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1.

Background

Black flies (Diptera: Simuliidae) feed on blood, and are important vectors of Onchocerca volvulus, the etiolytic agent of River Blindness. Blood feeding depends on pharmacological properties of saliva, including anticoagulation, but the molecules responsible for this activity have not been well characterized.

Methodology/Principal Findings

Two Kunitz family proteins, SV-66 and SV-170, were identified in the sialome of the black fly Simulium vittatum. As Kunitz proteins are inhibitors of serine proteases, we hypothesized that SV-66 and/or −170 were involved in the anticoagulant activity of black fly saliva. Our results indicated that recombinant (r) SV-66 but not rSV-170 inhibited plasma coagulation. Mutational analysis suggested that SV-66 is a canonical BPTI-like inhibitor. Functional assays indicated that rSV66 reduced the activity of ten serine proteases, including several involved in mammalian coagulation. rSV-66 most strongly inhibited the activity of Factor Xa, elastase, and cathepsin G, exhibited lesser inhibitory activity against Factor IXa, Factor XIa, and plasmin, and exhibited no activity against Factor XIIa and thrombin. Surface plasmon resonance studies indicated that rSV-66 bound with highest affinity to elastase (KD = 0.4 nM) and to the active site of FXa (KD = 3.07 nM). We propose the name “Simukunin” for this novel protein.

Conclusions

We conclude that Simukunin preferentially inhibits Factor Xa. The inhibition of elastase and cathepsin G further suggests this protein may modulate inflammation, which could potentially affect pathogen transmission.  相似文献   

2.
We previously showed that coagulation factor Xa (FXa) enhances activation of the fibrinolysis zymogen plasminogen to plasmin by tissue plasminogen activator (tPA). Implying that proteolytic modulation occurs in situ, intact FXa (FXaα) must be sequentially cleaved by plasmin or autoproteolysis, producing FXaβ and Xa33/13, which acquire necessary plasminogen binding sites. The implicit function of Xa33/13 in plasmin generation has not been demonstrated, nor has FXaα/β or Xa33/13 been studied in clot lysis experiments. We now report that purified Xa33/13 increases tPA-dependent plasmin generation by at least 10-fold. Western blots confirmed that in situ conversion of FXaα/β to Xa33/13 correlated to enhanced plasmin generation. Chemical modification of the FXaα active site resulted in the proteolytic generation of a product distinct from Xa33/13 and inhibited the enhancement of plasminogen activation. Identical modification of Xa33/13 had no effect on tPA cofactor function. Due to its overwhelming concentration in the clot, fibrin is the accepted tPA cofactor. Nevertheless, at the functional level of tPA that circulates in plasma, FXaα/β or Xa33/13 greatly reduced purified fibrin lysis times by as much as 7-fold. This effect was attenuated at high levels of tPA, suggesting a role when intrinsic plasmin generation is relatively low. FXaα/β or Xa33/13 did not alter the apparent size of fibrin degradation products, but accelerated the initial cleavage of fibrin to fragment X, which is known to optimize the tPA cofactor activity of fibrin. Thus, coagulation FXaα undergoes proteolytic modulation to enhance fibrinolysis, possibly by priming the tPA cofactor function of fibrin.  相似文献   

3.
The influence of PGI2 on the activity and on the inactivation of enzymes participating in blood coagulation /thrombin and Factor Xa/ and fibrinolysis /plasmin/ were investigated. According to the results PGI2 has no effect on the activity of Factor Xa and plasmin nor on the inactivation of these enzymes by antithrombin-III in the absence and presence of heparin at a concentration of PGI2 up to 400 μg/ml. An acceleration of the inactivation of thrombin by antithrombin-III was found in the presence of PGI2 within a concentration of 100–400 μg/ml without any effect on the heparin-accelerated inactivation of thrombin by antithrombin. We got similar results using clotting tests for the assay and the application of synthetic substrate for thrombin. This inactivation-accelerating effect of PGI2 on thrombin was only demonstratable at a concentration five magnitudes higher than that of the anti-aggregation effect on platelets.  相似文献   

4.
The inactivation of Factor Va by plasmin was studied in the presence and absence of phospholipid vesicles and calcium ions. The cleavage patterns of bovine Factor Va and its isolated subunits were analyzed using polyacrylamide gel electrophoresis, and the progress of inactivation was monitored by clotting assays and measurements of prothrombin activation using 5-dimethylaminonaphthalene-1-sulfonylarginine-N-(3-ethyl-1,5-penta nediyl)amide. In addition, the ability of prothrombin and Factor Xa to protect Factor Va from inactivation by human plasmin was examined. The data presented indicate that the cofactor Factor Va is inactivated rapidly upon its interaction with human plasmin. The rate of inactivation is significantly enhanced in the presence of phospholipid vesicles, suggesting that the inactivation process is a membrane-bound phenomenon. The isolated D component (heavy chain of factor Va) was found to be slowly degraded by human plasmin, giving rise to cleavage products different from those obtained with activated protein C and Factor Xa. However, the 48- and 30-kDa fragments obtained from human plasmin degradation of component E (light chain of Factor Va) appear to be similar to those obtained following the proteolysis of the same subunit by activated protein C and Factor Xa.  相似文献   

5.
Trancriptomic analysis of the venom gland cDNA library of Bungarus flaviceps revealed Kunitz‐type serine protease inhibitor as one of the major venom protein families with three groups A, B, C. One of the group B isoforms named Flavikunin, which lacked an extra cysteine residue involved in disulfide bond formation in β‐bungarotoxin, was synthesized, cloned, and overexpressed in Escherichia coli. To decipher the structure‐function relationship, the P1 residue of Flavikunin, histidine, was mutated to alanine and arginine. Purified wild‐type and mutant Flavikunins were screened against serine proteases‐thrombin, factor Xa, trypsin, chymotrypsin, plasmin, and elastase. The wild‐type and mutant Flavikunin (H?R) inhibited plasmin with an IC 50 of 0.48 and 0.35 µM, respectively. The in‐silico study showed that P1 residue of wild‐type and mutant (H?R) Flavikunin interacted with S1′ and S1 site of plasmin, respectively. Thus, histidine at the P1 position was found to be involved in plasmin inhibition with mild anticoagulant activity.  相似文献   

6.
The influence of PGI2 on the activity and on the inactivation of enzymes participating in blood coagulation (thrombin and Factor Xa) and fibrinolysis (plasmin) were investigated. According to the results PGI2 has no effect on the activity of Factor Xa and plasmin nor on the inactivation of these enzymes by antithrombin-III in the absence and presence of heparin at a concentration of PGI2 up to 400 micrograms/ml. An acceleration of the inactivation of thrombin by antithormbin-III was found in the presence of PGI2 within a concentration of 100-400 micrograms/ml without any effect on the heparin-accelerated inactivation of thrombin by antithrombin. We got similar results using clotting tests for the assay and the application of synthetic substrate for thrombin. This inactivation-accelerating effect of PGI2 on thrombin was only demonstratable at a concentration five magnitudes higher than that of the anti-aggregation effect on platelets.  相似文献   

7.
The interaction between blood-borne pathogens and fibrinolysis is one of the most important mechanisms that mediate invasion and the establishment of infectious agents in their hosts. However, overproduction of plasmin (final product of the route) has been related in other contexts to proliferation and migration of the arterial wall cells and degradation of the extracellular matrix. We have recently identified fibrinolysis-activating antigens from Dirofilaria immitis, a blood-borne parasite whose key pathological event (proliferative endarteritis) is produced by similar mechanisms to those indicated above. The objective of this work is to study how two of this antigens [actin (ACT) and fructose-bisphosphate aldolase (FBAL)] highly conserved in pathogens, activate fibrinolysis and to establish a relationship between this activation and the development of proliferative endarteritis during cardiopulmonary dirofilariasis. We demonstrate that both proteins bind plasminogen, enhance plasmin generation, stimulate the expression of the fibrinolytic activators tPA and uPA in endothelial cell cultures and are located on the surface of the worm in contact with the host’s blood. ELISA, western blot and immunofluorescence techniques were employed for this purpose. Additionally, the implication of lysine residues in this interaction was analyzed by bioinformatics. The involvement of plasmin generated by the ACT/FBAL and plasminogen binding in cell proliferation and migration, and degradation of the extracellular matrix were shown in an “in vitro” model of endothelial and smooth muscle cells in culture. The obtained results indicate that ACT and FBAL from D. immitis activate fibrinolysis, which could be used by the parasite like a survival mechanism to avoid the clot formation. However, long-term overproduction of plasmin can trigger pathological events similar to those described in the emergence of proliferative endarteritis. Due to the high degree of evolutionary conservation of these antigens, similar processes may occur in other blood-borne pathogens.  相似文献   

8.
The Erythrina variegata Kunitz family trypsin inhibitors, ETIa and ETIb, prolonged the activated partial thromboplastin time (APTT) and also the prothrombin time (PT) of human plasma, but the Kunitz family chymotrypsin inhibitor, ECI, and Bowman–Birk family inhibitor, EBI, from E. variegata hardly prolonged these times. Trypsin inhibitors ETIa and ETIb inhibited the amidolytic activity of factor Xa, and ETIb but not ETIa inhibited plasma kallikrein. Neither ETIa nor ETIb exhibited any inhibitory activity toward β-factor XIIa and thrombin. Furthermore, trypsin inhibitors ETIa and ETIb inhibited plasmin, a serine proteinase in the fibrinolytic system, whereas ECI and EBI did not. These results indicate that Erythrina Kunitz proteinase inhibitors possess different potency toward serine proteinases in the blood coagulation and fibrinolytic systems, in spite of their high similarity in amino acid sequence.  相似文献   

9.
10.
The serine peptidases of Trypanosoma brucei have been viewed as potential drug targets. In particular, the S9 prolyl oligopeptidase subfamily is thought to be a good avenue for drug discovery. This is based on the finding that some S9 peptidases are secreted and active in the mammalian bloodstream, and that they are a class of enzyme against which drugs have successfully been developed. We collated a list of all serine peptidases in T. brucei, identifying 20 serine peptidase genes, of which nine are S9 peptidases. We screened all 20 serine peptidases by RNAi to determine which, if any, are essential for bloodstream form T. brucei survival. All S9 serine peptidases were dispensable for parasite survival in vitro, even when pairs of similar genes, coding for oligopeptidase B or prolyl oligopeptidase, were targeted simultaneously. We also found no effect on parasite survival in an animal host when the S9 peptidases oligopeptidase B, prolyl oligopeptidase or dipeptidyl peptidase 8 were targeted. The only serine peptidase to emerge from the RNAi screen as essential was a putative type-I signal peptide peptidase (SPP1). This gene was essential for parasite survival both in vitro and in vivo. The growth defect conferred by RNAi depletion of SPP1 was rescued by expression of a functional peptidase from an RNAi resistant SPP1 gene. However, expression of catalytically inactive SPP1 was unable to rescue cells from the SPP1 depleted phenotype, demonstrating that SPP1 serine peptidase activity is necessary for T. brucei survival.  相似文献   

11.
The effect of extracellular proteinases of A. flavipes A17, A. fumigatus D1, and A. sydowii 1 on proteins of the human haemostasis system was studied. It was shown that A. fumigatus D1 proteinases are able to hydrolyze a wide range of chromogenic peptide substrates of specific human proteinases of the haemostatic system. Proteinases formed by A. flavipes A17 and A. sydowii 1 have a narrow specificity, mainly to thrombin and plasmin substrates. It was first shown that proteinase of A. flavipes A17 is capable to activate protein C and Factor X. Extracellular proteinase produced by A. sydowii 1 has greater fibrinolytic activity as compared with proteinases produced by A. flavipes A17 and A. fumigatus D1.  相似文献   

12.
Our previous work showed that purified coagulation factor Xa (FXa) acquires fibrinolysis cofactor activity after plasmin-mediated cleavage. The predominant functional species is a non-covalent heterodimer of 33 and 13 kDa, termed Xa33/13, which has predicted newly exposed C-terminal lysines that are important for tissue plasminogen activator (tPA)-mediated plasminogen activation to plasmin. To provide evidence that this mechanism occurs in a physiological context, here we demonstrated the appearance of Xa33 in clotting plasma by western blot analysis. Since the normal fate of FXa is stable association with antithrombin (AT), an AT western blot was conducted, which revealed a band of ~ 13 kDa higher apparent molecular weight than AT that appeared concurrent to Xa33. Sequencing of purified proteins confirmed the generation of Xa13 covalently bound to AT and Xa33 (Xa33/13-AT) by cleavages at Lys–Met339 and Lys–Asp389. Ligand blots demonstrated 125I-plasminogen binding to the Xa33 subunit of plasmin-generated Xa33/13-AT. Purified XaAT added to plasma that was induced to clot enhanced the rate of tPA-mediated fibrinolysis by ~ 16-fold. Similarly, purified plasminogen activation by tPA was enhanced by ~ 16-fold by XaAT. Plasmin cleaves XaAT and exposes plasminogen binding sites at least 10-fold faster than FXa. Here we demonstrate a novel function for AT, which accelerates the modulation of FXa into the fibrinolytic form, Xa33/13. The consequent exposure of C-terminal lysine binding sites essential for plasminogen activation enhances fibrinolysis. These results are consistent with a model where auxiliary cofactors link coagulation to fibrinolysis by priming the accelerating role of fibrin.  相似文献   

13.
The Gram-positive bacterium Staphylococcus aureus, similar to other pathogens, binds human complement regulators Factor H and Factor H related protein 1 (FHR-1) from human serum. Here we identify the secreted protein Sbi (Staphylococcus aureus binder of IgG) as a ligand that interacts with Factor H by a—to our knowledge—new type of interaction. Factor H binds to Sbi in combination with C3b or C3d, and forms tripartite Sbi∶C3∶Factor H complexes. Apparently, the type of C3 influences the stability of the complex; surface plasmon resonance studies revealed a higher stability of C3d complexed to Sbi, as compared to C3b or C3. As part of this tripartite complex, Factor H is functionally active and displays complement regulatory activity. Sbi, by recruiting Factor H and C3b, acts as a potent complement inhibitor, and inhibits alternative pathway-mediated lyses of rabbit erythrocytes by human serum and sera of other species. Thus, Sbi is a multifunctional bacterial protein, which binds host complement components Factor H and C3 as well as IgG and β2-glycoprotein I and interferes with innate immune recognition.  相似文献   

14.
Plasminogen is a 92-kDa single chain glycoprotein that circulates in plasma as a zymogen and when converted to proteolytically active plasmin dissolves preformed fibrin clots and extracellular matrix components. Here, we characterize the role of plasmin(ogen) in the complement cascade. Plasminogen binds the central complement protein C3, the C3 cleavage products C3b and C3d, and C5. Plasminogen binds to C3, C3b, C3d, and C5 via lysine residues, and the interaction is ionic strength-dependent. Plasminogen and Factor H bind C3b; however, the two proteins bind to different sites and do not compete for binding. Plasminogen affects complement action in multiple ways. Plasminogen enhanced Factor I-mediated C3b degradation in the presence of the cofactor Factor H. Plasminogen when activated to plasmin inhibited complement as demonstrated by hemolytic assays using either rabbit or sheep erythrocytes. Similarly, plasmin either in the fluid phase or attached to surfaces inhibited complement that was activated via the alternative and classical pathways and cleaved C3b to fragments of 68, 40, 30, and 17 kDa. The C3b fragments generated by plasmin differ in size from those generated by the complement protease Factor I, suggesting that plasmin-mediated C3b cleavage fragments lack effector function. Plasmin also cleaved C5 to products of 65, 50, 30, and 25 kDa. Thus, plasmin(ogen) regulates both complement and coagulation, the two central cascade systems of a vertebrate organism. This complement-inhibitory activity of plasmin provides a new explanation why pathogenic microbes utilize plasmin(ogen) for immune evasion and tissue penetration.  相似文献   

15.
Upon host infection, the human pathogenic microbe Staphylococcus aureus (S. aureus) immediately faces innate immune reactions such as the activated complement system. Here, a novel innate immune evasion strategy of S. aureus is described. The staphylococcal proteins surface immunoglobulin-binding protein (Sbi) and extracellular fibrinogen-binding protein (Efb) bind C3/C3b simultaneously with plasminogen. Bound plasminogen is converted by bacterial activator staphylokinase or by host-specific urokinase-type plasminogen activator to plasmin, which in turn leads to degradation of complement C3 and C3b. Efb and to a lesser extend Sbi enhance plasmin cleavage of C3/C3b, an effect which is explained by a conformational change in C3/C3b induced by Sbi and Efb. Furthermore, bound plasmin also degrades C3a, which exerts anaphylatoxic and antimicrobial activities. Thus, S. aureus Sbi and Efb comprise platforms to recruit plasmin(ogen) together with C3 and its activation product C3b for efficient degradation of these complement components in the local microbial environment and to protect S. aureus from host innate immune reactions.  相似文献   

16.
Although the innate immune response is triggered by the formation of a stable assembly of pathogen-recognition receptors (PRRs) onto the pathogens, the driving force that enables this PRR-PRR interaction is unknown. Here, we show that serine proteases, which are activated during infection, participate in associating with the PRRs. Inhibition of serine proteases gravely impairs the PRR assembly. Using yeast two-hybrid and pull-down methods, we found that two serine proteases in the horseshoe crab Carcinoscorpius rotundicauda are able to bind to the following three core members of PRRs: galactose-binding protein, Carcinolectin-5 and C-reactive protein. These two serine proteases are (1) Factor C, which activates the coagulation pathway, and (2) C2/Bf, a protein from the complement pathway. By systematic molecular dissection, we show that these serine proteases interact with the core “pathogen-recognition complex” via their complement control protein modules.  相似文献   

17.
The participation of plasmin active site in the trigger's mechanisms of the compensatory reaction of haemostasis system on this enzyme was studied in the experiments on white rats and rabbits using intravenous injection and perfusion of the humorally isolated carotid sinus are with intact innervation. Native enzyme, the enzyme with reversibly (acylated plasmin) and irreversibly (diisopropylphosphoryl plasmin) blocked active site were used. It was ascertained that the development of the compensatory reaction of haemostasis system on plasmin, manifested by hypercoagulation and depression of fibrinolysis, is conditioned by the proteolytic activation of the vascular wall receptors.  相似文献   

18.
The formation and secretion of coagulation Factor X/Xa by mouse peritoneal macrophages was studied with a luminogenic peptide substrate (S-2613; t-butyloxycarbonylisoleucylglutamyl-γ-piperidylglycylarginylisoluminol). Amidolysis was quantified by measuring the light emitted during oxidation of isoluminol, released by Factor Xa. A lower detection limit of about 0.5ng of Factor Xa was established; the assay was linear with enzyme concentration up to at least 100ng/ml. Factor X was determined after treatment with the Factor X-activating component of Russell's-viper (Vipera russelli) venom. Macrophages, cultured in the absence of serum, released Factor X/Xa into the culture medium. The concentration of coagulation enzyme in the medium increased in an essentially linear fashion over a period of at least 3 days, at a rate corresponding to 6–8ng produced/24h per 106 cells. The ratio of Factor Xa/X+Xa varied from about 60 to 100%, showing that activation of Factor X to Xa is not prerequisite to release of the enzyme from the cells. Factor Xa activity was suppressed in the presence of warfarin [3-(α-acetonylbenzyl)-4-hydroxycoumarin; 12.5μg/ml of medium], but could be restored by adding vitamin K (0.1μg/ml) along with the warfarin. Cultures to which Sepharose beads containing covalently bound anti-(Factor X) antibodies had been added showed decreased amounts of free Factor X/Xa in the culture medium. The missing activity could be demonstrated by incubating the recovered conjugate with the substrate peptide S-2613. Factor Xa produced by the macrophages was efficiently inactivated by heparin in the presence of antithrombin, heparin with high affinity for antithrombin being more effective than the corresponding low-affinity species.  相似文献   

19.
Plasminogen was modified with an activated magnetic modifier, which consists of magnetite (Fe3O4) and a polyethylene glycol derivative. The magnetic plasminogen was activated with urokinase and became a magnetic derivative of plasmin. The magnetic plasmin exhibited specific activity which is 32% of the native plasmin; 7.0 versus 22 casein units mg−1 protein. It was readily attracted by a magnet (250 Oe). It is particularly worth mentioning that the magnetic plasmin was more resistant to plasmin inhibitor(s) in plasma than plasmin. By applying magnetic force, the magnetic plasmin was attracted at the site of fibrin clot and local fibrinolysis was achieved in saline-circulating system.  相似文献   

20.
A plasmid analogous to the one described by Nagai and Thogersen (Nature,309, 810–812, 1984) has been constructed for the expression of globins inE. coli. Induction with nalidixic acid produces high yields of a fusion protein, NS1-FX-β-globin, where NS1 represents 81 residues of a flu virus protein and FX represents a blood-clotting Factor Xa recognition sequence, Ile-Glu-Gly-Arg. This fusion protein is readily solubilized in 50 mM NaOH and remains in solution when thepH is adjusted to 8.6. Under these conditions, the fusion protein is hydrolyzed by activated Factor X, giving authentic β-globin which can be folded in the presence of cyanohemin and native α-chains to produce a tetrameric hemoglobin with the functional properties of natural human hemoglobin.  相似文献   

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