Comparative study of inhibitory antibody derivatives towards thrombin activatable fibrinolysis inhibitor

2009 ◽  
Vol 102 (07) ◽  
pp. 69-75 ◽  
Author(s):  
Jan Develter ◽  
Maarten Dewilde ◽  
Ann Gils ◽  
Paul J. Declerck
Keyword(s):  
Antibody Fragments ◽  
Clot Lysis ◽  
Single Chain ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
Inhibitory Antibody ◽  
In Vivo Models ◽  
Fibrinolysis Inhibitor ◽  
Antibody Derivatives

SummaryThrombin activatable fibrinolysis inhibitor (TAFI) attenuates fibrinolysis and is considered as an attractive drug target. We generated two different antibody fragments, an antigen-binding fragment (Fab) and a single-chain variable fragment (scFv), derived from three distinct monoclonal antibodies (MAs) that inhibit the activation of TAFI by the thrombin/thrombomodulin complex (T/TM) and plasmin (MA-T1C10 and MA-T94H3) or by T/TM alone (MA-T12D11). The Fabs were obtained by papain digestion of the purified Mas, whereas the scFvs were cloned and subsequently expressed in bacteria. All antibody fragments revealed similar or slightly decreased affinities compared to those of the respective Mas, except scFv-T94H3. In the presence of a 16-fold molar excess of all antibody fragments, activation of TAFI by T/TM was completely blocked. Furthermore, Fab and scFv-derivatives from MA-T1C10 and MA-T94H3 were capable of interfering with the plasmin-mediated activation of TAFI. Addition of 850 nM of MA, Fab or scFv to an in-vitro clot lysis assay caused a significant reduction of clot lysis time (except for scFv-T94H3) and this effect was comparable to that of potato tuber carboxypeptidase inhibitor, a well-known TAFIa inhibitor. Dose-response experiments with the antibody (derivatives) in clot lysis and chromogenic assay revealed that the inhibitory capacity of the Fabs was comparable to that of the Mas, whereas the scFvs had a more reduced potency. In conclusion, these highly specific TAFI inhibitors are interesting tools to further evaluate the concept of TAFI inhibition in various in-vitro and in-vivo models.

Evaluation of the profibrinolytic properties of an anti-TAFI monoclonal antibody in a mouse thromboembolism model

Blood ◽  
2011 ◽  
Vol 117 (17) ◽  
pp. 4615-4622 ◽  
Author(s):  
Ellen Vercauteren ◽  
Jan Emmerechts ◽  
Miet Peeters ◽  
Marc F. Hoylaerts ◽  
Paul J. Declerck ◽  
...  
Keyword(s):  
Monoclonal Antibody ◽  
Clot Lysis ◽  
Fibrin Deposition ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
First Report ◽  
Fibrinolysis Inhibitor ◽  
Thrombotic Diseases

Abstract The enhancement of fibrinolysis constitutes a promising approach to treat thrombotic diseases. Activated thrombin activatable fibrinolysis inhibitor (TAFIa) attenuates fibrinolysis and is an attractive target to develop profibrinolytic drugs. TAFI can be activated by thrombin, thrombin/thrombomodulin, or plasmin, but the in vivo physiologic TAFI activator(s) are unknown. Here, we generated and characterized MA-TCK26D6, a monoclonal antibody raised against human TAFI, and examined its profibrinolytic properties in vitro and in vivo. In vitro, MA-TCK26D6 showed a strong profibrinolytic effect caused by inhibition of the plasmin-mediated TAFI activation. In vivo, MA-TCK26D6 significantly decreased fibrin deposition in the lungs of thromboembolism-induced mice. Moreover, in the presence of MA-TCK26D6, plasmin-α2-antiplasmin complexes in plasma of thromboembolism-induced mice were significantly increased compared with a control antibody, indicative of an acceleration of fibrinolysis through MA-TCK26D6. In this study, we show that plasmin is an important TAFI activator that hampers in vitro clot lysis. Furthermore, this is the first report on an anti-TAFI monoclonal antibody that demonstrates a strong profibrinolytic effect in a mouse thromboembolism model.

In vitro and in vivo characterisation of the profibrinolytic effect of an inhibitory anti-rat TAFI nanobody

2014 ◽  
Vol 111 (05) ◽  
pp. 824-832 ◽  
Author(s):  
Maarten L. V. Hendrickx ◽  
Monika Zatloukalova ◽  
Gholamreza Hassanzadeh-Ghassabeh ◽  
Serge Muyldermans ◽  
Ann Gils ◽  
...  
Keyword(s):  
Epitope Mapping ◽  
Potent Inhibitor ◽  
Bleeding Risk ◽  
Molar Ratio ◽  
Clot Lysis ◽  
Fibrin Deposition ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
Fibrinolysis Inhibitor

SummaryOne of the main disadvantages of current t-PA thrombolytic treatment is the increased bleeding risk. Upon activation, thrombin activatable fibrinolysis inhibitor (TAFI) is a very powerful antifibrinolytic enzyme. Therefore, co-administration of a TAFI inhibitor during thrombolysis could reduce the required t-PA dose without compromising the thrombolytic efficacy. In this study we generated and characterised a nanobody that is inhibitory towards rat TAFI and evaluated its profibrinolytic property in vitro and in vivo. Nanobody VHH-rTAFI-i81 inhibits (at a 16-fold molar ratio nanobody over TAFI) the thrombin/thrombomodulin (T/TM)-mediated activation of rat TAFI (rTAFI) by 83 ± 1.8% with an IC50 of 0.46 (molar ratio nanobody over TAFI). The affinity (KA) of VHH-rTAFI-i81 for rTAFI, as determined by surface plasmon resonance (Biacore®), is 2.5 ± 0.2 × 1010 M−1 and illustrates a very strong binding. In an in vitro clot lysis assay, administration of VHH-rTAFI-i81 strongly enhances the degree of lysis and reduces time to reach full lysis of t-PA-mediated clot lysis. Epitope mapping discloses that Lys392 is of primary importance for the nanobody/rTAFI interaction besides minor contributions of Tyr175 and Glu183. In vivo application of VHH-rTAFI-i81 in a tissue factor-induced mouse thromboembolism model significantly decreases fibrin deposition in the lungs in the absence of exogenous administered t-PA. Nanobody VHH-rTAFI-i81 is a very potent inhibitor of T/TM-mediated TAFI activation. Co-administration of this nanobody and t-PA enhances the fibrinolytic efficacy. In an in vivo mouse thromboembolism model, VHH-rTAFI-i81 reduces fibrin deposition in the lungs.

Effect of Heparin on TAFI-Dependent Inhibition of Fibrinolysis: Relative Importance of TAFIa Generated by Clot-Bound and Fluid Phase Thrombin

2002 ◽  
Vol 88 (08) ◽  
pp. 282-287 ◽  
Author(s):  
Anna Pentimone ◽  
Bianca Binetti ◽  
Marialisa Cramarossa ◽  
Donatella Piro ◽  
Nicola Semeraro ◽  
...  
Keyword(s):  
Thrombin Generation ◽  
Blood Clot ◽  
Fluid Phase ◽  
Clot Lysis ◽  
Relative Importance ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
Dependent Inhibition ◽  
Fibrinolysis Inhibitor ◽  
Dependent Mechanism

SummaryHeparin has been proposed to enhance thrombolysis by inhibiting thrombin-dependent generation of activated TAFI (thrombin activatable fibrinolysis inhibitor), a carboxypeptidase that inhibits fibrinolysis. We evaluated the effect of heparin in an in vitro thrombolysis model consisting of a radiolabelled blood clot submerged in defibrinated plasma. Fibrinolysis was induced by adding t-PA (250 ng/ml) and calcium to the plasma bath. Control experiments indicated that thrombin generation induced by recalcification caused significant TAFI activation and inhibited clot lysis. Heparin (up to 1 U/ml), added to the plasma bath, failed to enhance clot lysis. Thrombin generation in the fluid phase was totally inhibited by heparin at concentrations > 0.5 U/ml. In contrast, thrombin generation on the clot surface was not inhibited by heparin (1 U/ml). TAFIa generation did occur in heparin-containing samples (1 U/ml) and amounted to about 10% of TAFIa formed in control samples. This low amount of TAFIa did exert antifibrinolytic activity as indicated by the observation that the addition of a specific TAFIa inhibitor (PTI) along with heparin enhanced clot lysis. Hirudin (10 µg/ml), at variance with heparin, inhibited clot-bound thrombin and enhanced clot lysis. These data show that heparin is unable to stimulate fibrinolysis through a TAFI-dependent mechanism, most likely because of its inefficiency in inhibiting thrombin generation on the clot surface. Moreover, they suggest that clot-bound thrombin plays a major role in TAFI-mediated inhibition of fibrinolysis through “localized” TAFIa generation.

Identification and characterisation of monoclonal antibodies that impair the activation of human thrombin activatable fibrinolysis inhibitor through different mechanisms

2011 ◽  
Vol 106 (07) ◽  
pp. 90-101 ◽  
Author(s):  
Niraj Mishra ◽  
Ellen Vercauteren ◽  
Jan Develter ◽  
Riet Bammens ◽  
Paul J. Declerck ◽  
...  
Keyword(s):  
Monoclonal Antibodies ◽  
Clot Lysis ◽  
Dependent Manner ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
Lysis Time ◽  
Human Thrombin ◽  
Fibrinolysis Inhibitor ◽  
Dose Dependent ◽  
Clot Lysis Time

SummaryThrombin activatable fibrinolysis inhibitor (TAFI) forms a molecular link between coagulation and fibrinolysis and is a putative target to develop profibrinolytic drugs. Out of a panel of monoclonal antibodies (MA) raised against TAFI-ACIIYQ, we selected MA-TCK11A9, MA-TCK22G2 and MA-TCK27A4, which revealed high affinity towards human TAFITI- wt. MA-TCK11A9 was able to inhibit mainly plasmin-mediated TAFI activation, MA-TCK22G2 inhibited plasmin- and thrombin-mediated TAFI activation and MA-TCK27A4 inhibited TAFI activation by plasmin, thrombin and thrombin/thrombomodulin (T/TM) in a dose-dependent manner. These MA did not interfere with TAFIa activity. Using an eightfold molar excess of MA over TAFI, all three MA were able to reduce clot lysis time significantly, i.e. in the presence of exogenous TM, MATCK11A9, MA-TCK22G2 and MA-TCK27A4 reduced clot lysis time by 47 ± 9.1%, 80 ± 8.6% and 92 ± 14%, respectively, compared to PTCI. This effect was even more pronounced in the absence of TM i.e. MATCK11A9, MA-TCK22G2 and MA-TCK27A4 reduced clot lysis time by 90 ± 14%, 140 ± 12% and 147 ± 29%, respectively, compared to PTCI. Mutagenesis analysis revealed that residues at position 268, 272 and 276 are involved in the binding of MA-TCK11A9, residues 147 and 148 in the binding of MA-TCK22G2 and residue 113 in the binding of MATCK27A4. The present study identified three MA, with distinct epitopes, that impair the activation of human TAFI and demonstrated that MATCK11A9 which mainly impairs plasmin-mediated TAFI activation can also reduce significantly clot lysis time in vitro.

scholarly journals Llama-Derived Single-Chain Antibody Fragments Directed to Rotavirus VP6 Protein Possess Broad Neutralizing Activity In Vitro and Confer Protection against Diarrhea in Mice

2008 ◽  
Vol 82 (19) ◽  
pp. 9753-9764 ◽  
Author(s):  
Lorena Garaicoechea ◽  
Aurelien Olichon ◽  
Gisela Marcoppido ◽  
Andrés Wigdorovitz ◽  
Marina Mozgovoj ◽  
...  
Keyword(s):  
Capsid Protein ◽  
Binding Capacity ◽  
Antibody Fragments ◽  
Target Antigen ◽  
Single Chain ◽  
Single Chain Antibody ◽  
Group A Rotavirus ◽  
Group A

ABSTRACT Group A rotavirus is one of the most common causes of severe diarrhea in human infants and newborn animals. Rotavirus virions are triple-layered particles. The outer capsid proteins VP4 and VP7 are highly variable and represent the major neutralizing antigens. The inner capsid protein VP6 is conserved among group A rotaviruses, is highly immunogenic, and is the target antigen of most immunodiagnosis tests. Llama-derived single-chain antibody fragments (VHH) are the smallest molecules with antigen-binding capacity and can therefore be expected to have properties different from conventional antibodies. In this study a library containing the VHH genes of a llama immunized with recombinant inner capsid protein VP6 was generated. Binders directed to VP6, in its native conformation within the viral particle, were selected and characterized. Four selected VHH directed to conformational epitopes of VP6 recognized all human and animal rotavirus strains tested and could be engineered for their use in immunodiagnostic tests for group A rotavirus detection. Three of the four VHH neutralized rotavirus in vivo independently of the strain serotype. Furthermore, this result was confirmed by in vivo partial protection against rotavirus challenge in a neonatal mouse model. The present study demonstrates for the first time a broad neutralization activity of VP6 specific VHH in vitro and in vivo. Neutralizing VHH directed to VP6 promise to become an essential tool for the prevention and treatment of rotavirus diarrhea.

scholarly journals A preliminary investigation of in vitro anti-thrombotic and anti-platelet activity of Pinus Gerardiana

2017 ◽  
Vol 4 (1) ◽  
pp. 1098 ◽  
Author(s):  
Atta-ur Rehman ◽  
Sara Naz ◽  
Muhammad Zaman ◽  
Syed Saeed-ul-Hassan ◽  
Javed Iqbal ◽  
...  
Keyword(s):  
Platelet Aggregation ◽  
Blood Clot ◽  
Preliminary Investigation ◽  
Circulatory System ◽  
Clot Lysis ◽  
Platelet Activity ◽  
In Vivo Models ◽  
The Stability

Introduction: Hemostasis is a process which preserves the stability of a closed and high-pressure circulatory system after any vascular injury. Circulating platelets are recruited to the site of injury, where they develop a major component of the developing thrombus, blood clotting, started by tissue factor, concludes in the generation of thrombin and fibrin. Thrombosis is a serious event in the arterial diseases and a major cause in the development of myocardial infarction, stroke and venous thrombo-embolism which justify prominent morbidity and mortality rate. The knowledge of molecular and cellular mechanism of the formation of thrombus has developed considerably in the recent studies by using different in-vitro and in-vivo models of diseases. P. gerardiana nut oil has been reported to possess anti-bacterial, anti-fungal, anti-viral, anti-septic, anti-neuralgic, diuretic, expectorant, hypertensive properties. However, hardly, any data is available regarding effects of nut oil on platelet function. In this study, fibrinolytic activity and effect on platelet aggregation were investigated. Method: P. gerardiana nut oil was extracted by using n-Hexane and then concentrated by rotary evaporator. Anti-thrombotic and fibrinolytic activities were evaluated on blood clot formation. Effects on platelet aggregation of the oil were determined based on collagen or epinephrine induced platelet aggregation. Results: P. gerardiana caused blood clot lysis in-vitro. P. gerardiana nut oil inhibited collagen dependent platelet aggregation while accelerated the epinephrine dependent platelet aggregation. In vitro whole blood coagulation was also reduced. In vivo P. gerardiana nut oil has no significant effect on blood cell indices. Conclusion: P. gerardiana nuts oil can be an effective therapy for the treatment of cardiovascular disorders and thromboembolism.

EVIDENCE FOR SYNERGISM BETWEEN TISSUE-TYPE PLASMINOGEN ACTIVATOR AND SINGLE CHAIN UROKINASE ON IN VITRO PLASMA CLOT LYSIS

1987 ◽  
Author(s):  
R S Rappaport ◽  
M R Blume ◽  
R L Vogel ◽  
M H Levner ◽  
P P Hung
Keyword(s):  
Plasminogen Activator ◽  
Tissue Type ◽  
Clot Lysis ◽  
Single Chain ◽  
Plasma Clot ◽  
Tissue Type Plasminogen Activator ◽  
Molar Ratios ◽  
Type Plasminogen Activator

There is mounting evidence from animal models and the clinic that combination thrombolytic therapy with tissue-type plasminogen activator (tPA) and single chain urokinase (scuPA) is synergistic. Yet, efforts to demonstrate synergism between these two plasminogen activators in vitro have met with discordant results. Collen et al (Thromb. Haemostasis, 56:35, 1986) reported an absence of synergism between these two agents on clot lysis in an in vitro plasma milieu when they were evaluated at molar ratios of 1:4 (tPA:scuPA and vice versa). Gurewich and Pannell (Thromb. Res., 44:217, 1986), however, reported a synergistic effect on fibrin-specific clot lysis in vitro when the agents were combined in concentrations exceeding molar ratios of 1:4 (tPA:scuPA). Here, we present evidence that synergism between tPA and scuPA may be demonstrated in vitro provided that the molar ratio of tPA to scuPA exceeds 1:4 and that the concentration of clot bound or unbound tPA is minimized. In order to achieve this experimental condition, the standard in vitro plasma clot lysis assay was modified. Human plasma clots were incubated first for a short time in plasma containing varying amounts of tPA. After incubation, the clots were washed thoroughly and reimmersed in plasma alone or in plasma containing varying amounts of scuPA or tPA. Under these conditions, lysis proceeded at a greater rate and to a greater extent when tPA clots were immersed in plasma containing an appropriate amount of scuPA than when they were immersed in plasma alone or in plasma containing appropriate amounts of tPA. Lysis of untreated clots or clots exposed first to scuPA and then to plasma containing varying amounts of scuPA proceeded far less efficiently with a characteristic lag. The enhanced lysis produced by tPA and scuPA obeyed the classical definition of synergy: the same biological effect can be obtained with two drugs together at algebraic fractional combinations of less than 1 (Berenbaum, M.C., Clin. Exp. Immunol., 28:1-18, 1977). Thus, conditions that more closely mimic the in vivo situation resulting from a bolus injection of tPA followed by infusion with scuPA, may provide a system for duplication of in vivo synergism in. vi tro and investigation of the mechanism thereof.

Thrombin activatable fibrinolysis inhibitor and its fibrinolytic effect in normal pregnancy

2004 ◽  
Vol 92 (11) ◽  
pp. 1025-1031 ◽  
Author(s):  
Hatem Mousa ◽  
Colin Downey ◽  
Zarko Alfirevic ◽  
Cheng-Hock Toh
Keyword(s):  
Protein S ◽  
Significant Negative Correlation ◽  
Normal Pregnancy ◽  
Clot Lysis ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
Significant Drop ◽  
Soluble Thrombomodulin ◽  
Lysis Time ◽  
Fibrinolysis Inhibitor

SummaryWe investigated changes in both thrombin activatable fibrinolysis inhibitor (TAFI) antigen levels and its functional effect on in vitro fibrinolysis in normal pregnancy. 152 pregnant women and 31 women in the immediate postpartum period were studied, with pregnancy divided into 6 windows at 4 weekly intervals. As TAFI influences and is in turn influenced by components of the protein C (PC) pathway, its measurements were correlated with levels of soluble thrombomodulin, PC, protein S (PS) and the overall phenotype of activated PC resistance (APCR). Compared with mean TAFI levels at booking gestation (6.6 +1.2 μg/ml), levels peaked at 35-39 weeks gestation (9.6 +2 μg/ml, p = 0.001), followed by a significant drop within 24 hours of delivery (7.2 + 1.1 μg/ml). In functional terms, the mean clot lysis time (CLT) (101 + 13 min at booking) also peaked at 35-39 weeks gestation (141 + 42 min, p = 0.007) and dropped after delivery (99 + 33 min), and was significantly correlated with gestational age (r = 0.410, p = 0.001) and could be abrogated in the presence of an inhibitor to TAFI activation. A significant negative correlation was found between TAFI levels and APCR (r = −0.478, p <0.001), APCRV (r = −0.598; p <0.001), PS (r = −0.490, P <0.001) and PC (r = −0.198, p = 0.02). In summary, there is a significant increase in TAFI levels, which translates into increased CLT during pregnancy. Furthermore, changes in TAFI contribute to the increasing APCR of pregnancy.

scholarly journals Thrombin-thrombomodulin connects coagulation and fibrinolysis: more than an in vitro phenomenon

Blood ◽  
2007 ◽  
Vol 110 (9) ◽  
pp. 3168-3175 ◽  
Author(s):  
Tanya M. Binette ◽  
Fletcher B. Taylor ◽  
Glenn Peer ◽  
Laszlo Bajzar
Keyword(s):  
Degradation Products ◽  
Lethal Dose ◽  
Catalytic Efficiency ◽  
Thrombin Activatable Fibrinolysis Inhibitor ◽  
E Coli ◽  
Fibrin Degradation Products ◽  
Baboon Model ◽  
Fibrinolysis Inhibitor

Abstract Thrombin activatable fibrinolysis inhibitor (TAFI), when activated, forms a basic carboxypeptidase that can inhibit fibrinolysis. Potential physiologic activators include both thrombin and plasmin. In vitro, thrombomodulin and glycosaminoglycans increase the catalytic efficiency of TAFI activation by thrombin and plasmin, respectively. The most relevant (patho-) physiologic activator of TAFI has not been disclosed. Our purpose was to identify the physiologic activator of TAFI in vivo. Activation of protein C (a thrombin-thrombomodulin–dependent reaction), prothrombin, and plasminogen occurs during sepsis. Thus, a baboon model of Escherichia coli–induced sepsis, where multiple potential activators of TAFI are elaborated, was used to study TAFI activation. A monoclonal antibody (mAbTAFI/TM#16) specifically inhibiting thrombin-thrombomodulin–dependent activation of TAFI was used to assess the contribution of thrombin-thrombomodulin in TAFI activation in vivo. Coinfusion of mAbTAFI/TM#16 with a lethal dose of E coli prevented the complete consumption of TAFI observed without mAbTAFI/TM#16. The rate of fibrin degradation products formation is enhanced in septic baboons treated with the mAbTAFI/TM#16; therefore, TAFI activation appears to play a key role in the extent of fibrin(ogen) consumption during E coli challenge, and thrombin-thrombomodulin, in a baboon model of E coli–induced sepsis, appears to be the predominant activator of TAFI.

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