Effects of tissue-type plasminogen activator from a culture of calf kidney cells on hemostasis and fibrinolysis in experimental nephritis

The plasminogen activator 960 IU/mg protein activity isolated from cultured fluid of the calf kidney cells was introduced to albino rats (180-200 g) with experimental Heynmann nephritis every day during 4 days. Nephritis caused activation of haemostasis and inhibition of fibrinolysis in the blood. There was increased excretion of the fibrin, fibrinogen degradation products in urine as a results of the local fibrin deposition in diseased kidneys. The fibrinolytic activity of the cortical zone of kidney was markedly decreased. The plasminogen activator, infused to experimental animals, resulted in normalization of the altered indexes.     

Changes in the fibrinolytic system associated with physical conditioning

The effects of physical conditioning on plasma fibrinolytic activity were studied in two groups of subjects. Volunteers not engaged in any sport were compared with individuals having been subjected to aerobic conditioning (middle-distance runners, defined as men running more than 80 km per week). Plasma concentrations of the different components of the fibrinolytic system were evaluated before and immediately after a maximal effort treadmill protocol. Comparison of the resting parameters revealed that under basal conditions for plasma concentrations of plasminogen, fibrinogen, alpha 2-antiplasmin, protein C and protein S there were no differences between the two groups. Concentrations of the fibrin degradation products (FbDP) and fibrinogen degradation products (FgDP) were significantly higher in the runners than in the control group, indicating an increased fibrinolytic potential that seemed to be a consequence of the reduced formation of tissue plasminogen activator-plasminogen activator inhibitor (t-PA-PAI) complexes. Acute maximal exercise resulted in pronounced fibrinolysis, evidenced by the elevation of FbDP and FgDP concentrations, in both groups of subjects. The acceleration of the fibrinolytic activity was larger in conditioned individuals, which could be accounted for by a higher t-PA release and reduced formation of t-PA-PAI complexes when compared to the untrained subjects.     

The Effect of Tranexamic Acid on the Fibrinolytic System During Anaphylaxis in Rabbits; The Importance of the Fibrinolytic System During Anaphylaxis

Abstract

We previously reported (Shimaya et al. (1992) Enzyme, 46, 204) that a rapid and strong increase of plasminogen activator (PA) was induced during anaphylaxis, and that the main plasma fibrinolytic enzyme which increased in the anaphylaxis group was shown to be tissue-type plasminogen activator (t-PA). Anaphylaxis was induced in rabbits by giving BSA after t-AMCHA injection. 44% of those rabbits died within 3 h after BSA injection. In the dead group, the euglobulin fibrinolytic activity (EFA) could not be detected by the plasminogen-rich fibrin plate method and the t-PA activity, using the natural substrate plasminogen, did not rise significantly reaching a peak at 10–15 min. However, the EFA and t-PA activity increased significantly in the surviving group. A significant prolongation of the activated partial thromboplastin time (AFTT) and the prothrombin time (PT) was observed during anaphylaxis in both groups. These findings suggest that increased PA activity during anaphylaxis is an important defense mechanism against the rapid increase in the blood coagulation system.     

Fibrinolysis in Cholestatic Jaundice

The fibrinolytic system was studied in primary biliary cirrhosis (16 patients) and large bile duct obstruction (10 patients, nine of whom had carcinoma). Plasma fibrinolysis (plasminogen activator activity) was decreased and fibrinogen increased in both groups of patients, particularly in those with large duct obstruction. These changes were related to the degree of cholestasis. Plasminogen activator activity was inversely related to serum triglyceride levels in patients with primary biliary cirrhosis. Urokinase inhibitors were decreased in both groups and antiplasmins increased in patients with large duct obstruction; fibrin/fibrinogen degradation products were normal in primary biliary cirrhosis and moderately increased in large duct obstruction. None of these fibrinolytic indices was related to the degree of cholestasis. Fibrinolytic activity and fibrinogen returned almost to normal levels after palliative surgery in the three patients with large duct obstruction who were studied. The decreased plasma fibrinolysis and increased fibrinogen may be due to altered lipid metabolism in cholestatic jaundice. In patients undergoing surgery for large duct obstruction there may be an increased risk of thrombosis.     

Fibrin Degradation Products in Sera of Women with Normal Menstruation and Menorrhagia

Serum concentrations of fibrin degradation products were found to be higher during menstruation than in the intermenstrual phase. Higher concentrations were present in cases of menorrhagia as compared with healthy women and women with various gynaecological disorders but with normal menstrual function. Higher serum concentrations of fibrin degradation products in cases of menorrhagia may indicate increased local fibrinolytic activity in the uterus.     

华广虻溶纤活性蛋白(TAFP)的性质和对大鼠血液流变学的影响

华广虻溶纤活性蛋白 (TAFP)经血纤蛋白平板法和试管凝块法测定表明 ,TAFP只具有纤溶酶作用 ,不具有激活纤溶酶原的作用 .TAFP的最适 p H为 7.5,且在 p H为 6.0时最稳定 .蛋白水解酶抑制剂对 TAFP的抑制作用显示 :STI>antipain>SBBI>antitrypsin>TLCK>leupeptin>bacteracin>PMSF>TPCK,金属蛋白酶抑制剂 1 ,1 0 - phenanthroline对 TAFP没有抑制作用 .TAFP能显著的延长大鼠出血时间、抑制血小板聚集性 ;显著降低血浆中血纤蛋白原含量、全血粘度、血浆粘度、红细胞压积 ;减慢血沉速度     

Fibrinogen–Fibrin System Regulators from Bloodsuckers

Thrombin inhibitors from bloodsucking leeches and insects that block conversion of fibrinogen to fibrin are considered. Regulatory mechanisms influencing the fibrinogen–fibrin system in leeches include fibrinogen degradation, inhibition of factor XIIIa, and lysis of fibrin clots. The review also summarizes recent data on plasminogen activator from the vampire bat Desmodus rotundus and a role of fibrin as its cofactor.     

Babesia argentina: Disseminated intravascular coagulation in acute infections in splenectomized calves

The pathology of severe Babesia argentina infections in splenectomized calves was studied. The calves were infected by intravenous inoculation of 10⁹–10¹⁰B. argentina and given 0.1 mg/kg betamethasone to enhance the parasitemia. Hematological changes observed during detailed studies of the course of infection in eight calves, three of which subsequently died, included thrombocytopenia, leucopenia, and reduced fibrinogen levels. The prothrombin time and partial thromboplastin time were prolonged in all three calves tested, and pathological levels of fibrinogen degradation products were detected in both of two calves tested. Massive pulmonary edema was a constant finding at autopsy of 24 fatal cases. Histopathological examination revealed widespread fibrin thrombi in capillaries and larger vessels of lung, in capillaries of renal glomeruli, and in hepatic sinusoids. The findings established the occurrence of disseminated intravascular coagulation in the acute infections studied.     

Synthesis of modified fragments of fibrinogen and their effect on the activity of proteolytic enzymes

New analogues of the Gly-Pro-Arg and Arg-Gly-Asp fragments of fibrinogen were synthesized: Gly-Pro-Arg-Pro (I), Gly-Pro-Arg-Pro-Met-OMe (II), Gly-Pro-Arg-Pro-Phe (III), Gly-Pro-Arg-Pro-Asp (IV), Gly-Pro-Arg-Pro-Glu (V), and Arg-Asn-Trp-Asp (VI). Their effect on the activity of proteases of various types was studied with the method of lysis of fibrin plates. All the peptides were found to inhibit plasmin activity (by 60–85%) and the γ-subunit of nerve growth factor (by 55–93%). Tetrapeptide (VI) proved to be an effective inhibitor of tissue activator of plasminogen and the γ-subunit of nerve growth factor (by 96 and 93%, respectively). The peptides exerted practically no effect on the activity of urokinase and moderately inhibited the activity of streptokinase [(III), IV), and (VI)], papain [(I), (II), IV), and (VI)], subtilisin [(V) and (VI)], α-chymotrypsin [(III), (V), and VI)], and Bacillus subtilis metalloprotease (VI). They inhibit trypsin [except for (I) and (III)] when applied on fibrin plates at a concentration of 1 × 10^?2 M, while, at the concentration of 1 × 10^?3 M, (I) and (II) induced an increase in proteolytic activity by 35 and 47%, respectively.     

Influence of beta-sitosterol on the fibrinolytic potential in rabbits

Long-term treatment of rabbits with beta-sitosterol (40 mg/kg over 3 months) caused an increased fibrinolytic activity in blood, an increased fibrinolytic capacity and an enhanced plasminogen activator activity in tissue of lungs and kidneys. The 3-months lasting beta-sitosterol administration did not influence the content of plasminogen activator inhibitor, plasminogen, alpha 2-antiplasmin, antithrombin III and fibrinogen.     

A kinetic analysis of the tissue plasminogen activator and DSPAalpha1 cofactor activities of untreated and TAFIa-treated soluble fibrin degradation products of varying size

The kinetics of tissue plasminogen activator (t-PA) and DSPAalpha1-catalyzed plasminogen activation using untreated and TAFIa-treated fibrin degradation products (FDPs), ranging in weight average molecular weight (M(w)) from 0.48 x 10(6) to 4.94 x 10(6) g/mol, were modeled according to the steady-state template model. The FDPs served as effective cofactors for both activators. The intrinsic catalytic efficiencies of both t-PA (17.4 x 10(5) m(-1) s(-1)) and DSPAalpha1 (6.0 x 10(5) m(-1) s(-1)) were independent of FDP M(w). The intrinsic catalytic efficiency of t-PA was 12-fold higher than that measured under identical conditions with intact fibrin as the cofactor. At sub-saturating levels of cofactor and substrate, rates were strongly dependent on FDP M(w) with DSPAalpha1 but not t-PA. Loss of activity with decreasing FDP M(w) correlated with loss of finger-dependent binding of the activators to the FDPs. TAFIa treatment of the FDPs resulted in 90- and 215-fold decreases in the catalytic efficiencies of t-PA (0.20 x 10(5) m(-)(1) s(-1)) and DSPAalpha1 (0.028 x 10(5) m(-1) s(-1)), yielding cofactors that were still 30- and 50-fold better than fibrinogen with t-PA and DSPAalpha1, respectively. Our results show that for both activators the products released during fibrinolysis are very effective cofactors for plasminogen activation, and both t-PA and DSPAalpha1 cofactor activity are strongly down-regulated by TAFIa.     

Modification of fibrinogen by homocysteine thiolactone increases resistance to fibrinolysis: a potential mechanism of the thrombotic tendency in hyperhomocysteinemia

We have previously shown functional differences in fibrinogen from hyperhomocysteinemic rabbits compared to that in control rabbits. This acquired dysfibrinogenemia is characterized by fibrin clots that are composed of abnormally thin, tightly packed fibers with increased resistance to fibrinolysis. Homocysteine thiolactone is a metabolite of homocysteine (Hcys) that can react with primary amines. Recent evidence suggests that Hcys thiolactone-lysine adducts form in vivo. We now demonstrate that the reaction of Hcys thiolactone with purified fibrinogen in vitro produces fibrinogen (Hcys fibrinogen) with functional properties that are strikingly similar to those we have observed in homocysteinemic rabbits. Fibrinogen purified from homocysteinemic rabbits and Hcys fibrinogen are similar in that (1) they both form clots composed of thinner, more tightly packed fibers than their respective control rabbit and human fibrinogens; (2) the clot structure could be made to be more like the control fibrinogens by increased calcium; and (3) they both form clots that are more resistant to fibrinolysis than those formed by the control fibrinogens. Further characterization of human fibrinogens showed that Hcys fibrin had similar plasminogen binding to that of the control and an increased capacity for binding tPA. However, tPA activation of plasminogen on Hcys fibrin was slower than that of the control. Mass spectrometric analysis of Hcys fibrinogen revealed twelve lysines that were homocysteinylated. Several of these are close to tPA and plasminogen binding sites. Lysines are major binding sites for fibrinolytic enzymes and are also sites of plasmin cleavage. Thus, modification of lysines in fibrinogen could plausibly lead to impaired fibrinolysis. We hypothesize that the modification of lysine by Hcys thiolactone might occur in vivo, lead to abnormal resistance of clots to lysis, and thereby contribute to the prothrombotic state associated with homocysteinemia.     

A rapid and strong increase of plasminogen activator induced by experimental anaphylaxis in rabbits.

Anaphylactic shock was induced in rabbits by injecting bovine serum albumin (BSA) as an antigen. Measurements of the enzyme activities in the fibrinolytic system confirmed that a rapid and strong increase of plasminogen activator (PA) was induced during anaphylaxis. The euglobulin fibrinolytic activity (EFA) as estimated by the plasminogen-rich fibrin plate method rose significantly, peaking at 15 min after the BSA injection (when the arterial pressure was minimum). However, EFA was not detected by the plasminogen-poor fibrin plate method. The tissue-type PA (t-PA) activity using the natural substrate plasminogen increased significantly with a peak at 15 min. The amidolytic activity also simultaneously increased significantly using the t-PA substrate, H-D-Ile-Pro-Arg-pNA. The plasminogen activator inhibitor (PAI) activity remained at baseline levels until 30 min, but rose fourfold at 90 min. The main plasma fibrinolytic enzyme which increased in anaphylaxis was proved by zymography to be t-PA with a molecular weight (MW) of 69,000.     

Hypercoagulability and hypofibrinolysis in sickle-cell disease.

Fifty-two patients with sickle-cell (SC) disease (48 with SC-beta-thalassaemia and 4 with homozygous SC-anaemia) were studied as regards blood coagulation and fibrinolysis. It was found that the thrombin and the reptilase times of the patients' plasma were significantly shorter than normal. The mean values of platelet count, fibrinogen level and factor VIII activity of patients with SC disease were higher than normal; however, in the group of patients transfused, with less than 50% haemoglobin S (HbS), the fibrinogen level and the factor VIII activity were significantly lower compared to the other patients. Antithrombin-III (At-III) activity was normal in all. The fibrinolytic activity was normal in patients with asymptomatic SC disease, but reduced in patients on painful crises. Plasminogen and fibrinogen/fibrin degradation product (FDP) levels were normal in all patients. Two patients on painful crises with complications had additional abnormal findings, namely prolonged prothrombin time, reduced At-III level and elevated FDP.     

Influence of various structural domains of fibrinogen and fibrin on the potentiation of plasminogen activation by recombinant tissue plasminogen activator

Fibrinogen, fibrin, and related fragments have varying stimulatory effects on the initial rate of the activation of human plasminogen ([Glu¹]Pg) by recombinant tissue plasminogen activator (rt-PA). A detailed analysis of this enhancement was undertaken using various purified and complexed forms of the known domains of fibrin(ogen) with a view to gaining additional knowledge regarding the substructures of fibrinogen and fibrin that are important for their stimulatory capacities. Both arvin-mediated fibrin, as well as fibrinogen fragments generated as a result of its cleavage with CNBr, stimulate the activation in a biphasic manner, most likely as a result of changes in the promoter molecule accompanying the denaturation processes that are normally employed to either solubilize or generate these particular promoters. Using purified fibrinogen and fibrin fragments, it was found that fragment E, which binds to [Glu¹]Pg, does not enhance the activation reaction, while fragment D₁ has a potentiating effect. This suggests that the binding of [Glu¹]Pg to fibrin(ogen) alone is not, in itself, sufficient for stimulation of activation to occur, but that the rt-PA-fibrin(ogen) interaction is fundamental to this same process. All purified and mixtures of fragments containing the fragment D domain (e.g., D₂E, X-oligomer, fragment X) stimulate the reaction to a greater degree than fibrinogen and fragment D₁. It is concluded that the fibrinogen D domain is asine qua non for the enhancement reaction, while structures containing the E domain had a symbiotic effect on enhancement.On study leave from the National Institute for Biological Standards and Control, South Mimms, HERTS EN6 3QG, England.     

Fibrinolytic effect of a particular glycosaminoglycan (endoglycan) per os on normals and in patients with chronic artery disease.

Endoglycan, a heparan-dermatan sulphate association, is a highly purified heparinoid extracted from porcine intestinal mucosa. The aim of our study was to investigate the fibrinolytic system in a group of healthy controls and vascular disease patients, before and after endoglycan administration "per os". All the patients had a reduced basal fibrinolytic activity. The tests carried out were PT, PTT, FDP, Euglobulin Lysis Time (ELT), fibrinogen, plasminogen, alpha 2-antiplasmin, alpha 2-macroglobulin and t-PA activity assayed with a chromogenic method. After endoglycan administration, we have shown a significant shortening of ELT with complete normalization during the treatment. A fibrinogen decrease and either plasminogen or alpha 2-antiplasmin increase was seen. This was shown in normals too, however to a lesser extent. During therapy most of the healthy subjects, but only some patients, showed increased t-PA levels. Before and during treatment, significantly higher t-PA levels were seen in the control group as compared to the patients group. Reduced t-PA release was seen in our vascular disease patients. In conclusion, endoglycan "per os" appears to exert a stimulatory effect on the fibrinolytic system.     

Pro-inflammatory effect of fibrinogen and FDP on vascular smooth muscle cells by IL-6, TNF-α and iNOS

AimsAtherosclerosis is a chronic inflammatory response of the arterial wall to multiple endothelial injuries. As one of the inflammatory markers, fibrinogen has been implicated in pathogenesis of atherosclerosis. But, it is not completely understood whether atherogenesis of fibrinogen is related to its pro-inflammatory effect on vascular smooth muscle cells (VSMCs). The purpose of the present study was to observe effects of fibrinogen and fibrin degradation products (FDP) on interleukin-6 (IL-6), tumor necrosis factor alpha (TNF-α), and inducible nitric oxide synthase (iNOS) generation in rat VSMCs.Main methodsRat VSMCs were cultured, and fibrinogen and FDP were used as stimulants for IL-6, TNF-α, and iNOS. IL-6 and TNF-α level in the supernatant were measured by ELISA, mRNA expression of IL-6, TNF-α, and iNOS were assayed with RT-PCR, and protein expression of iNOS was detected with western blot and immunocytochemistry.Key findingsFibrinogen and FDP both significantly stimulated mRNA and protein expressions of IL-6, TNF-α and iNOS in VSMCs in time- and concentration-dependent ways. The pro-inflammatory potency of FDP is higher than fibrinogen, which seems to mean that smaller fragments of the protein have greater pro-inflammatory activity. Fibrinogen and FDP promote more protein expressions of IL-6 and TNF-α compared to iNOS, suggesting that fibrinogen and FDP produce a pro-inflammatory effect on VSMCs mainly by IL-6 and TNF-α.SignificanceThese findings are helpful to better understand pro-inflammatory effect of fibrinogen on VSMCs involved in atherogenesis, and imply a therapeutic strategy targeting hyperfibrinogenemia in atherosclerosis.     

Conventional detection method of fibrinogen and fibrin degradation products using latex piezoelectric immunoassay

We developed a conventional immunosensor for fibrinogen and fibrin degradation products (FDP) to combine a quartz crystal microbalance (QCM) with the agglutination reaction of immunized latex beads. FDP induced an immunoreaction due to anti-FDP antibody immobilized latex particles. We successfully measured FDP concentration of in human serum within 10 min by QCM method. The detection range of QCM immunosensor is covered with screening concentration of FDP in serum (<10 microg/ml of FDP). The time course of latex agglutination obtained from QCM immunosensor is synchronized to that of latex photometric immunoassay. SEM was used to observe the surface of QCM that applied FDP serum. The size of latex particles agglutinated on the QCM electrode increased concomitant with FDP concentration. Frequency shift on immunoreaction explains the increased adsorption amount of agglutinated latex on QCM.     

Effects of warfarin and l-carnitine on hemostatic function and oxidative stress in streptozotocin-induced diabetic rats

Diabetes mellitus (DM) is a complex progressive disease characterized by hyperglycemia and a high risk of atherothrombotic disorders affecting the coronary, cerebral, and peripheral arterial trees. Oxidative stress is reported in diabetic patients. We investigated the hemostatic functions and oxidative stress in streptozotocin (STZ)-induced diabetic rats and the effects of warfarin and l-carnitine on those parameters. Forty male Sprague–Dawley rats were divided into four groups: control, DM, and DM received warfarin or l-carnitine. In all rats, blood glucose, insulin, hemoglobin A1c (HbA1c), fibrinogen, factor VII (FVII), plasminogen activator inhibitor-1 (PAI-1), fibrin degradation products (FDP), protein C, antithrombin III (ATIII), malondialdehydes (MDA), and antioxidants (superoxide dismutase, catalase, glutathione peroxidase, glutathione) were measured. Also, prothrombin time (PT), activated partial thromboplastin time (aPTT), coagulation time, and platelet aggregation were evaluated. In diabetic rats, plasma glucose, HbA1c, MDA, fibrinogen, FVII, FDP, PAI-1, and platelet aggregation increased while insulin, PT, aPTT, coagulation time, protein C, ATIII, and antioxidants decreased. Warfarin administration to diabetic rats decreased FVII and FDP and increased PT, aPTT, and coagulation time with no effect on MDA, antioxidants, PAI-1, protein C, ATIII, and platelet aggregation. On the other hand, l-carnitine decreased fibrinogen, FVII, FDP, PAI-1, MDA, and platelet aggregation and increased PT, aPTT, coagulation time, protein C, ATIII, and antioxidants in diabetic rats. Therefore, we concluded that hyperglycemia plays an important role in hypercoagulation state and oxidative stress in STZ-induced DM. While l-carnitine improves oxidative stress and decreases the hypercoagulation state in DM, warfarin normalizes the hypercoagulation state with no effect on oxidative stress.     

Thrombolytic,anticoagulant and antiplatelet activities of codiase,a bi-functional fibrinolytic enzyme from Codium fragile

Thrombosis is a leading cause of morbidity and mortality throughout the world. Thrombolytic agents are important for both the prevention and treatment of thrombosis. In this study, codiase, a new bi-functional fibrinolytic serine protease having thrombolytic, anticoagulant, and antiplatelet activities was purified from marine green alga, Codium fragile. The molecular weight of the enzyme was estimated to be 48.9 kDa by SDS-PAGE, and mass spectrometry. Fibrin zymography analysis showed an active band with similar molecular weight. The N-terminal sequence was found to be APKASTDQTLPL, which is different from that of other known fibrinolytic enzymes. Codiase displayed maximum activity at 30 °C and pH 6.0, and the activity was inhibited by Zn²⁺ and Fe²⁺. Moreover, the enzyme activity was strongly inhibited by serine protease inhibitor such as PMSF. Codiase exhibited high specificity for the substrate S-2288, and the K_m and V_max values for this substrate were found to be 0.24 mM and 79 U/ml respectively. Fibrin plate assays revealed that it was able to hydrolyze fibrin clot either directly or by activation of plasminogen. Codiase effectively hydrolyzed fibrin and fibrinogen, preferentially degrading α- and Aα chains, followed by γ–γ, and γ-chains. However, it provoked slower degradation of Bβ and β-chains. The structural change of fibrin clot and fibrinogen by codiase was also detected by FTIR-ATR spectroscopy analysis. In vitro and in vivo studies revealed that codiase reduces thrombosis in concentration-dependent manner. Codiase was found to prolong activated partial thromboplastin time (APTT), and prothrombin time (PT). PFA-100 studies showed that codiase prolonged the closure time (CT) of citrated whole human blood. These favorable antithrombotic profiles together with its anticoagulant and platelet disaggregation properties, and lack of toxicity to mice and NIH-3T3 cells, make it a potential agent for thrombolytic therapy.