Seb Lamprecht

Thrombotic thrombocytopenic purpura directly linked with ADAMTS13 inhibition in the baboon ( Papio ursinus )

Thrombotic thrombocytopenic purpura (TTP) is the prototypical microangiopathy characterized by disseminated microthromboses, hemolytic anemia, and ultimately organ dysfunction. A link with deficiency of the von Willebrand factor-cleaving protease (ADAMTS13) has been demonstrated, but additional genetic and/or environmental triggers are thought to be required to incite acute illness. Here we report that 4 days of ADAMTS13 functional inhibition is sufficient to induce TTP in the baboon (Papio ursinus), in the absence of inciting triggers because injections with an inhibitory monoclonal antibody (mAb) consistently (n = 6) induced severe thrombocytopenia (< 12 × 10(9)/L), microangiopathic hemolytic anemia, and a rapid rise in serum lactate dehydrogenase. Immunohistochemical staining revealed the characteristic disseminated platelet- and von Willebrand factor-rich thrombi in kidney, heart, brain, and spleen but not lungs. Prolonged inhibition (14 days, n = 1) caused myocardial ischemic damage and asplenia but not death. Control animals (n = 5) receiving equal doses of a noninhibitory anti-ADAMTS13 mAb remained unaffected. Our results provide evidence for a direct link between TTP and ADAMTS13 inhibition and for a mild disease onset. Furthermore, we present a reliable animal model of this disease as an opportunity for the development and validation of novel treatment strategies.

Evaluation of efficacy and safety of the anti-vWF Nanobody ALX-0681 in a preclinical baboon model of acquired thrombotic thrombocytopenic purpura

ALX-0681 is a therapeutic Nanobody targeting the A1-domain of VWF. It inhibits the interaction between ultra-large VWF and platelet GpIb-IX-V, which plays a crucial role in the pathogenesis of thrombotic thrombocytopenic purpura (TTP). In the present study, we report the efficacy and safety profile of ALX-0681 in a baboon model of acquired TTP. In this model, acute episodes of TTP are induced by administration of an ADAMTS13-inhibiting mAb. ALX-0681 completely prevented the rapid onset of severe thrombocytopenia and schistocytic hemolytic anemia. After induction of TTP, platelet counts also rapidly recovered on administration of ALX-0681. This effect was corroborated by the full neutralization of VWF activity. The schistocytic hemolytic anemia was also halted and partially reversed by ALX-0681 treatment. Brain CT scans and post mortem analysis did not reveal any sign of bleeding, suggesting that complete neutralization of VWF by ALX-0681 under conditions of thrombocytopenia was not linked with an excessive bleeding risk. The results obtained in this study demonstrate that ALX-0681 can successfully treat and prevent the most important hallmarks of acquired TTP without evidence of a severe bleeding risk. Therefore, ALX-0681 offers an attractive new therapeutic option for acquired TTP in the clinical setting.

The humanized anti-glycoprotein Ib monoclonal antibody h6B4-Fab is a potent and safe antithrombotic in a high shear arterial thrombosis model in baboons

The Fab-fragment of 6B4, a murine monoclonal antibody targeting the human platelet glycoprotein (GP) Ibalpha and blocking the binding of von Willebrand factor (VWF), is a powerful antithrombotic. In baboons, this was without side effects such as bleeding or thrombocytopenia. Recently, we developed a fully recombinant and humanized version of 6B4-Fab-fragment, h6B4-Fab, which maintains its inhibitory capacities in vitro and ex vivo after injection in baboons. We here investigated the antithrombotic properties, the effect on bleeding time and blood loss and initial pharmacokinetics of h6B4-Fab in baboons. The antithrombotic effect of h6B4-Fab on acute platelet-mediated thrombosis was studied in baboons where thrombus formation is induced at an injured and stenosed site of the femoral artery, allowing for cyclic flow reductions (CFRs) which are measured on an extracorporeal femoral arteriovenous shunt. Injection of 0.5 mg/kg h6B4-Fab significantly reduced the CFRs by 80%, whereas two extra injections, resulting in cumulative doses of 1.5 and 2.5 mg/kg, completely inhibited the CFRs. Platelet receptor occupancy, plasma concentrations and effects ex vivo were consistent with what was previously observed. Finally, minimal effects on bleeding time and blood loss, no spontaneous bleeding and no thrombocytopenia were observed. We therefore conclude that h6B4-Fab maintains the antithrombotic capacities of the murine 6B4-Fab, without causing side effects and therefore can be used for further development.

Inhibition of von Willebrand factor-platelet glycoprotein Ib interaction prevents and reverses symptoms of acute acquired thrombotic thrombocytopenic purpura in baboons

The pathophysiology of thrombotic thrombocytopenic purpura (TTP) can be explained by the absence of active ADAMTS13, leading to ultra-large von Willebrand factor (UL-VWF) multimers spontaneously interacting with platelets. Preventing the formation of UL-VWF-platelet aggregates therefore is an attractive new treatment strategy. Here, we demonstrate that simultaneous administration of the inhibitory anti-VWF monoclonal antibody GBR600 and the inhibitory anti-ADAMTS13 antibody 3H9 to baboons (prevention group) precluded TTP onset as severe thrombocytopenia and hemolytic anemia were absent in these animals. In addition, partial VWF inhibition was not enough to prevent thrombocytopenia, demonstrating the specificity of this therapeutic strategy. GBR600 treatment of baboons during acute TTP (treatment group) resulted in a rapid recovery of severe thrombocytopenia similar to the platelet count increases observed in TTP patients treated by plasma exchange. Baboons in the control group only injected with 3H9 developed early stages of TTP as previously described. Hence, inhibiting VWF-GPIb interactions is an effective way to prevent and treat the early symptoms of acquired TTP in baboons.

Rational humanization of the powerful antithrombotic anti-GPIbα antibody: 6B4

Fab-fragments of the monoclonal antibody 6B4, raised against human glycoprotein Ibα (GPIbα), have a powerful antithrombotic effect in baboons by blocking the GPIbα binding site for von Willebrand factor (VWF), without significant prolongation of the skin bleeding time. In order to bring this antibody to the clinic,we here humanized for the first time an anti-human GPIbα by variable-domain resurfacing guided by computer modeling. First, the genes coding for the variable regions of the heavy and light chains of 6B4 were cloned and sequenced. Based on this, a three-dimensional structure of the Fv-fragment was constructed by using homology-based modeling, and with this and comparison with antibodies with known structure,“murine” putative immunogenic residues which are exposed, were changed for “human-like” residues. The humanized Fab-fragment, h6B4-Fab, was constructed in the pKaneo vector system, expressed and purified and showed in vitro an unaltered, even slightly higher binding affinity for its antigen than the murine form as determined by different ELISA set-ups and surface plasmon resonance. Finally, injection of doses of 0.1 to 1.5 mg/kg of h6B4-Fab in baboons showed that both pharmacokinetics and ex-vivo bio-activity of the molecule were to a large extent preserved. In conclusion,the method used here to humanize 6B4 by resurfacing resulted in a fully active derivative, which is now ready for further development.

Coronary artery in-stent stenosis persists despite inhibition of the von Willebrand factor - collagen interaction in baboons

Revascularization techniques, such as angioplasty and stent implantation, frequently lead to restenosis due to the formation of neointima after platelet activation and the concomitant release of various smooth muscle cell mitogenic and attractant factors. We here investigate whether inhibition of initial platelet adhesion after stent implantation can decrease neointima formation in a clinically relevant baboon model of in-stent stenosis using standard treatment with aspirin, clopidogrel and heparin. Inhibition of platelet adhesion was established by administration of the anti-von Willebrand factor (VWF) monoclonal antibody 82D6A3, which inhibits VWF binding to collagen. Administration of 82D6A3 resulted in a complete inhibition of VWF binding to collagen during the first three days after stent implantation. No thrombocytopenia or prolongation of the bleeding time was observed. Our results show that the formation of neointima was not affected in the group of baboons where primary platelet adhesion was abolished with 82D6A3 when compared to the control group. Vascular injury scores were the same in both groups. Inhibition of platelet adhesion during the first three days after stenting, on top of standard treatment with aspirin, clopidogrel and heparin, had no effect on neo-intima formation in a baboon model of in-stent stenosis. During the last decade, attempts to translate seemingly effective therapies based on smaller animal experimentation to the clinic have consistently failed. This study, using a non-human primate model that more closely resembles the clinical situation, presents a model that may be of further clinical interest for studying the prevention of restenosis.

N-acetylcysteine in preclinical mouse and baboon models of thrombotic thrombocytopenic purpura

Thrombotic thrombocytopenic purpura (TTP) is a microangiopathic disorder diagnosed by thrombocytopenia and hemolytic anemia, associated with a deficiency in von Willebrand factor (VWF)-cleaving protease ADAMTS13. Current treatment is based on plasma infusion for congenital TTP, or plasma exchange, often in combination with immunosuppressive agents, for acquired TTP. These treatment methods are not always effective; therefore, new treatment methods are highly necessary. N-acetylcysteine (NAC), an FDA-approved anti-mucolytic agent, is a possible new treatment strategy for TTP, as it was demonstrated to reduce disulfide bonds in VWF, thereby decreasing VWF multimers size and hence their prothrombotic potential. We investigated whether NAC, without concurrent plasma exchange and immunosuppressive therapy, is effective in preventing and resolving TTP signs, using well-established murine and baboon models for TTP. In mice, prophylactic administration of NAC was effective in preventing severe TTP signs. This in vivo finding was supported by in vitro data demonstrating the VWF multimer-reducing properties of NAC in solution. Nonetheless, in both mice and baboons, administration of NAC was not effective in resolving preexisting TTP signs; thrombocytopenia, hemolytic anemia, and organ damage could not be reversed, as thrombus resolution was not achieved. Failure to improve clinical outcome occurred even though a reduction in VWF multimers was observed, demonstrating that NAC was efficient in reducing disulfide bonds in circulating VWF multimers. In conclusion, prophylactic administration of NAC, without concurrent plasma exchange, was effective in preventing severe TTP signs in mice, but NAC was not effective in resolving preexistent acute TTP signs in mice and baboons.

Tirofiban versus abciximab: tirofiban is administered at suboptimal dosages when evaluated in an arterial thrombosis model in non-human primates.

To prevent thrombosis in high-risk acute coronary syndrome patients undergoing percutaneous coronary intervention for re-vascularisation, concomitant administration of a glycoprotein IIb/IIIa inhibitor, such as abciximab, tirofiban or eptifibatide, is recommended. Abciximab and eptifibatide are mostly preferred over tirofiban, which is less effective in preventing ischaemic events. We compared the efficacy and bleeding potential of escalating doses of tirofiban and abciximab in non-human primates. The efficacy of tirofiban and abciximab in inhibiting cyclic flow reductions (CFRs) was tested in a high shear arterial thrombosis model. Bleeding was evaluated with the template bleeding time and an incision bleeding model. Abciximab completely inhibited arterial thrombosis after injection of its therapeutic bolus dose. With tirofiban, a dose three times higher than the recommended therapeutic dose caused weak inhibition characterised by a return of CFRs after re-injury. At nine times the recommended therapeutic dose, complete inhibition was observed, and the efficacy of tirofiban was comparable to abciximab at its therapeutic bolus dose. Blood loss was less than with abciximab at its effective dose. In this model, tirofiban compared favourably with abciximab, although only at a dose of 3–9 times the therapeutic dose, and caused less bleeding than abciximab.

Determination of the Dosage of Recombinant Hirudin to Inhibit Arterial Thrombosis in Baboons

Recombinant hirudin, a potent and direct inhibitor of thrombin, effectively inhibits platelet-dependent thrombosis. Our aim was to establish the plasma concentration at which r-hirudin expresses its optimal antithrombotic effect. We measured the extent of inhibition of (111)In-labeled platelet deposition onto 0.6 cm(2) segments of Dacron vascular grafts. These grafts were incorporated as extension segments into exteriorized permanent femoral arteriovenous shunts in baboons. In six control studies a mean of 1.99 +/- 0.26 x 10(9) platelets were deposited at the end of 120 min. In the treatment studies, a thrombus was allowed to form for 10 min in six animals. Treatment for 30 min with r-hirudin at dosages of 140, 70, and 35 microgram/kg/min, but not 14 microgram/kg/min, dose dependently interrupted platelet deposition. The relationship between the percent inhibition of platelet deposition caused by r-hirudin and the plasma concentration of hirudin was exponential (i.e., % Inhibition = 95(1-e(0.23 x [r-hirudin])) (R(2) = 0.76). From this, we estimated that 50% inhibition of platelet deposition will occur at a plasma concentration of approximately 3.3 microgram r-hirudin/mL and 80% at 8.1 microgram/mL. The relationship between the inhibition of platelet deposition and the plasma concentration of hirudin makes it possible to estimate the dose of hirudin that will result in a given level of inhibition of platelet deposition.

Dose-Dependent Inhibition of Acute Arterial Thrombosis by Monoclonal Antibody (16N7C2) in a Baboon Model

The pivotal role that blood platelets play in haemostasis and thrombosis caused a keen interest in the development of specific inhibitors of platelet function. The platelet glycoprotein (GP)IIb/IIIa receptor complex for fibrinogen is a particularly attractive target for therapeutic intervention, since it is the exclusive mediator of platelet aggregation. There are about 50,000 GPIIb/IIIa receptors on the surface of normal platelets. When they are reduced to about 10,000 there is a marked decrease in platelet aggregation, a mildly prolonged bleeding time and abolition of in vivo thrombus formation1. 16N7C2, a murine monoclonal antibody against human platelets, was developed at the Center for Thrombosis and Vascular Research at the University of Leuven. Preliminary studies showed that it blocks the GPIIb/IIIa receptors of human and baboon platelets, but that it has no effect on cat, dog, pig, rabbit, rat, hamster, mouse and guinea-pig platelets. We therefore decided to evaluate the in vivo potential of this monoclonal antibody in baboons.