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)

Plasminogen activator inhibitor-1 (PAI-1) is the primary inhibitor of the plasminogen activators (PAs), tissue-type plasminogen activator (tPA), and urokinase-type plasminogen activator (uPA). A library of PAI-1 mutants containing substitutions at the P1 and P1' positions was screened for functional activity against tPA and thrombin. Several PAI-1 variants that were inactive against uPA in a previous study (Sherman, P. M., Lawrence, D. A., Yang, A. Y., Vandenberg, E. T., Paielli, D., Olson, S. T., Shore, J. D., and Ginsburg, D. (1992) J. Biol. Chem. 267, 7588-7595) had significant inhibitory activity toward tPA. This set of tPA-specific PAI-1 mutants contained a wide range of amino acid substitutions at P1 including Asn, Gln, His, Ser, Thr, Leu, Met, and all the aromatic amino acids. This group of mutants also demonstrated a spectrum of substitutions at P1'. Kinetic analyses of selected variants identified P1Tyr and P1His as the most efficient tPA-specific inhibitors, with second-order rate constants (ki) of 4.0 x 10(5) M-1s-1 and 3.6 x 10(5) M-1s-1, respectively. Additional PA-specific PAI-1 variants containing substitutions at P3 through P1' were constructed. P3Tyr-P2Ser-P1Lys-P1'Trp and P3Tyr-P2Ser-P1Tyr-P1'Met had ki values of 1.7 x 10(6) M-1s-1 and 2.5 x 10(6) M-1s-1 against tPA, respectively, but both were inactive against uPA. In contrast, P2Arg-P1Lys-P1'Ala inhibited uPA 74-fold more rapidly than tPA. The mutant PAI-1 library was also screened for inhibitory activity toward thrombin in the presence and absence of the cofactor heparin. While wild-type PAI-1 and several P1Arg variants inhibited thrombin in the absence of heparin, a number of variants were thrombin inhibitors only in the presence of heparin. These results demonstrate the importance of the reactive center residues in determining PAI-1 target specificity and suggest that second sites of interaction between inhibitors and proteases can also contribute to target specificity. Finally, the PA-specific mutants described here should provide novel reagents for dissecting the physiological role of PAI-1 both in vitro and in vivo.
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PMID:Identification of tissue-type plasminogen activator-specific plasminogen activator inhibitor-1 mutants. Evidence that second sites of interaction contribute to target specificity. 772 51

The addition of N-linked core oligosaccharides to membrane and secretory glycoproteins occurs co-translationally at asparagine residues in the tripeptide sequon Asn-Xaa-Ser/Thr soon after translocation of the nascent polypeptide into the lumen of the endoplasmic reticulum. However, the presence of the sequon does not automatically ensure core glycosylation, as many proteins contain sequons that remain either unglycosylated or glycosylated to a variable extent. To investigate whether intracellular protein folding can influence sequon utilization, we have expressed tissue-type plasminogen activator (t-PA) in cell culture in the presence of mild concentrations of the reducing agent dithiothreitol to prevent co-translational disulfide bond formation in the endoplasmic reticulum. We show that conditions that prevent disulfide bond formation lead to complete glycosylation of a sequon that otherwise undergoes variable glycosylation in untreated cells. This demonstrated that folding and disulfide bond formation of t-PA determines its extent of core N-linked glycosylation. When dithiothreitol was removed from the cells, the reduced and overglycosylated t-PA formed disulfide bonds, folded, and was secreted. We also show t-PA present within cells is more susceptible to reduction with low concentrations of dithiothreitol than secreted t-PA.
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PMID:Intracellular folding of tissue-type plasminogen activator. Effects of disulfide bond formation on N-linked glycosylation and secretion. 787 53

One feature that distinguishes all of the inhibitory members of the serpin gene family is the presence of a small uncharged residue at the P14 position of the reactive center loop. In this report we examine the effects of mutations at this position, in the serpin, plasminogen activator inhibitor type 1 (PAI-1). Replacement of the native P14 Thr-333 residue by an Arg (Thr-333-->Arg) resulted in complete loss of inhibitory activity toward tissue-type plasminogen activator and urokinase-type plasminogen activator. Comparison of the binding of the mutant inhibitor and wild type PAI-1 (WTPAI-1) to anhydrotrypsin indicated that the initial interaction of the two inhibitors with proteases was identical. However, whereas WTPAI-1 forms SDS-stable complexes with both plasminogen activators, the mutant PAI-1 was efficiently cleaved as a substrate. Amino-terminal sequence analysis indicated that cleavage of the mutant PAI-1 occurred at its reactive center P1-P1' Arg-Met bond. Thermal denaturation studies of native and cleaved PAIs indicated that native Thr-333-->Arg mutant had a thermal stability identical to active WTPAI-1 and that both proteins became significantly more stable following cleavage by elastase (cleaved at the P4-P3 bond). Finally, the function of recombinant PAI-1 variants containing 15 of the possible 19 amino acid substitutions at P14 were analyzed. While residue size appeared to have little effect on inhibitory activity, the presence of either a positive or a negative charge at P14, converted PAI-1 to a substrate. Taken together, these results suggest that while insertion of the reactive center loop is not essential for protease binding, it is a necessary second step required for inhibitor function. The presence of a charged residue at P14 can retard this insertion, resulting in conversion of the serpin to a substrate.
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PMID:Serpin reactive center loop mobility is required for inhibitor function but not for enzyme recognition. 796 84

rt-PA-K, a variant of recombinant tissue-type plasminogen activator (rt-PA) with substitution of amino acids 296 to 299 with alanine (KHRR296-299AAAA) has increased fibrin-specificity and reduced sensitivity to plasminogen activator inhibitor-1; rt-PA-T, with threonine 103 replaced by asparagine has an additional glycosylation site and a reduced clearance; and rt-PA-N, with asparagine 117 mutagenized to glutamine lacks the high mannose carbohydrate side chain. We have investigated whether combination of these properties in a single molecule might yield an improved thrombolytic agent. The thrombolytic potency and fibrin-specificity of the combination mutant rt-PA-TNK was compared with that of rt-PA in a combined venous whole blood clot model and platelet-rich arterial eversion graft thrombosis model in dogs given intravenous heparin and aspirin. Infusion of 0.125 to 1.0 mg/kg over 60 min in groups of 4 to 5 dogs produced dose-dependent fibrin-specific venous clot lysis. The thrombolytic potency (percent lysis per mg compound administered per kg body weight) of rt-PA-TNK was significantly higher than that of rt-PA as evidenced by a higher maximal rate of lysis of 480 +/- 100% versus 140 +/- 40% within the 2 h observation period per mg of compound administered per kg body weight (mean +/- SEM, p = 0.004) and a significantly lower dose of 0.08 +/- 0.01 versus 0.21 +/- 0.04 mg/kg body weight at which the maximal rate of lysis was obtained (p = 0.004).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparative thrombolytic properties of tissue-type plasminogen activator and of a plasminogen activator inhibitor-1-resistant glycosylation variant, in a combined arterial and venous thrombosis model in the dog. 797 84

Plasminogen activator inhibitor-1 (PAI-1), the main physiological inhibitor of tissue-type plasminogen activator (t-PA), may occur in three interconvertible conformations: active, latent, and substrate. To delineate specific domains in the PAI-1 molecule responsible for its conformational flexibility and associated functional diversity, four mutants of PAI-1 (with the amino acids at positions P12, P10, P8, and P6, respectively, substituted with proline) were expressed in Escherichia coli, purified, and characterized. Wild-type PAI-1 (wtPAI-1) had a specific activity of 21 +/- 10% (mean +/- S.D., n = 3) of the theoretical maximum value. PAI-1-P12 (Ala-->Pro at P12), PAI-1-P10 (Ser-->Pro at P10), and PAI-1-P8 (Thr-->Pro at P8) had specific activities of 0.06 +/- 0.03% (n = 3), 2.6 +/- 1.0% (n = 4), and 2.7 +/- 1.1% (n = 3), respectively (p < 0.03 versus wtPAI-1). PAI-1-P6 (Val-->Pro at P6) has a specific activity of 12 +/- 3.3% (n = 3) of the theoretical maximum value (p = not significant versus wtPAI-1). SDS-polyacrylamide gel electrophoresis of mixtures of wtPAI-1 or PAI-1-P6 with a 2-fold molar excess of t-PA yielded a mixture of a covalent 110-kDa t-PA.PAI-1 complex (15-25%), nonreactive 45-kDa material (44-67%), and a 41-kDa band (18-31%) representing cleaved PAI-1. PAI-1-P12, PAI-1-P10, and PAI-1-P8 behaved as substrates, yielding predominantly the 41-kDa cleavage product (85-91%) and a small amount (9-15%) of non-reactive material. NH2-terminal amino acid sequencing revealed that cleavage occurred at the P1-P1' bond (Arg346-Met347). Incubation of PAI-1-P12, PAI-1-P10, or PAI-1-P8 with a 2-fold molar excess of urokinase-type plasminogen activator, plasmin, or thrombin also primarily generated a 41-kDa cleavage product (62-89%). Incubation of wtPAI-1 and PAI-1-P6 at 37 degrees C resulted in a loss of inhibitory activity, whereas the substrate behavior of PAI-1-P12, PAI-1-P10, and PAI-1-P8 remained unaltered. Treatment of the three substrate-like mutants with guanidinium Cl did not induce inhibitory activity. In conclusion, point mutations at positions P12, P10, and P8 yield PAI-1 variants with stable substrate properties, which may facilitate more detailed structure/function studies.
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PMID:Conversion of plasminogen activator inhibitor-1 from inhibitor to substrate by point mutations in the reactive-site loop. 803 24

The glycoprotein tissue-type plasminogen activator (t-PA) is subject to hepatic clearance in humans. Here, the interaction of t-PA with a well-differentiated hepatoma cell line (HepG2) was examined. Suspended HepG2 cells bound 125I-t-PA in a specific, saturable, and reversible fashion through a Ca(2+)-dependent, active site-independent mechanism. Binding isotherms indicated a high affinity system with a single class of saturable binding sites (Kd 39 nM; maximum binding capacity 493,000 sites per cell). Bound t-PA was rapidly degraded at 37 degrees C in a manner inhibited by lysosomotropic agents or metabolic inhibitors. Pretreatment of t-PA with monoclonal antibodies against the EGF/fibronectin finger domain, but not kringle 2 or kringle 1, reduced total binding by 86%. Binding of 125I-t-PA to HepG2 cells was inhibited by monosaccharides fucose and galactose and by the neoglycoprotein fucosyl-albumin. Enzymatic removal of alpha-fucose residues, but not alpha-galactose, high mannose, or complex oligosaccharide from 125I-t-PA, reduced specific binding by 60 +/- 5%. Binding was also inhibited by high, but not low, molecular weight urokinase, which contains an EGF-based threonine-linked alpha-fucose homologous to that of t-PA. These data suggest that EGF-associated O-linked alpha-fucose may mediate t-PA binding and degradation by HepG2 cells. This mechanism may be relevant to other proteins with analogous structures.
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PMID:alpha-Fucose-mediated binding and degradation of tissue-type plasminogen activator by HepG2 cells. 811 82

Electrospray ionization mass spectrometry utilizing a single quadrupole on line with reversed-phase HPLC (LC/MS) enables the characterization of glycoproteins in a relatively short period of time. In this approach the protein is digested with a suitable protease and the peptides are separated by reversed-phase HPLC and detected by electrospray ionization mass spectrometry. The glycopeptides are initially observed as a cluster of negatively sloping ions in a contour plot of data from the LC/MS run (m/z vs retention time) or as a characteristics series of masses at different elution times. The search for a particular glycopeptide is based on previously known carbohydrate structures and on consensus glycosylation sites. Further structural information is obtainable with glycosidase digestion and LC/MS analysis. The mass shifts following glycosidase digestion allow further confirmation of the structure. This approach identifies the site of attachment of two hybrid glycoforms to the T11 tryptic peptide in a reversed-phase tryptic map of recombinant tissue plasminogen activator (rt-PA). Use of selected ion extraction of the LC/MS data files allows one to graphically describe the elution order of closely related glycopeptides. The potential of LC/MS for the characterization of small amounts of unknown glycoproteins is shown by the study of an rt-PA mutant. A new potential site for glycosylation is created by site directed mutagenesis of wild type rt-PA with replacement of a threonine residue with asparagine at residue 103. An examination of a tryptic map shows that the mutant contains two new complex carbohydrate chains. The introduction of the new asparagine proximal to asparagine 117 changes this native high-mannose site in rt-PA to a complex-type glycosylation. This method allows rapid identification of carbohydrate containing peptides and yields useful structural information on microgram amounts of material.
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PMID:Identification of carbohydrate structures in glycoprotein peptide maps by the use of LC/MS with selected ion extraction with special reference to tissue plasminogen activator and a glycosylation variant produced by site directed mutagenesis. 825 61

DSPAalpha1 (Desmodus rotundus salivary plasminogen activator), a plasminogen activator from the saliva of the vampire bat Desmodus rotundus, is an effective thrombolytic agent. An unusual type of posttranslational modification, in which L-fucose is O-glycosidically linked to threonine 61 in the epidermal growth factor domain was found for natural DSPAalpha1 and its recombinant form isolated from Chinese hamster ovary cells. In the present study a combination of carbohydrate and amino acid composition analysis, amino acid sequencing, and mass spectrometry revealed that the L-fucose is bound to residues 56-68 of DSPAalpha1. The amino acid sequence of this glycosylation site agreed with the suggested consensus sequence Cys-Xaa-Xaa-Gly-Gly-Ser/Thr-Cys described for other proteins. Anew strategy for the identification of the modified amino acid was established. Direct evidence for the occurrence of fucosyl-threonine was obtained by mass spectrometry after digestion of the glycopeptide with a mixture of peptidases. On the basis of these results, DSPAalpha1 is a suitable model for studying the influence of O-fucosylation on clearance rates, particularly in comparative studies with the identically fucosylated and structurally related tissue plasminogen activator.
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PMID:O-linked L-fucose is present in Desmodus rotundus salivary plasminogen activator. 863 61

Inactivation by slow acting inhibitors in plasma is of little consequence for thrombolysis with wild type t-PA, since it is rapidly cleared from the blood stream and constantly replenished through infusion. However, it becomes increasingly important as the clearance rate of t-PA is reduced, through mutagenesis, to enable the molecule to be long acting and administered by a single bolus injection. The substitution of serine for alanine at position 473 substantially reduced the slow inactivation that occurs at pharmacological levels of t-PA in plasma. Approximately 70% of the activity of A473S remained after 4 h incubation in human plasma compared to approximately 25% for wild type t-PA. Wild type t-PA and A473S showed the same stability in alpha-2-antiplasmin depleted plasma, indicating that the resistance of A473S to inactivation is a result of reduced reactivity towards alpha-2-antiplasmin, the primary slow acting inhibitor of t-PA. The second order rate constant for the inactivation of A473S by purified alpha-2-antiplasmin was approximately 4 fold less than that of wild type t-PA, which is consistent with the results obtained in plasma. Substitution of threonine at position 473 also produced inhibitor resistance, but glycine did not. The substitution of charged or bulky residues at position 473 destroyed enzymatic activity. The mechanism of inhibitor resistance for A473S and A473T appears to be a reduced reactivity towards substrates with arginine at the P1 position. The A473S mutation adds well to T103N, a mutation that causes an approximate 9 fold reduction in the clearance rate of t-PA. The double mutation variant, T103N, A473S had normal plasma clot lysis activity, and was stable in plasma over a 4 h incubation period at 37 degrees C in vitro.
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PMID:Substitution of serine or threonine at position 473 of tissue-type plasminogen activator increases its stability in plasma. 871 88

beta2-Glycoprotein I (beta2GPI) is a highly glycosylated plasma protein with the ability to bind negatively charged substances such as DNA, heparin, dextran sulfate, and negatively charged phospholipids. The most relevant physiological role of beta2GPI is supposed to be the regulation of the function of anionic phospholipids like cardiolipin (CL). beta2GPI consists of a single polypeptide chain (326 amino acid residues) with a molecular mass of about 50 kD and with five tandem repeated domains (I, II, III, IV, and V). In the previous study, we found that factor Xa can produce the nicked form by cleaving Lys 317-Thr 318, using recombinant human domain V (r-Domain V). However, the reaction was extremely slow. In the present paper, we found that plasmin can produce the nicked form of domain V, using recombinant domain V (r-Domain V) and beta2GPI from human plasma. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, r-Domain V was rapidly cleaved into a nicked form by plasmin, very slowly by factor Xa, but not by thrombin, tissue-type plasminogen activator, urokinase, and tissue factor/factor VIIa. The cleavage site of r-Domain V and beta2GPI by plasmin was proved to be Lys 317-Thr 318 by amino acid sequence analysis of the digest and of the C-terminal peptide isolated by high-performance liquid chromatography. The cleavage was completely inhibited by plasmin inhibitor (alpha2PI). The nicked form was demonstrated to show reduced affinity for CL with a dissociation constant of one order of magnitude larger than that of the intact beta2GPI. To determine whether the specific cleavage of beta2GPI by plasmin can occur also in plasma, human plasma was first acid-treated to inactivate alpha2PI and then incubated with urokinase. About 12% of beta2GPI in plasma was nicked when alpha2PI activity decreased to 80%. The nicked form was not generated in plasminogen-depleted plasma. These results suggest that plasmin can produce the nicked form of beta2GPI with the reduced ability to bind phospholipids in vivo.
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PMID:Plasmin can reduce the function of human beta2 glycoprotein I by cleaving domain V into a nicked form. 959 64


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