Isolation and characterization of an inhibitor of factor XIIa from bovine plasma

An inhibitor of factor XIIa has been purified to homogeneity from bovine plasma. The purification steps included precipitation of contaminating proteins with polyethylene glycol and chromatography on DEAE-cellulose, Affi-Gel blue, and immobilized wheat germ lectin. The apparent molecular weight of the XIIa inhibitor (called INH1) was 85,000, reduced, and 92,000, nonreduced, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The extinction coefficient (E0.1%(280)) of INH1 is 1.3, and the protein contains 17.7% carbohydrate. Purified antibody to INH1 raised in either rabbits or chickens formed a precipitin line of identity with purified INH1 and a component of bovine plasma, but there was no reaction with purified human inhibitors or with any component of human plasma. INH1 inhibits bovine and human XIIa, bovine and human C1-esterase, and human kallikrein, but does not inhibit bovine kallikrein, bovine trypsin, human plasmin, or human thrombin. This activity is similar to that of C1-inhibitor but different from antithrombin III, alpha 2-antiplasmin, or alpha 1-protease inhibitor. INH1 at a physiological concentration (0.47 microM) causes rapid inactivation of XIIa. The two molecules react in a 1:1 stoichiometry with a second-order rate constant of 1.23 X 10(6) M-1 min-1.     

The role of a contaminant in thrombin in the human plasmin assay system

Many of the anomalous results obtained in the fibrinolytic assay of human plasmin systems were shown to be simply explained if bovine plasminogen had been introduced into the assay system on the addition of thrombin. Experimental investigation of the proteolytic and fibrinolytic activity of systems containing plasmin and thrombin showed that enzyme activity was influenced by the presence and quantity of thrombin. The quantity of bovine plasminogen present as a contaminant in bovine fibrinogen was shown to be responsible for only 1/25th of the observed enhanced activity. Thrombin in the amounts commonly used for clotting contained sufficient proenzyme to account for all this activity. A highly purified thrombin preparation obtained from another laboratory, and thrombin purified in this laboratory by starch electrophoresis brought about no enhancement of activity. The material separated from thrombin by starch electrophoresis was shown to be enzymatically identical with bovine plasminogen and, on labelling with radioactive iodine, was shown to behave physically like bovine plasminogen. Several experiments reported in the literature were reinterpreted in the light of this observation.     

The effect of bovine thrombomodulin on the specificity of bovine thrombin

Bovine lung thrombomodulin is purified and used to investigate the basis of the change in substrate specificity of bovine thrombin when bound to thrombomodulin. Bovine thrombomodulin is a single polypeptide having an apparent molecular weight of 84,000 and associates with thrombin with high affinity and rapid equilibrium, to act as a potent cofactor for protein C activation and antagonist of reactions of thrombin with fibrinogen, heparin cofactor 2, and hirudin. Bovine thrombomodulin inhibits the clotting activity of thrombin with Kd less than 2.5 nM. Kinetic analysis of the effect of bovine thrombomodulin on fibrinopeptide A hydrolysis by thrombin indicates competitive inhibition with Kis = 0.5 nM. The active site of thrombin is little perturbed by thrombomodulin, as tosyl-Gly-Pro-Arg-p-nitroanilide hydrolysis and inhibition by antithrombin III are unaffected. Insensitivity of the reaction with antithrombin III is likewise observed with thrombin bound to thrombomodulin on intact endothelium. Antithrombin III-heparin, human heparin cofactor 2, and hirudin inhibit thrombin-thrombomodulin more slowly than thrombin. These effects may arise from a decrease in Ki of the inhibitors for thrombin-thrombomodulin or from changes in the active site not detected by tosyl-Gly-Pro-Arg-p-nitroanilide or antithrombin III. Bovine prothrombin fragment 2 inhibits thrombin clotting activity (Kd less than 7.5 microM) and acts as a competitive inhibitor of protein C activation (Kis = 2.1 microM). The data are consistent with a mechanism whereby thrombomodulin alters thrombin specificity by either binding to or allosterically altering a site on thrombin distinct from the catalytic center required for binding or steric accommodation of fibrinogen, prothrombin fragment 2, heparin cofactor 2, and hirudin.     

Interaction of human protein Z with thrombin: evaluation of the species difference in the interaction between bovine and human protein Z and thrombin

Protein Z is a vitamin K-dependent protein of unknown function present in normal human and bovine plasma. Binding and kinetic studies showed that bovine protein Z interacts with bovine thrombin with a dissociation constant of 0.11 microM in a Ca(2+)-independent fashion and that thrombin becomes associated with phospholipid vesicles in the presence of protein Z but not in its absence (Hogg, P. J. and Stenflo, J. (1991) J. Biol. Chem., in press). In the present study the interaction of human protein Z with human thrombin and the influence of human protein Z on the association of thrombin with phospholipid vesicles was evaluated. In contrast to bovine protein Z, human protein Z bound human DIP-thrombin with a 20-fold weaker affinity at 1.5 mM Ca2+ and in a Ca(2+)-dependent fashion. Human protein Z was also less effective than bovine protein Z in promoting the association of thrombin with phospholipid vesicles. Also, bovine protein Z cleaved by thrombin at Arg-365 bound DIP-thrombin with a 10-fold weaker affinity than did native bovine protein Z. The data suggest that the species difference in the interaction between protein Z and thrombin can be explained by a difference in the COOH-terminal region of bovine protein Z versus human protein Z.     

Rat prothrombin: Purification,characterization, and activation

Prothrombin has been purified from rat plasma and its properties compared to prothrombin isolated from other species. The molecular weight, amino acid composition, and amino-terminal sequence of rat prothrombin are similar to human and bovine prothrombin. Rat prothrombin binds to phospholipid in the presence of calcium ions, and calcium-binding measurements indicate that it may bind somewhat more calcium than does bovine prothrombin. The proteolytic cleavage of purified rat prothrombin by Factor X_a or thrombin yields the same peptides that are formed from similar proteolysis of bovine prothrombin. Factor V and phospholipid were shown to enhance the rate of Factor X_a and calcium ion generation of thrombin from rat prothrombin.     

Guinea pig plasma trypsin inhibitors. Purification and characterization of two functionally distinct proteinase inhibitors.

Two trypsin inhibitors (TI-1, TI-2) were isolated from guinea pig plasma and purified to homogeneity. In amino-acid composition as well as molecular masses, TI-1 (Mr 58,000) and TI-2 (Mr 57,000) are similar to each other and to human and mouse alpha 1-proteinase inhibitors, and mouse con-trapsin. The two inhibitors form equimolar complexes with proteinases. The effectiveness of the inhibitors was characterized by association rate constants under second-order rate conditions. The inhibitory action of TI-1 was rapid for bovine trypsin, porcine pancreatic elastase and guinea pig plasma kallikrein, but slow for bovine thrombin and guinea pig plasmin and not detectable for bovine chymotrypsin and porcine pancreatic kallikrein. The inhibitory action of TI-2 was rapid for trypsin and chymotrypsin, but slow for guinea pig plasma kallikrein and not detectable for other proteinases. These results show that TI-1 and TI-2 are physicochemically similar but functionally distinct from each other and from human alpha 1-proteinase inhibitor that inhibits trypsin, chymotrypsin and elastase.     

RNA aptamers specific for bovine thrombin

Bovine thrombin is widely used in clinical wound healing after surgery. There is 85% homology between bovine thrombin and human thrombin, so most antibodies against bovine thrombin cross-react with human thrombin. Rare antibodies against bovine thrombin but not cross-reacting with human thrombin have been reported. RNA ligands (aptamers) have been used to bind to target molecules with sometimes higher specificity than antibodies. Here we report the isolation of aptamers specific for bovine thrombin by systematic evolution of ligands by exponential enrichment (SELEX) from an RNA pool containing a 25-nucleotide randomized region. After seven rounds of selection, two aptamers specific for bovine thrombin were identified with a K(d) of 164 and 240 nM, respectively. Significantly, these aptamers do not bind to human thrombin. Secondary structure prediction revealed potential stem-loop structures for these RNAs. Both RNA aptamers inhibit only bovine thrombin-catalyzed fibrin clot formation in vitro. Competition assay results suggested that the RNA aptamers might bind to the electropositive domain of bovine thrombin, that is, heparin-binding site, instead of fibrinogen-recognition exosite. The resulting bovine-specific thrombin inhibitor might be used in some clinical applications when bovine thrombin activity needs to be contained or in research where human and bovine thrombin need to be distinguished.     

Bovine plasma protein C inhibitor with structural and functional homologous properties to human plasma protein C inhibitor

Bovine plasma protein C inhibitor was purified; it was then characterized in comparison with human protein C inhibitor. The specific inhibitory activity of the purified inhibitor for bovine activated protein C was 8,500 times that of the inhibitor in plasma. The purified inhibitor showed a single band with Mr 56,000 by SDS-PAGE at pH 7.0, and two bands at pH 8.8, a major one with Mr 56,000 and a minor one with Mr 105,000, under both unreduced and reduced conditions. The pI range of the inhibitor was between 4.4 and 6.1. The Mr of the inhibitor was reduced by treatment with neuraminidase, O-glycanase, and also with glycopeptidase-A, suggesting that the inhibitor has both Asn-linked and Ser/Thr-linked carbohydrate chains. Twenty-seven of the NH2-terminal 49 amino acid residues of the bovine inhibitor, which lacks the first 4 residues from the NH2-terminal amino acid sequence of human inhibitor, were identical to those of the human inhibitor. The bovine inhibitor inhibited bovine and human activated protein C, human thrombin, Factor Xa, Factor XIa, and plasma kallikrein with Ki = 1.0, 5.2, 2.6, 3.0, 1.3 X 10(-8) M, and 4.5 X 10(-9) M, respectively. The inhibitory rates for activated protein C and thrombin were accelerated significantly in the presence of heparin or negatively charged dextran sulfate. However, the acceleration by heparin or dextran sulfate for the inhibition of Factor Xa, Factor XIa, and plasma kallikrein was not significant. The bovine inhibitor did not inhibit human Factor XIIa or plasmin.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of the kinetic behavior of human and bovine proteins in the heparin-catalyzed antithrombin III/thrombin reaction

Significant differences between saturation kinetic properties of heparin-stimulated reactions between thrombin and antithrombin III from human and bovine species were observed. In both systems, the apparent Km for antithrombin III was higher than the KD for antithrombin III-heparin interaction, monitored by intrinsic protein fluorescence change. The Km for thrombin and kcat were much higher for proteins of the human species than the bovine species. The apparent Km for one human protein was dependent on the concentration of the other human protein, indicating interaction of the binding events. The reaction product formed from the bovine proteins was a potent inhibitor of the reaction but the product from the human proteins was a poor inhibitor. The major differences between the two species appeared to be related to interaction of thrombin or thrombin derivatives with heparin or heparin-antithrombin III complexes.     

Ostrich antithrombin III: kinetics and mechanism of inhibition of ostrich thrombin

A kinetic investigation of ostrich thrombin specificity, its regulation and evolutionary development in comparison to those of other well-characterised species may contribute to the understanding of the structure-function relationships of thrombin. Antithrombin III (ATIII) was purified from ostrich plasma by heparin-Sepharose and Super Q-650S chromatography. It exhibited a M(r) of 59.2K and a pI in the range of 5.2-6.0. The ostrich N-terminal sequence was compared to those of other known species and showed the highest identity with rabbit ATIII (31%). Inhibition studies included the interaction of ostrich and human ATIII with bovine, human and ostrich thrombin. At a 2:1 molar ratio of ostrich ATIII to enzyme, 20 and 40% remaining activity was found for bovine and ostrich thrombin, respectively. Ostrich thrombin exhibited a pH and temperature optimum of 9.0 and 60 degrees C, respectively. Hydrolysis of seven peptide p-nitroanilide substrates by ostrich thrombin revealed D-Phe-Pip-Arg-pNA (k(cat)/K(m)=9.65 microM(-1)s(-1)) as the substrate with the highest catalytic efficiency. The effect of monovalent cations on ostrich thrombin catalysis revealed enhanced activity with Na(+). The calculated K(i) values for the complex formation between ostrich thrombin and ostrich (9.29 x 10(-11)M) and human (9.66 x 10(-11)M) ATIII are comparable to reported results. The results obtained from the present study confirmed that ostrich thrombin and ATIII are closely related to the corresponding molecules of other species in terms of physicochemical and kinetic properties.     

Improved Procedures for the Purification of Selected Vitamin K-Dependent Proteins

Improved methods are described to obtain bovine prothrombin, Factor IX, Protein C, and autoprothrombin III (Factor X, Auto-III) in purified form. The prothrombin had a specific activity of 4, 340 Iowa units/mg. Theoretically, a preparation of clean thrombin should have a specific activity of 8, 200 U/mg, because 47.08% of the protein in prothrombin is lost when thrombin forms. Such thrombin preparations have been obtained (Arch. Biochem. Biophys. 121, 372 (1967)). The prothrombin concentration of bovine plasma is near 60 mg/liter. Protein C, first isolated by Stenflo (J. Biol. Chem. 251, 355 (1976)), was found to be the precursor of autoprothrombin II-A (Auto-II-A), discovered earlier (Thromb. Diath. Haemorrh. 5, 218 (1960)). Protein C (Factor XIV) was converted to Auto-II-A (Factor XlVa) by thrombin. Digesting purified Auto-III with purified thrombin removed a small glycopeptide from the COOH-terminal end of the heavy chain to yield Auto-IIItm. Auto-III throtnbin Auto-IIIm + peptide. Auto-IIIm was not converted to the active enzyme with thromboplastin and, furthermore, inhibited the activation of purified native Auto-III with thromboplastin. Auto-11 Im was also not converted to the active enzymewhen the procoagulants consisted of purified Factor VIII, purified Factor IXa, platelet factor 3 and calcium ions. The “activation peptide” released by RVV-X from the NH₂-terminal end of the heavy chain and the active enzyme (Auto-Cm) were purified. Auto-III was also activated with purified RVV-X. The same “activation peptide” was isolated, but Auto-C was obtained instead of Auto-Cm. Purified Factor IX developed anticoagulant activity when reacted with an optimum concentration of purified thrombin. A suitable reagent for the assay of Factor IX was prepared by removing prothrombin complex from anticoagulated bovine plasma and restoring the prothrombin and Auto-III concentration with use of the respective purified proenzymes.     

Improved isolation and purification of functional human Fas receptor extracellular domain using baculovirus-silkworm expression system

To achieve an efficient isolation of human Fas receptor extracellular domain (hFasRECD), a fusion protein of hFasRECD with human IgG1 heavy chain Fc domain containing thrombin cleavage sequence at the junction site was overexpressed using baculovirus-silkworm larvae expression system. The hFasRECD part was separated from the fusion protein by the effective cleavage of the recognition site with bovine thrombin. Protein G column treatment of the reaction mixture and the subsequent cation-exchange chromatography provided purified hFasRECD with a final yield of 13.5mg from 25.0 ml silkworm hemolymph. The functional activity of the product was examined by size-exclusion chromatography analysis. The isolated hFasRECD less strongly interacted with human Fas ligand extracellular domain (hFasLECD) than the Fc domain-bridged counterpart, showing the contribution of antibody-like avidity in the latter case. The purified glycosylated hFasRECD presented several discrete bands in the disulphide-bridge non-reducing SDS-PAGE analysis, and virtually all of the components were considered to participate in the binding to hFasLECD. The attached glycans were susceptible to PNGase F digestion, but mostly resistant to Endo Hf digestion under denaturing conditions. One of the components exhibited a higher susceptibility to PNGase F digestion under non-denaturing conditions.     

The action of factor Xa, thrombin and trypsin on human factor II

The proteolytic action of human and bovine Factor Xa, bovine thrombin and bovine pancreatic trypsin Factor II at pH 7.5 and 25°C was monitored by sodium dodecylsulfate gel electrophoresis and thrombin assays. Purified human and bovine Factor Xa, and trypsin, were found to activate Factor II to thrombin. The conversion of Factor II to thrombin by either Factor Xa or trypsin was found to proceed through two thrombogenic intermediates. The reaction pathway appears to be sequential in that the Factor II (75 000 daltons) is first cleaved to a 55 000-dalton thrombogenic product (Intermediate 1) and a 25 000-dalton non-thrombogenic product (Fragment 1). Intermediate 1 is subsequently converted to an inactive 37 000-dalton thrombogenic protein (Intermediate 2) and a 16 000-dalton protein (Fragment 2). Intermediate 2 is finally converted to an active 37 000-dalton thrombin (α-thrombin). Purified bovine thrombin readily converted Factor II to Intermediate 1 and Fragment 1, but possessed little capacity to catalyze subsequent cleavages to produce active thrombin. The ability of thrombin to cleave Factor II was entirely obviated in the presence of hirudin. Under the conditions of the incubation, the maximum thrombin yield obtainable by Factor Xa or trypsin activation was 50% when compared to the two-stage potential thrombin.     

Molecular weight of human fibrinogen derived from phosphorus determinations

1. Fibrin clots obtained from diluted human plasma with bovine thrombin often contain amounts of phospholipids that cannot be diminished by further plasma dilution. 2. The ;cold insoluble residue' obtained during fibrinogen preparation has a higher phosphorus content than the purified fibrinogen. 3. Evidence showed that adsorption of phospholipids or phosphorus-containing fibrinopeptides on purified fibrinogen or fibrin was unlikely. 4. O-Phosphorylserine was detected in acid hydrolysates of human fibrin. 5. On the basis of phosphorus determinations the average molecular weight of human fibrinogen cannot be less than 342000 (304000-383000) for a group of ten donors, and 265000 for two other persons, assuming 1 phosphorus atom/molecule and incomplete splitting of the phosphorus-containing fibrinopeptide. Complete splitting of the phosphopeptide would require molecular weights twice as high. 6. Fibrinolysis was a possible cause of lower phosphorus contents found in isolated fibrinogen and fibrin from a donor who showed apprehension during blood collection and in a fibrinogen preparation that had been submitted to prolonged dialysis.     

Electromagnetic radiation and behavioural response of ticks: an experimental test

Blood-sucking arthropods have different types of anticoagulants to allow the ingestion of a blood meal from their hosts. In this study, five anticoagulants prolonging the activated partial thromboplastin time were resolved from the salivary gland crude extract of the camel tick Hyalomma dromedarii by chromatography on diethylaminoethyl (DEAE)-cellulose column. They were designated P1, P2, P3, P4 and P5 according to their elution order. P5 was found to be a potent thrombin inhibitor and purified by ultrafiltration through two centrifugal concentrators of 50 and 30 kDa molecular weight cut-off (MWCO), respectively. The camel tick salivary gland thrombin inhibitor was purified 60.6 folds with a specific activity of 564 units/mg protein. It turned out to be homogenous on native-PAGE with molecular weight of 36 kDa as detected on 12% SDS-PAGE. It inhibits bovine thrombin competitively with K _i value of 0.55 μM. A task for the future will be the elucidation of this thrombin inhibitor structure to allow its application in thrombosis treatment.     

Thrombospondin: synthesis and secretion by cells in culture

Thrombospondin, a high molecular weight glycoprotein secreted by platelets in response to activation by thrombin, has been identified by immunofluorescence in bovine aortic endothelial cells, human foreskin fibroblasts, and human aortic smooth muscle cells. Immunofluorescence patterns were found to be similar using antisera raised to thrombospondins purified either from bovine aortic endothelial cells or from human platelets. Radioimmune precipitation of pulse-labeled cellular proteins confirmed the presence of thrombospondin in positively stained cells. A sensitive quantitative enzyme-linked immunosorbent assay (ELISA) was developed and used to determine that the accumulation of secreted thrombospondin was similar for endothelial cells and fibroblasts but was higher for smooth muscle cells. The presence of thrombospondin in a variety of cells suggests that its function may not be limited to an involvement in platelet interactions.     

Structural basis for reduced staphylocoagulase-mediated bovine prothrombin activation

Staphylocoagulase (SC) is a protein secreted by the human pathogen, Staphylococcus aureus, that activates human prothrombin (ProT) by inducing a conformational change. SC-bound ProT efficiently clots fibrinogen, thus bypassing the physiological blood coagulation pathway. The crystal structure of a fully active SC fragment, SC-(1-325), bound to human prethrombin 2 showed that the SC-(1-325) N terminus inserts into the Ile(16) pocket of prethrombin 2, thereby inducing expression of a functional catalytic site in the cognate zymogen without peptide bond cleavage. As shown here, SC-(1-325) binds to bovine and human ProT with similar affinity but activates the bovine zymogen only very poorly. By contrast to the approximately 2-fold difference in chromogenic substrate kinetic constants between human thrombin and the SC-(1-325).human (pro)thrombin complexes, SC-(1-325).bovine ProT shows a 3,500-fold lower k(cat)/K(m) compared with free bovine thrombin, because of a 47-fold increase in K(m) and a 67-fold decrease in k(cat). The SC-(1-325).bovine ProT complex is approximately 5,800-fold less active compared with its human counterpart. Comparison of human and bovine fibrinogen as substrates of human and bovine thrombin and the SC-(1-325).(pro)thrombin complexes indicates that the species specificity of SC-(1-325) cofactor activity is determined primarily by differences in conformational activation of bound ProT. These results suggest that the catalytic site in the SC-(1-325).bovine ProT complex is incompletely formed. The current crystal structure of SC-(1-325).bovine thrombin reveals that SC would dock similarly to the bovine proenzyme, whereas the bovine (pro)thrombin-characteristic residues Arg(144) and Arg(145) would likely interfere with insertion of the SC N terminus, thus explaining the greatly reduced activation of bovine ProT.     

Inhibition of proteases in coagulation, kinin-forming and complement systems by alpha2-plasmin inhibitor.

Inhibitory activities of alpha2-plasmin inhibitor against various proteases were investigated. The inhibitor promptly inhibited the esterolytic activity of alpha-chymotrypsin and progressively inhibited the esterolytic or amidolytic activities of bovine plasma kallikrein, bovine thrombin and bovine activated factor X. Heparin had no effect on the reaction of the inhibitor with thrombin or activated factor X. However, the inhibitor had no effect on the activities of human C-1-esterase, papain and snake venom kininogenase. On the basis of its rapid inhibition of kallikrein, alpha2-plasmin inhibitor is considered to exert some regulating effect on kallikrein activity in plasma.     

Action of thrombin on ovine, bovine and human pituitary growth hormones.

1. This communication reports the action of bovine thrombin on ovine, bovine and human growth hormones. Thrombin cleavage was shown to be restricted to a single homologous peptide bond in all three growth hormones (at sequence positions 133--134 of the ovine and bovine hormones). 2. Ovine growth hormone was the most sensitive to the action of thrombin, bovine growth hormone was attacked to a relatively less extent, and human growth hormone was the most resistant to the enzyme. 3. After reduction and carbamidomethylation of the disulfide bonds in thrombin modified ovine growth hormone, the two fragments (residues 1--133 and 134--191) were isolated. The large NH2-terminal thrombin fragment of the hormone (residues 1--133) was found to be inactive in the rat tibia test, whereas a tryptic fragment (residues 96--133) isolated in an independent way gave measurable responses.     

Characterization of proexosite I on prothrombin

Activation of prothrombin by factor Xa is accompanied by expression of regulatory exosites I and II on the blood coagulation proteinase, thrombin. Quantitative affinity chromatography and equilibrium binding studies with a fluorescein-labeled derivative of the exosite I-specific peptide ligand, hirudin(54-65) ([5F]Hir(54-65) (SO(3)(-)), were employed to identify and characterize this site on human and bovine prothrombin and its expression on thrombin. [5F]Hir(54-65)(SO(3)(-)) showed distinctive fluorescence excitation spectral differences in complexes with prothrombin and thrombin and bound to human prothrombin and thrombin with dissociation constants of 3.2 +/- 0.3 micrometer and 25 +/- 2 nm, respectively, demonstrating a 130-fold increase in affinity for the active proteinase. The bovine proteins similarly showed a 150-fold higher affinity of [5F]Hir(54-65)(SO(3)(-)) for thrombin compared with prothrombin, despite a 2-5-fold lower affinity of the peptides for the bovine proteins. Unlabeled, Tyr(63)-sulfated and nonsulfated hirudin peptides bound competitively with [5F]Hir(54-65)(SO(3)(-)) to human and bovine prothrombin and thrombin, exhibiting similar, 40-70-fold higher affinities for the proteinases, although nonsulfated Hir(54-65) bound with 7-17-fold lower affinity than the sulfated analog. These studies characterize proexosite I for the first time as a specific binding site for hirudin peptides on both human and bovine prothrombin that is present in a conformationally distinct, low affinity state and is activated with a approximately 100-fold increase in affinity when thrombin is formed.