions, PAI-1 antigen secretion was 4.3 +/- 1.0 micrograms (mean +/- S.D., n = 8) per 10(6) cells in 24 h. This PAI-1 had a low specific activity (6,000 +/- 1,600 units/mg) and Mr of 50,000, which was not altered by addition of rt-PA. In HUVEC cultured with 2 micrograms/ml rt-PA-Ala478, PAI-1 antigen secretion was 2.1 +/- 0.8 micrograms (n = 5) per 10(6) cells in 24 h with a specific activity of 120,000 +/- 42,000 units/mg and Mr of 50,000. Addition of rt-PA to this conditioned medium resulted in generation of three main components: 16% migrated as an Mr 106,000 rt-PA.PAI-1 complex, 16% as an Mr 81,000 degraded rt-PA.PAI-1 complex and the remainder as an Mr 45,000 degradation product of PAI-1. HUVEC cultured with 2 micrograms/ml rt-PA secreted 3.9 +/- 0.6 micrograms (n = 8) PAI-1 antigen per 10(6) cells within 24 h, of which 20-50% occurred as intact or degraded complexes with t-PA (Mr 106,000 and 81,000) and the rest as an inactive Mr 45,000 degradation product of PAI-1. PAI-1 mRNA levels, determined by Northern blot analysis and expressed relative to beta-actin mRNA levels, were very similar for HUVEC cultured in the absence or the presence of rt-PA or rt-PA-Ala478. It is concluded that PAI-1 is secreted by HUVEC in culture in fully active form which spontaneously inactivates. PAI-1 can be stabilized by addition of rt-PA-Ala478 to the culture medium, resulting in a 20-fold increase in specific activity. Interaction of rt-PA with active PAI-1 produces both t-PA.PAI-1 complex and an inactive degradation product of PAI-1.
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PMID:Synthesis and secretion of plasminogen activator inhibitor 1 by human endothelial cells in vitro. Effect of active site mutagenized tissue-type plasminogen activator. 189 37

The reaction between plasminogen activators and plasminogen activator inhibitor-1 is characterized by an initial rapid formation of an inactive reversible complex. The second-order association rate constant (k1) of complex formation of recombinant two-chain tissue-type plasminogen activator (rt-PA) or recombinant two-chain urokinase-type plasminogen activator (rtcu-PA) by recombinant plasminogen activator inhibitor-1 (rPAI-1) is 2.9 +/- 0.4 x 10(7) M-1 s-1 (mean +/- S.D., n = 30) and 2.0 +/- 0.6 x 10(7) M-1 s-1 (n = 12), respectively. Different molecular forms of tissue- or urokinase-type plasminogen activator which do not form covalent complexes with rPAI-1, including rt-PA-Ala478 (rt-PA with the active-site Ser478 mutagenized to Ala) and anhydro-urokinase (rtcu-PA with the active-site Ser356 converted to dehydroalanine) reduced k1 in a concentration-dependent manner, compatible with 1:1 stoichiometric complex formation between rPAI-1 and these ligands. The apparent dissociation constant (KD) of the complex between rPAI-1 and rt-PA-Ala478, determined as the concentration of rt-PA-Ala478 which reduced k1 to 50% of its control value, was 3-5 nM. Corresponding concentrations of active-site-blocked two-chain rt-PA were 150-250-fold higher. The concentration of anhydro-urokinase which reduced k1 to 50% was 4-6 nM, whereas that of active-site-blocked rtcu-PA was 100-250-fold higher. Recombinant single-chain urokinase-type plasminogen activator had an apparent KD of about 2 microM. These results suggest that inhibition of rt-PA or rtcu-PA by rPAI-1 proceeds via a reversible high affinity interaction which does not require a functional active site but which is markedly reduced following inactivation of the enzymes with active-site titrants.
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PMID:On the reversible interaction of plasminogen activator inhibitor-1 with tissue-type plasminogen activator and with urokinase-type plasminogen activator. 190 Feb 84

Sixty-four variants of human tissue-type plasminogen activator (tPA) were produced using recombinant DNA techniques. Charged residues were converted to alanine in clusters of from one to four changes per variant; these clusters spanned all the domains of the molecule. The variants were expressed by mammalian cells and were analyzed for a variety of properties. Variants of tPA were found that had reduced activity with respect to each tested property; in a few cases increased activity was observed. Analysis of these effects prompted the following conclusions: 1) charged residues in the nonprotease domains are less involved in fibrin stimulation of tPA activity than those in the protease domain, and it is possible to increase the fibrin specificity (i.e. the stimulation of tPA activity by fibrin compared to fibrinogen) by mutations at several sites in the protease domain; 2) the difference in enzymatic activity between the one- and two-chain forms of tPA can be increased by mutations at several sites on the protease domain; 3) binding of tPA to lysine-Sepharose was affected only by mutations to kringle-2, whereas binding to fibrin was affected most by mutations in the other domains; 4) clot lysis was influenced by mutations in all domains except kringle-2; 5) sensitivity to plasminogen activator inhibitor-1 seems to reside exclusively in the region surrounding residue 300. A model of the tPA protease domain has been used to map some of the critical residues and regions.
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PMID:High resolution analysis of functional determinants on human tissue-type plasminogen activator. 190 May 16

The sequence fibrinogen-A alpha-(148-160) can mimic part of the fibrin-induced rate enhancement of the activation of plasminogen by tissue-type plasminogen activator. Previously we have reported that the lysine residue at position A alpha-157 is crucial. During our further investigations on A alpha-157 we found that lysine at position A alpha-157 may be replaced by glutamic acid. This unexpected finding prompted us to re-investigate the requirements of this position. We prepared analogues of A alpha-(148-160) in which the lysine residue at position A alpha-157 was replaced by lysine derivatives (acetyl-lysine, benzyloxycarbonyl-lysine and methanesulphonylethyloxycarbonyl-lysine), acidic residues (aspartic acid and glutamic acid), basic residues (arginine and ornithine), polar residues (glutamine and methanesulphonylethyloxycarbonylornithine), apolar residues (alanine, valine, norleucine and glutamic acid 4-nitrobenzyl ester) and glycine. These analogues were tested for their stimulatory activity. When aspartic acid, glutamic acid 4-nitrobenzyl ester or norleucine is present at position A alpha-157 in A alpha-(148-160) virtually all stimulatory capacity is lost. With valine at position A alpha-157 the stimulatory activity is marginal. None of the other replacements at position A alpha-157 caused loss of rate-enhancing properties. From these results we conclude that for the rate-enhancing effect of A alpha-(148-160) the side chain of the amino acid residue at position A alpha-157 must fulfill certain requirements: there must be one (as in alanine) or no (as in glycine) carbon atom in the side chain, or at least two carbon atoms and a polar group (charged or uncharged) to which a rather bulky group (such as the benzyloxycarbonyl group) or a polar group (such as the methanesulphonylethyloxycarbonyl group) may be attached. The highest activity [even higher than native A alpha-(148-160)] was obtained with ornithine, methanesulphonylethyloxycarbonylornithine or methanesulphonylethyloxycarbonyl-lysine at position A alpha-157.
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PMID:Structural requirements of position A alpha-157 in fibrinogen for the fibrin-induced rate enhancement of the activation of plasminogen by tissue-type plasminogen activator. 190 25


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