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)

Surface-associated plasmin(ogen) may contribute to the invasive properties of various cells. Analysis of plasmin(ogen)-binding surface proteins is therefore of interest. The N-terminal variable regions of M-like (ML) proteins from five different group A streptococcal serotypes (33, 41, 52, 53 and 56) exhibiting the plasminogen-binding phenotype were cloned and expressed in Escherichia coli. The recombinant proteins all bound plasminogen with high affinity. The binding involved the kringle domains of plasminogen and was blocked by a lysine analogue, 6-aminohexanoic acid, indicating that lysine residues in the M-like proteins participate in the interaction. Sequence analysis revealed that the proteins contain common 13-16-amino-acid tandem repeats, each with a single central lysine residue. Experiments with fusion proteins and a 30-amino-acid synthetic peptide demonstrated that these repeats harbour the major plasminogen-binding site in the ML53 protein, as well as a binding site for the tissue-type plasminogen activator. Replacement of the lysine in the first repeat with alanine reduced the plasminogen-binding capacity of the ML53 protein by 80%. The results precisely localize the binding domain in a plasminogen surface receptor, thereby providing a unique ligand for the analysis of interactions between kringles and proteins with internal kringle-binding determinants.
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PMID:Identification of a plasminogen-binding motif in PAM, a bacterial surface protein. 874 39

Staphylokinase, a bacterial plasminogen activator, is a potent, highly fibrin-specific but antigenic thrombolytic agent in humans. In an effort to attenuate the antigenicity of wild-type staphylokinase (SakSTAR variant), 2 of its 3 immunodominant epitopes were altered by substituting clusters of 2 or 3 charged amino acids with alanine, yielding the mutant SakSTAR.M38 (K35A, E38A, K74A, E75A, R77A), which was less antigenic in inbred New Zealand White rabbits. In the present study, groups of 6 baboons (Papio hamadryas) were randomized to SakSTAR (group 1) or SakSTAR.M38 (group 2). The thrombolytic potencies of 50 micrograms/kg compound at baseline, assessed in an extracorporeal thrombosis model, were similar: 77 +/- 2.9% (mean +/- SEM) clot lysis in group 1 and 83 +/- 3.6% in group 2. Groups 1 and 2 were immunized subcutaneously at 2, 3, and 5 weeks with 500 micrograms SakSTAR or SakSTAR.M38, respectively. From 6 weeks, group 1 developed significantly more antibody-related neutralizing activity than group 2 (maximal titer at 8 weeks of 100 +/- 23 micrograms SakSTAR and of 22 +/- 7.1 micrograms SakSTAR.M38 neutralized per milliliter of plasma, respectively). Neutralizing activities subsequently decreased gradually to 10-20% of peak values at 18 weeks. At 6 weeks, both groups were resistant to thrombolysis with 50 micrograms/kg of either compound. Rechallenge at 18 weeks with 250 micrograms/kg of the immunizing compound showed a significantly better recovery of the thrombolytic potency of SakSTAR.M38 (68 +/- 4.5% clot lysis) than of SakSTAR (39 +/- 5.3% clot lysis). Neither agent degraded fibrinogen or depleted alpha 2-antiplasmin. Therefore, SakSTAR.M38 is comparably active and fibrin-specific but less antigenic than wild-type SakSTAR. These findings in outbred primates confirm and extend earlier observations in inbred rabbits and provide a basis for the further development of staphylokinase variants with reduced antigenicity in humans.
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PMID:Comparative antigenicity of recombinant wild-type staphylokinase (SakSTAR) and a selected mutant (SakSTAR.M38) in a baboon thrombolysis model. 876 47

Structure/function relationships in the activation of plasminogen with staphylokinase were studied using mutants of recombinant staphylokinase (Sak42D). Deletion of up to 10 NH2-terminal amino acids (Sak42D delta N10) did not affect plasminogen activation, but removal of 11 amino acids completely abolished the ability to activate plasminogen. Elimination of potential plasmin cleavage sites in the NH2-terminal region yielding mutants Sak42D(K8H,K10H,K11H) and Sak42D(K6H,K8H,K11H) did not alter the rate of the exposure of a proteolytically active site (amidolytic activity) in equimolar mixtures with plasminogen, but destroyed the plasminogen activator properties of these muteins. Deleting two residues following the preferred processing site at position 10 (Sak42 delta (K11,G12)) resulted in a mutein also inactive in plasminogen activation. Removal of the COOH-terminal Lys136, yielding Sak42D delta C1, or of Lys135 and Lys136 in Sak42D delta C2 resulted in proteins with strongly reduced plasminogen activation capacity. In contrast, substitution of Lys135 and Lys136 with Ala in Sak42D(K135A,K136A) did not affect activation. Cyanogen bromide cleavage of Sak42D(M26L,E61M,D82E) produced a 61 amino acid NH2-terminal and a 65 amino acid COOH-terminal fragment which did not activate plasminogen, but bound to plasminogen with affinity constants Ka of 4.0 x 10(5) M-1 and 1.4 x 10(7) M-1, respectively (as compared to a Ka of 1.1 x 10(8) M-1 for Sak42D). These results indicate that Lys11 and the COOH-terminal region of staphylokinase play a key role in the activation of plasminogen.
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PMID:Functional significance of NH2- and COOH-terminal regions of staphylokinase in plasminogen activation. 895 Jul 86

Streptococcus equisimilis streptokinase (SK) is a single-chain protein of 414 residues that is used extensively in the clinical treatment of acute myocardial infarction due to its ability to activate human plasminogen (Plg). The mechanism by which this occurs is poorly understood due to the lack of structural details concerning both molecules and their complex. We reported recently (Parrado J et al., 1996, Protein Sci 5:693-704) that SK is composed of three structural domains (A, B, and C) with a C-terminal tail that is relatively unstructured. Here, we report thermal unfolding experiments, monitored by CD and NMR, using samples of intact SK, five isolated SK fragments, and two two-chain noncovalent complexes between complementary fragments of the protein. These experiments have allowed the unfolding processes of specific domains of the protein to be monitored and their relative stabilities and interdomain interactions to be characterized. Results demonstrate that SK can exist in a number of partially unfolded states, in which individual domains of the protein behave as single cooperative units. Domain B unfolds cooperatively in the first thermal transition at approximately 46 degrees C and its stability is largely independent of the presence of the other domains. The high-temperature transition in intact SK (at approximately 63 degrees C) corresponds to the unfolding of both domains A and C. Thermal stability of domain C is significantly increased by its isolation from the rest of the chain. By contrast, cleavage of the Phe 63-Ala 64 peptide bond within domain A causes thermal destabilization of this domain. The two resulting domain portions (A1 and A2) adopt unstructured conformations when separated. A1 binds with high affinity to all fragments that contain the A2 portion, with a concomitant restoration of the native-like fold of domain A. This result demonstrates that the mechanism whereby A1 stimulates the plasminogen activator activities of complementary SK fragments is the reconstitution of the native-like structure of domain A.
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PMID:Thermal stability of the three domains of streptokinase studied by circular dichroism and nuclear magnetic resonance. 897 67

Through a unique but poorly understood mechanism, streptokinase (SK) interacts with human plasminogen to generate an "activator complex" that efficiently cleaves substrate plasminogen molecules. Previous studies have suggested that lysine residues in SK may play a role in the binding and function of the activator complex. To investigate this hypothesis, 10 different lysine residues in the plasminogen binding region of SK were altered to construct 8 recombinant (r) SK mutants. Only one double mutant, rSKK256,257A (replacing Lys with Ala at residues 256 and 257), showed a statistically significant reduction (63%) in binding affinity for Glu-plasminogen. This mutant also displayed a lagtime in the appearance of maximal activity, and modest impairments (2-5-fold) in kinetic parameters for amidolytic and plasminogen activator activity compared to rSK. In contrast, another mutant, rSKK332,334A, formed an activator complex with profound and nearly selective defects in the catalytic processing of substrate plasminogen molecules. When compared to rSK in kinetic assays of plasminogen activation, the rSKK332,334A mutant formed an activator complex that bound substrate plasminogens normally (normal K(m), but its ability to activate or cleave these molecules (kcat) was reduced by 34-fold. In contrast, in amidolytic assays, the kinetic parameters of rSKK332,334A showed only minor differences (< 2-fold) from rSK. Similarly, the binding affinity of this mutant to human Glu-plasminogen was indistinguishable from rSK [(2.6 +/- 0.8) x 10(9) vs (2.4 +/- 0.2) x 10(9) M-1, respectively]. In summary, these experiments have identified lysine residues in a plasminogen binding region of SK which appear to be necessary for normal high-affinity binding to plasminogen, and for the efficient catalytic processing of substrate plasminogen molecules by the activator complex.
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PMID:Mutation of lysines in a plasminogen binding region of streptokinase identifies residues important for generating a functional activator complex. 898 27

Changes in coagulation and fibrinolysis in the plasma (in vivo) and hepatocytes (ex vivo) were studied using hyperglycemic rats. Hyperglycemia was induced by intravenous injection of 50 mg/kg streptozotocin (STZ). Eight weeks after the injection, we observed increases in thrombin-antithrombin III complex and tissue type plasminogen activator activity, decreases in plasma levels of antithrombin III, plasminogen and alpha2-plasmin inhibitor, and significant shortening of activated partial thromboplastin time. In freshly isolated or cultured hepatocytes from STZ-induced hyperglycemic rats, concentrations of proteins related to coagulation were increased. An increase in alanine-aminotransferase leakage and decreases in the levels of amylase, triglycerides and phospholipids were observed in the culture medium of hepatocytes from STZ treated rats. In vivo study revealed that STZ-induced subchronic diabetes induced imbalance between coagulation and fibrinolysis, and ex vivo study in hepatocytes from STZ-treated rats showed membrane degeneration and reduction in amylase synthesis, while protein synthesis related to coagulation was not inhibited. These results suggest that, despite vulnerability of liver cells from STZ treated rats, coagulation activity in the liver is retained and rather enhanced in STZ-induced hyperglycemic rats, which may contribute to the promotion of atherosclerosis.
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PMID:Blood coagulability and fibrinolysis in streptozotocin-induced diabetic rats. 958 51

Urokinase-type plasminogen activator (UPA), particularly when bound to its receptor (UPAR), is thought to play a major role in local proteolytic processes, thus facilitating cell migration as may occur during angiogenesis, neointima and atherosclerotic plaque formation, and tumor cell invasion. To facilitate understanding of the need and function of the UPA/UPAR interaction in cell migration and vascular remodeling, we changed several amino acid residues in UPA so as to interfere with its interaction with its receptor. The receptor-binding domain of UPA has been localized to a region in the growth factor domain between residues 20 and 32. Since the binding of UPA to UPAR appears to be species specific, we used the differences in amino acid sequences in the growth factor domain of UPA between various species to construct a human UPA variant that does not bind to the human UPAR. We substituted Asn22 for its mouse equivalent Tyr by site-directed mutagenesis. This mutant UPA had similar plasminogen activator characteristics as wild-type UPA, including its specific activity and interaction with plasminogen activator inhibitor-1. However, no UPA/UPAR complexes could be observed in cross-linking experiments using DFP-treated 125I-labeled mutant UPA and lysates of various cells, including U937 histiocytic lymphoma cells, phorbol myristate acetate-treated human ECs, and mouse LB6 cells transfected with human UPAR cDNA. In direct binding experiments, DFP-treated 125I-labeled mutant UPA could not bind to phorbol myristate acetate-treated ECs, whereas wild-type UPA did bind. Furthermore, a 25-fold excess of wild-type UPA completely prevented the binding of DFP-treated 125I-labeled wild-type UPA to the human receptor on transfected LB6 cells, whereas an equal amount of mutant UPA had only a very small effect. In ligand blotting assays, very weak binding of mutant UPA to human UPAR could be observed. Changing Asn22 into the other amino acid residues alanine or glutamine had no effect on binding to UPAR on human ECs. The functional integrity of the growth factor domain in the non-receptor binding Asn22Tyr mutant is suggested by the fact that binding of this mutant to a murine UPAR can be restored after additional mutations in the growth factor domain, Asn27,His29,Trp30 to Arg27,Arg29,Arg30. We conclude that Asn22 and Asn27,His29,Trp30 in human UPA are key determinants in the species-specific binding of the enzyme to its receptor and that changing Asn22 into Tyr results in a UPA mutant with strongly reduced binding to UPAR.
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PMID:Binding of human urokinase-type plasminogen activator to its receptor: residues involved in species specificity and binding. 959 26

SERP-1 is a myxoma virus-encoded serpin, secreted from infected cells, that is required for virulence and has anti-inflammatory activity. We report that purified recombinant SERP-1 forms SDS-stable complexes with urokinase-type plasminogen activator (uPA), tissue-type plasminogen activator (tPA), plasmin, thrombin, and factor Xa. N-terminal sequencing confirmed Arg319-Asn320 as the site of reaction. Mutation of these residues to Ala-Ala abolished inhibitory activity but had no effect on the specific cleavage at Thr315-Leu316 seen with elastase and with cathepsin G. Kinetic analysis of the reactions with uPA, tPA, plasmin, thrombin, Xa, and C1s showed second-order rate constants to vary over 3 logs, from kinh = 3 x 10(5) M-1 s-1 with thrombin to approximately 600 M-1 s-1 with C1s, while steady-state inhibition constants ranged from KI = 10 pM with thrombin to approximately 100 nM with C1s. Stoichiometries of inhibition varied between SI = 1.4 +/- 0.1 for uPA to SI = 13 +/- 3 for thrombin. Analysis of the variations in inhibition kinetics shows that when serpins act at low concentrations, comparable with the target protease or with KI (as appears likely for SERP-1 in vivo), inhibitory specificity becomes less dominated by kinh and is increasingly dependent on partitioning within the branched reaction mechanism and on the lifetime of the inhibited complex.
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PMID:Inhibitory specificity of the anti-inflammatory myxoma virus serpin, SERP-1. 969 48

RGD-containing peptides and other antagonists of the platelet glycoprotein (GP) IIb/IIIa may induce a high-affinity binding site for fibrinogen and the expression of novel epitopes, called ligand-induced binding sites (LIBS). The functional relevance of LIBS expression in a canine model of coronary thrombolysis induced by tissue-type plasminogen activator (t-PA) was examined. Ro43-5054 (N-[N-[N-(p-amidinobenzoyl)-b-alanyl]-l-a-aspartyl]-3-phenyl-l- alanine) and Ro44-9883 ([1-(N-(p-amidinobenzoyl)-l-tyrosyl)-4-piperidinyl)oxy]acetic acid), antagonists of the GP IIb/IIIa receptor, were administered in increasing doses of 2 to 10 microg/kg/min, beginning 30 min before the infusion of t-PA. LIBS expression was determined by the binding of the monoclonal antibody, D3GP3, to platelets on exposure to Ro43-5054, Ro44-9883 and t-PA. Ro43-5054 was shown to induce LIBS, whereas Ro44-9883 and t-PA did not. Both drugs abolished platelet aggregation in response to U46619 and ADP ex vivo. Reocclusion was prevented with both Ro43-5054 and Ro44-9883, but neither drug altered reperfusion times (49 +/- 8 and 55 +/- 39 min). Both drugs increased the rate of bleeding compared with t-PA alone, but there was no difference in hemostasis between the two drugs. To determine whether the drugs differed in their effect on platelet activation in vivo, urinary 2,3-dinor-thromboxane (TX) B2, a major metabolite of TXB2, was determined by gas chromatography-mass spectrometry. After reperfusion, the urinary 2,3-dinor-TXB2 increased in the Ro43-5054-treated group, similar to control groups (32 +/- 8 and 37 +/- 9 ng/mg creatinine). This increase was blunted in the Ro44-9883-treated group (9 +/- 3 ng/mg creatinine). GP IIb/IIIa antagonists that do not induce LIBS result in a greater suppression of platelet activity but not in any discernible functional benefit in vivo.
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PMID:Functional relevance of the expression of ligand-induced binding sites in the response to platelet GP IIb/IIIa antagonists in vivo. 969 54

Staphylokinase (Sak) forms an inactive 1:1 stoichiometric complex with plasminogen which requires both conversion of plasminogen to plasmin and hydrolysis of the Lys10-Lys11 peptide bond of Sak to become a potent plasminogen activator (Schlott, B., Guhrs, K.-H., Hartmann, M., Rocker, A., and Collen, D. (1997) J. Biol. Chem. 272, 6067-6072). Exposure of a positively charged NH2-terminal amino acid after hydrolysis of Sak is a major determinant of the plasminogen-activating potential, but in itself is neither necessary nor sufficient. Here, the structural motifs of the NH2-terminal region Lys11-Gly-Asp-Asp-Ala-Ser16-Tyr-Phe-Glu of processed Sak, required for plasminogen activating potential, were studied by deletion and substitution mutagenesis. Expression in Escherichia coli of variants with deletion of 11, 14, 15, or 16 NH2-terminal amino acids yielded correctly processed but inactive molecules. Expression of their homologues with the NH2-terminal amino acid substituted with Lys-generated derivatives from which the NH2-terminal initiation Met was no longer removed, yielding inactive (</= 10%) Sak42DDeltaN11(M),G12K, active (>50%) Sak42DDeltaN14(M), A15K and Sak42DDeltaN15(M),S16K, and inactive Sak42DDeltaN16(M),Y17K. Lys variants without NH2-terminal Met, generated from fusion proteins in which a His6 tag and a factor Xa recognition sequence were linked to the NH2 terminus of the Sak variants, were indistinguishable from their NH2-terminal Met-containing counterparts. All variants studied had intact affinities for plasminogen as measured by biospecific interaction analysis. The activity of Sak42DDeltaN11(M),G12K could be restored by additional substitution of both Asp13 and Asp14 with Asn, yielding active Sak42DDeltaN11(M),G12K, D13N, D14N, whereas substitution in Sak42DDeltaN16(M),Y17K of Phe18 and Glu19 with Asn yielded inactive Sak42DDeltaN16(M),Y17K,F18N,E19N. These data, in combination with the recent finding that the 20 NH2-terminal amino acids of Sak lack secondary structure, suggest that the NH2-terminal region of Sak is not required for binding to plasmin/plasminogen, but that a positively charged amino acid in the ultimate or penultimate NH2-terminal position corresponding to amino acids 11-16 of this flexible region participates in the reconfiguration of the active site of the plasmin molecule to endow it with plasminogen-activating potential.
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PMID:NH2-terminal structural motifs in staphylokinase required for plasminogen activation. 971 54


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