Antithrombotic Activities of Luteolin In Vitro and In Vivo

The objectives of present study were to investigate whether luteolin affects procoagulant proteinase activity and fibrin clot formation and influences thrombosis and coagulation in Sprague–Dawle rats. Luteolin significantly inhibited the enzymatic activity of thrombin and FXa activity by 29.1% and 16.2%. Luteolin also inhibited fibrin polymer formation in turbidity and microscopic analysis using fluorescent conjugate. Coagulation assay of luteolin was found to prolong activated partial thromboplastin time and prothrombin time. Moreover, luteolin protected the development of oxidative stress induced thrombosis in the FeCl₃‐induced carotid arterial thrombus model. This study demonstrated that luteolin may be useful by reducing or preventing thrombotic challenge and can help us better understand the antithrombotic action of luteolin.     

Potentiation of phosphodiesterase inhibitor antithrombotic activity with alpha-2 adrenergic blockade.

The antithrombotic activity of pelrinone, a phosphodiesterase III inhibitor was examined in a canine model of coronary thrombosis that uses electrical current to injure the coronary endothelium. Ninety percent of vehicle treated animals developed complete coronary occlusion and thrombus mass was 32.0 +/- 5.8 mg. In a group of animals treated with zomepirac, 10 mg/kg i.v., included as a positive control, thrombus mass was decreased to 10.3 +/- 3.3 mg and incidence of occlusion was reduced to 37.5%. Pelrinone, 5.0 mg/kg i.v. decreased the incidence of occlusion to 50%, thrombus mass to 21.3 +/- 8.3 mg and inhibited platelet aggregation to collagen, ADP and arachidonic acid by 80%, 54% and 87% of baseline, respectively. When yohimbine, an alpha 2-adrenergic antagonist, was co-administered (2.0 mg/kg at the beginning of the experiment +0.5 mg/kg halfway through the experiment) with the same dose of pelrinone, thrombus mass was decreased to 1.0 +/- 0.5 mg and none of the animals developed coronary occlusion. Yohimbine administration by itself at 2.0-3.0 mg/kg showed no evidence of antithrombotic activity (thrombus mass = 32.8 +/- 8.0 mg, incidence of occlusion = 100%). This dose of yohimbine inhibited significantly ADP-induced aggregation in the presence of epinephrine. These results demonstrate that, even though this dose of pelrinone elicited near maximal inhibition of platelet aggregation, the concurrent administration of an alpha 2-adrenergic antagonist was able to potentiate markedly the phosphodiesterase inhibitor antithrombotic activity.     

N-methylnicotinamide inhibits arterial thrombosis in hypertensive rats.

There are few findings indicating that nicotinamide may potentially influence intravascular thrombosis. Interestingly, N-methylnicotinamide, one of the metabolites of nicotinamide - could be more potent than its parent compound. In the present study we have investigated the influence of N-methylnicotinamide on arterial thrombosis in normotensive and renovascular hypertensive rats. The contribution of platelets, coagulation and fibrinolytic systems in the mode of N-methylnicotinamide action was also determined. Furthermore, we examined the role of nitric oxide/prostacyclin in the mechanisms of N-methylnicotinamide action. N-methylnicotinamide, but not nicotinamide, administered intravenously into renovascular hypertensive rats developing electrically induced arterial thrombosis caused dose-dependent decrease of thrombus weight, collagen-induced platelet aggregation and plasma antigen/activity of plasminogen activator inhibitor - 1, without changing of occlusion time, routine coagulation parameters and plasma activity of tissue plasminogen activator. Indomethacin - an inhibitor of prostacyclin synthesis, completely abolished the antithrombotic and antiplatelet effect of N-methylnicotinamide, and the plasma level of 6-keto-PGF(1alpha) , prostacyclin metabolite, increased simultaneously with the inhibition of thrombus formation. Our study shows that N-methylnicotinamide via production/release of prostacyclin inhibits arterial thrombosis development. The antithrombotic effect of N-methylnicotinamide is accompanied by platelet inhibition and enhanced fibrinolysis, due to the decrease production of plasminogen activator inhibitor - 1.     

The antioxidant and antiaggregant effects of the covalent bienzyme superoxide dismutase — Chondroitin sulfate — Catalase conjugate on platelets

A covalent bienzyme superoxide dismutase-chondroitin sulfate-catalase conjugate (SOD-CHS-CAT) demonstrated the dose-dependent inhibitory action on induced platelet aggregation both in the presence and the absence of hydrogen peroxide. The antioxidant activity of SOD-CHS-CAT was noted at much lower doses than that of other CAT derivatives. The conjugate SOD-CHS-CAT inhibited platelet aggregation regardless of the nature of inducers; it also prevented platelet spreading on the glass surface. The latter suggests conjugate influence on adhesive properties of platelets. Novel properties of the SOD-CHS-CAT conjugate underlie prospects of its biopharmaceutical applicability as a tool for antioxidant therapy.     

Effect of destruction of Escherichia coli cells on the catalytic ability of catalase

The possibility for investigation of catalase (CAT) activity under the conditions of intact E. coli cells was estimated. This approach is based on the possibility of hydrogen peroxide freely cross biological membranes. CAT activity of native cells had a broad maximum between pH values 4.5 and 7.5. Desintegration of cells by freezing--thawing and ultrasonication indicated that there were two CAT activity peaks at pH values about 3.5 and 7.0. Activity of CAT with acid pH-optimum decreased at cell desintegration, but one with neutral pH-optimum was rather stable under this procedure. The enzyme in native conditions was less sensitive to the inhibition by high concentrations of hydrogen peroxide than its counterpart from destroyed cells. Activity of CAT in native and desintegrated cell preparations had different sensitivity to heating and inhibition by reduced glutathione, but it was inhibited by azide similarly. Difference in the CAT properties of native and desintegrated bacteria preparations may be explained by different possibility to penetrate cell membrane by reagents and/or by possible modification of the enzyme properties at destruction of native microenvironment.     

Reduced immunogenicity of beta-lactoglobulin by conjugating with chitosan

Bovine beta-lactoglobulin (beta-LG) was conjugated with chitosan (CHS) by means of a water-soluble carbodiimide to reduce the immunogenicity of beta-LG. Each beta-LG-CHS conjugate was purified by ion-exchange chromatography and hydrophobic chromatography. The conjugation between beta-LG and CHS was confirmed by SDS-PAGE, the isoelectric point of the conjugate being higher than that of beta-LG. Two types of the beta-LG-CHS conjugate were obtained with molar ratios of beta-LG to CHS of 1:1 (F1) and 1:2 (F2). Structural analyses by fluorescence measurement, ELISA with monoclonal antibodies and retinol-binding activity indicated that the conjugates had almost maintained the native structure of beta-LG. The antigenicity of the beta-LG-CHS conjugates was similar to that of beta-LG in C3H/He mice. Reduction of the immunogenicity of beta-LG was achieved by conjugation with CHS. In particular, F2 showed very low immunogenicity. B cell epitopes of beta-LG and the conjugates recognized in C3H/He mice were determined with 15-mer multi-pin peptide; the linear epitope profiles of the conjugates were found to be similar to those of beta-LG, while the antibody response to each epitope was dramatically reduced. Conjugation of beta-LG with chitosan was effective for reducing the immunogenicity of beta-LG.     

Antithrombotic effect of tissue and plasma type angiotensin converting enzyme inhibitors in experimental thrombosis in rats.

This study compared the antithrombotic effect of plasma angiotensin converting enzyme inhibitors (ACE-Is): captopril (CAP), enalapril (ENA) and tissue ACE-Is: perindopril (PER), quinapril (QUIN) in experimental venous and arterial thrombosis. Normotensive Wistar rats were treated p.o. with CAP (75 mg/kg), ENA (20 mg/kg), PER (2 mg/kg) and QUIN (3 mg/kg) for 10 days. The influence of ACE-Is on coagulation and fibrinolytic systems as well as platelet function was evaluated. The hypotensive effect of ACE-Is was equal in all groups. QUIN maintained the final carotid blood flow at the highest value in comparison to PER and plasma ACE-Is. The arterial thrombus weight was reduced in PER and QUIN groups while venous thrombus weight was also reduced after CAP. Tissue and plasma ACE-Is caused the inhibition of platelet adhesion and aggregation. A reduction of fibrin generation, prolongation of prothrombin time (PT), activated partial thromboplastin time (APTT) and shortening of euglobulin clot lysis time (ECLT) were observed after PER and QUIN treatment. In conclusion, given in equipotent hypotensive doses, tissue ACE-Is exerted more pronounced antithrombotic effect than plasma ACE-Is in experimental thrombosis. The differences between tissue and plasma ACE-Is in terms of their more pronounced inhibition of experimental thrombosis may be related to the intensified activation of fibrinolysis and inhibition of coagulation.     

In vivo monitoring of thrombosis in mice by optical coherence tomography

The objective of this study is to establish a novel method for continuously monitoring thrombus progression with various outcome measures and to assess the efficacy of antithrombotic drugs in murine thrombosis model in mice. In the study, thrombus was induced in the femoral vein of mice by FeCl₃ and monitored over time by spectral‐domain optical coherence tomography (OCT). Three‐dimensional images of thrombi with or without heparin as an antithrombotic agent were obtained from OCT angiography. In addition, several parameters of thrombi were analyzed and compared between control and anticoagulant groups. By using OCT, we were able to trace thrombus generation in the same mouse in real time. We found that in our model heparin reduced thrombus size by ~60% and thrombus cross‐sectional area by 50%. OCT results also show that both time to thrombus size (>0.02mm³) and time to occlusion (>30%) were significantly reduced after heparin addition. This study demonstrates that OCT reliably monitors thrombus generation and progression from various aspects including thrombus size. This enables us to measure the kinetic of thrombosis more accurately, and effectively evaluate the efficacy and activities of antithrombotic drugs. This model may represent a useful tool in antithrombotic drug discoveries in preclinical studies.      

Experimental studies on the anticoagulant and antithrombotic effects of sodium and calcium pentosan polysulphate.

In the present study we have compared the antithrombotic and anticoagulant properties of sodium and calcium derivatives of pentosan polysulphate (Na-PPS, Ca-PPS). The antithrombotic effect of these agents have been investigated in an experimental thrombosis model in which rat mesenteric venules diameter of 20-30 microm were injured by well defined Argon laser lesions. Furthermore, the in vivo and in vitro anticoagulant activities (aPTT, Heptest) of these agents have been studied. Thrombus formation was significantly inhibited after s.c. injection of Na-PPS and Ca-PPS in doses above 10 mg/kg. The duration of the antithrombotic effect lasted 8 h for Na-PPS and 12 h for Ca-PPS. After oral administration of Na-PPS an antithrombotic effect was not observed. Oral application of Ca-PPS in doses higher than 20 mg/kg significantly inhibited thrombus formation. Na-PPS and Ca-PPS markedly prolonged clotting time in aPTT and Heptest in concentrations ranging from 0.01 to 0.2 mg/ml rat PTT. Two h after s.c. administration of these agents in a dose 10 mg/kg, the aPTT increased 3-fold and Heptest 2.5-fold compared to controls. After oral application of 50 mg/kg Na-PPS and Ca-PPS no effect on coagulation test could be measured.     

A novel naphthalimide derivative reduces platelet activation and thrombus formation via suppressing GPVI

Naphthalimide derivatives have multiple biological activities, including antitumour and anti-inflammatory activities. We previously synthesized several naphthalimide derivatives; of them, compound 5 was found to exert the strongest inhibitory effect on human DNA topoisomerase II activity. However, the effects of naphthalimide derivatives on platelet activation have not yet been investigated. Therefore, the mechanism underlying the antiplatelet activity of compound 5 was determined in this study. The data revealed that compound 5 (5–10 μM) inhibited collagen- and convulxin- but not thrombin- or U46619-mediated platelet aggregation, suggesting that compound 5 is more sensitive to the inhibition of glycoprotein VI (GPVI) signalling. Indeed, compound 5 could inhibit the phosphorylation of signalling molecules downstream of GPVI, followed by the inhibition of calcium mobilization, granule release and GPIIb/IIIa activation. Moreover, compound 5 prevented pulmonary embolism and prolonged the occlusion time, but tended to prolong the bleeding time, indicating that it can prevent thrombus formation but may increase bleeding risk. This study is the first to demonstrate that the naphthalimide derivative compound 5 exerts antiplatelet and antithrombotic effects. Future studies should modify compound 5 to synthesize more potent and efficient antiplatelet agents while minimizing bleeding risk, which may offer a therapeutic potential for cardiovascular diseases.     

Immobilization of a soluble chemically thermostabilized enzyme

Cellobiase was coupled to a dialdehyde dextran by reductive alkylation in the presence of sodium cyanoborohydride. The resulting conjugate, obtained without loss of enzymic activity, presents properties of thermoresistance largely superior to those of native enzyme: the rate of inactivation is reduced compared to that of native enzyme and its optimal temperature of activity is 70-75 degrees C instead of 65 degrees C. Finally the conjugate presents increased longevity when subjected to experiments of operational stability; its hydrolytic activity is maintained at 60 degrees C in a 10% (w/v) cellobiose solution for more than 100 h whereas the native enzyme is inactivated after 45 h. The cellobiase-dextran conjugate was immobilized by covalent coupling on aminated silica by reductive alkylation in the presence of NaBH(3)CN. The characteristics of thermoresistance of this stabilized and immobilized conjugate were studied and compared to those of a preparation of native cellobiase immobilized on a silica support activated with glutaraldehyde. Analysis of the thermoresistance of these two cellobiase preparations clearly shows that immobilization has maintained and even enhanced their properties. In particular, the operational stability, measured at 68 degrees C on 10% (w/v) cellobiose shows an increased longevity of the stabilized and immobilized enzyme for 120 h compared to 60 h for the native immobilized enzyme. Two successive incubations of these cellobiase derivatives show that it is possible to obtain 2.5 times more glucose with the stabilized-immobilized enzyme than with the immobilized preparation. The procedure described above enables us to prepare a thermostabilized immobilized cellobiase.     

Spirulan from Blue‐Green Algae Inhibits Fibrin and Blood Clots: Its Potent Antithrombotic Effects

We investigated in vitro and in vivo fibrinolytic and antithrombotic activity of spirulan and analyzed its partial biochemical properties. Spirulan, a sulfated polysaccharide from the blue‐green alga Arthrospira platensis, exhibits antithrombotic potency. Spirulan showed a strong fibrin zymogram lysis band corresponding to its molecular mass. It specifically cleaved Aα and Bβ, the major chains of fibrinogen. Spirulan directly decreased the activity of thrombin and factor X activated (FXa), procoagulant proteins. In vitro assays using human fibrin and mouse blood clots showed fibrinolytic and hemolytic activities of spirulan. Spirulan (2 mg/kg) showed antithrombotic effects in the ferric chloride (FeCl₃)‐induced carotid arterial thrombus model and collagen and epinephrine‐induced pulmonary thromboembolism mouse model. These results may be attributable to the prevention of thrombus formation and partial lysis of thrombus. Therefore, we suggest that spirulan may be a potential antithrombotic agent for thrombosis‐related diseases.     

Experimental studies on the antithrombotic and haemorrhagic effects of heparin and a low molecular weight heparin derivative

Antithrombotic, haemorrhagic and anticoagulant effects of unfractionated heparin (UH) and the low molecular weight heparin fragment KABI 2165 were studied in rats. In stasis-induced venous thrombosis of the jugular vein intravenous injection of both, UH and KABI 2165, either reduced significantly the size of thrombi or completely prevented thrombus formation in a dose-dependent manner. The dose of KABI 2165 required for prevention of thrombus formation showed a marked anticoagulant activity measured by APTT which was in the same range as that of the equieffective dose of UH. After administration of antithrombotically effective doses only UH caused a significant prolongation of bleeding time after standardized incision of the tail. KABI 2165 produced haemorrhagic effects at about 4-fold higher doses only than those required for the antithrombotic action.     

Prevention of experimental coronary thrombosis by hirudin

The antithrombotic activity of hirudin was studied in a rat coronary thrombosis model. The thrombus formation was induced by external application of silver nitrate solution onto the left anterior descending coronary artery. Following subcutaneous injection, hirudin in doses of 0.25, 0.5 and 1.0 mg/kg reduced the development of coronary thrombosis in a dose-dependent manner. The most pronounced antithrombotic effect of hirudin in the described model was related with plasma concentrations between 0.20 and 0.35 microgram hirudin/ml.     

Design and synthesis of glycolic and mandelic acid derivatives as factor Xa inhibitors

A series of glycolic and mandelic acid derivatives was synthesized and investigated for their factor Xa inhibitory activity. These analogues are highly potent and selective inhibitors against fXa. In a rabbit deep vein thrombosis model, compound 26 showed significant antithrombotic effects (81% inhibition of thrombus formation) at 1.1 microM plasma concentration following intravenous administration.     

A Novel Canine Model of Acute Vertebral Artery Occlusion

Background

The extended time window and theoretic reduction in hemorrhage make mechanical strategies an attractive approach for the treatment of patients with ischemic stroke. However, a limited availability of suitable animal models of cerebrovascular thrombosis has hampered the study of novel endovascular interventions. The aim of the present study was to develop a new technique for site-specific placement of a thrombus in a canine model that would allow for the evaluation of mechanical thrombectomy and clot retrieval methods and the visualization of thrombus dislocation or fragmentation during angiographic manipulation.

Methods

Angiography and embolization with a preformed thrombus were performed in 12 canines. Under fluoroscopic guidance, an embolism protection device (EPD) was anchored to the middle segment of the left vertebral artery (VA) via the left femoral arterial sheath. A preformed radiopaque clot was injected through the guide catheter into the left VA, via the contralateral femoral artery, proximal to the EPD. After 15 min of occlusion, the EPD was removed and persistent occlusion of the VA was documented angiographically.

Results

Angiography performed during the observation period confirmed the persistence of VA occlusion in each case, and displacement of the radiopaque clots did not occur during the 3-hour observation period. The technique allowed selective embolization of targeted vessels without thrombus fragmentation.

Conclusion

This study demonstrates, for the first time, a canine model of post-circulation embolism induced by autologous blood clot placement. This model can be rapidly formed and easily operated, and the site of thrombosis can be readily controlled.     

The efficacy of tissue factor pathway inhibitor (TFPI) as topically applied antithrombotic agent

Tissue factor pathway inhibitor (TFPI) acts by complexing with tissue factor and factors VIIa and Xa to retard the extrinsic pathway of the coagulative process. The present study was designed to assess the antithrombotic properties of topically applied TFPI in a model of rabbit arterial thrombosis. A standardised, thrombogenic end-to-end anastomosis was made on the central ear artery. The anastomotic site was irrigated with vehicle (control, n = 5), TFPI 4 micrograms/ml (n = 8), TFPI 40 micrograms/ml (n = 8), or heparin 100 IE/ml (n = 7). The growing thrombus was observed under a stereo microscope. The image was displayed on a video monitor and recorded for analysis using computer assisted planimetry. Topical application of TFPI in either concentration or heparin did not change maximal thrombus size, mean thrombus size, or time to maximal thrombus size significantly when compared to the contralateral vehicle-treated ear. Significant anastomotic bleeding was observed in vessels treated with TFPI 40 micrograms/ml (p < 0.05).     

The features of thrombus in a microvessel injury model and the antithrombotic efficacy of heparin,urokinase, and prostaglandin E1

In failed flap transfers and in burn injuries, superoxides and thrombi generated in the microcirculation are considered responsible for tissue injury. A dynamic and morphologic analysis of thrombus formation was conducted in a model of microvessel injury, and an analysis was made of the different antithrombotic effects of heparin, urokinase, and prostaglandin E(1). The dye-light method was used (i.e., injury of the endothelium by reactive oxygen species) to induce thrombus formation in both the arterioles and venules of the rabbit ear chamber under an intravital microscope-television system. The dynamic course of thrombus formation was observed, and the period from irradiation to complete obstruction of blood flow (i.e., time to stasis) was measured and compared in relation to various treatment conditions. Arteriolar thrombi were formed by platelet aggregation. Venular thrombi were composed of platelets and erythrocytes that gathered and adhered around leukocytes stuck to the vessel wall. Heparin treatment prolonged the time to stasis in both the arterioles and the venules. Urokinase extended the time to stasis in the venules but not in the arterioles. Prostaglandin E(1)-treatment significantly prolonged the time to stasis in the arterioles, but only high-dose prostaglandin E(1) prolonged the time to stasis in the venules. The results of this study show that endothelial damage caused by superoxides promotes the formation of thrombi that differ in composition between the arteriole and the venule and that the effectiveness of each drug varies accordingly. The authors believe that these agents can be used with increased efficacy if the two types of thrombi and the specific antithrombotic effects of each agent are considered.     

Structure and function of ubiquitin: evidence for differential interactions of arginine-74 with the activating enzyme and the proteases of ATP-dependent proteolysis

Ubiquitin was modified with the anionic, arginine-specific reagent 4-(oxoacetyl)phenoxyacetic acid in order to study the relationship between structure and function of the molecule. Four different derivatives (A, B, C, and D) were purified from the reaction mixture by anion-exchange high-performance liquid chromatography and subjected to tryptic peptide mapping to determine the location of the modification(s). These derivatives were stable throughout the procedures required for purification, tryptic hydrolysis, and peptide mapping. Derivative A was modified at arginine-42, derivative B at arginine-72, derivative C at arginines-42 and -72, and derivative D at arginine-74. Modification of ubiquitin with 14C-labeled 4-(oxoacetyl)phenoxyacetic acid indicated that the reagent formed a stable, 1:1 complex with arginine residues of the protein. Native ubiquitin and each of the four derivatives were tested for their ability to stimulate 32P exchange between ATP and pyrophosphate, a reaction catalyzed by enzyme 1 of the ubiquitin-dependent proteolytic pathway. A and C were capable of promoting this exchange at a rate only 15% that of native ubiquitin, B stimulated the exchange to 25%, and D stimulated exchange to 60% of the native level. None of the derivatives was capable of promoting a significant level of ubiquitin-dependent proteolysis. D was capable of forming conjugates with exogenous and endogenous proteins to an extent very similar to that of native ubiquitin, suggesting that its inability to stimulate ubiquitin-dependent proteolysis was due to a defect in a step beyond that of conjugate formation.(ABSTRACT TRUNCATED AT 250 WORDS)