Swapnil Rakhe scite author profile

Introduction: Tissue factor pathway inhibitor (TFPI) is an endogenous inhibitor of the extrinsic pathway that negatively regulates thrombin production during coagulation.Under haemophilic conditions, where the intrinsic coagulation pathway is impaired, inhibition of TFPI may improve clotting. Aim:We investigated the ex vivo effects of a human TFPI neutralizing antibody, marstacimab (previously PF-06741086), in coagulation assays including rotational thromboelastometry (ROTEM), thrombin generation assay (TGA) and the dilute prothrombin time (dPT) assay, performed in haemophilic whole blood and plasmas. We compared the effects of marstacimab to the effects of recombinant coagulation factors and investigated the reproducibility of marstacimab in restoring haemostasis by comparing its effect in whole blood collected from the same study participants on differing days. Methods:Citrated whole blood and plasmas obtained from haemophilia participants were supplemented ex vivo with vehicle, marstacimab, recombinant FVIII (rFVIII) or recombinant factor IX (rFIX) and analysed in ROTEM, TGA and the dPT assay using low tissue factor concentrations to trigger coagulation. Results: Marstacimab induced pro-coagulant responses in ROTEM parameters in-cluding reduction in clotting times and increases in angle. Similarly, participant plasmas supplemented with marstacimab exhibited improvements in TGA parameters, including reduced lag times, increased peak thrombin concentrations and reductions in dPT clotting time. Concentrations of marstacimab tested showed activity comparable to addition of rFVIII or rFIX and were reproducible. Conclusions:These studies show the ex vivo potency of marstacimab in restoring haemostasis in whole blood and plasmas from haemophilia participants and comparability to ex vivo reconstitution with recombination coagulation factors. K E Y W O R D Scoagulation, global haemostatic assays, haemophilia, thrombin generation assay, tissue factor pathway inhibitor, whole blood clotting

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Translational Pharmacokinetic/Pharmacodynamic Characterization and Target-Mediated Drug Disposition Modeling of an Anti–Tissue Factor Pathway Inhibitor Antibody, PF-06741086

Parng

Singh

Pittman

et al. 2018

Journal of Pharmaceutical Sciences

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Pulmonary Administration of Interferon Beta-1a-Fc Fusion Protein in Non-Human Primates Using an Immunoglobulin Transport Pathway

Vallée

Rakhe

Reidy

et al. 2012

Journal of Interferon & Cytokine Research

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Currently, products containing interferon beta (IFNβ) are injected either intramuscularly or subcutaneously. To avoid the necessity of injection, we developed a novel monomeric Fc fusion protein of IFNβ (IFNβFc) that is absorbed via an immunoglobulin transport system present in the upper and central airways upon administration of the drug as an inhaled aerosol. The systemic absorption of IFNβFc through the lung in non-human primates, at deposited doses of 1, 3, and 10 μg/kg, was compared to the absorption of a single 3 μg/kg dose of IFNβ-1a (Avonex®) subcutaneously administered. IFNβFc was well absorbed through the lung, displaying dose proportional increases in serum concentrations, and was biologically active, as shown by increases in plasma neopterin levels. The circulating half-life of IFNβFc was ∼3 times longer (∼30 h) than that of IFNβ-1a, (8-9 h). At approximately equimolar doses of IFNβFc (10 μg/kg) and IFNβ-1a (3 μg/kg), the stimulation of neopterin over background levels was approximately equivalent, demonstrating that the longer half-life of IFNβFc compensated for the lower relative specific antiviral activity of IFNβFc measured in vitro. In conclusion, IFNβFc was efficiently absorbed after pulmonary delivery in non-human primates, retained its biological activity, and may offer a convenient alternative to injectable IFNβ.

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An Antibody to Tissue Factor Pathway Inhibitor (PF-06741086) in Combination with Recombinant Factor VIIa Increases Hemostasis in Hemophilia Plasma without Excessive Thrombin Generation

Rakhe

Hett

Murphy

et al. 2016

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Hemophilia is a hereditary bleeding disorder caused by intrinsic coagulation pathway deficiencies of Factor VIII (hemophilia A) or Factor IX (hemophilia B). Tissue factor pathway inhibitor (TFPI) is a Kunitz-type serine protease inhibitor that negatively regulates thrombin generation within the extrinsic pathway of coagulation. In hemophilia patients the extrinsic pathway remains intact and thus augmentation of this pathway may circumvent the clotting deficiency in hemophilia. PF-06741086, a monoclonal antibody that binds to and neutralizes the inhibitory activity of TFPI is being developed as a potential treatment for bleeding disorders including hemophilia A and hemophilia B with and without inhibitors. Currently, treatment of inhibitor patients is managed by bypass treatments, such as recombinant Factor VIIa (rFVIIa). The effect of PF-06741086 on thrombin generation in the presence of increasing concentrations of rFVIIa (0.0002 to 20 µg/mL) was studied in severe hemophilia A plasma. A dose-dependent increase in thrombin generation was observed over vehicle control with the addition of rFVIIa to the hemophilia plasma. Addition of a fixed concentration of PF-06741086 (16 µg/mL) in combination with rFVIIa resulted in an increase in thrombin generation including higher peak thrombin and shortening of lag time compared to rFVIIa alone. The TGA profiles with the combination of PF-06741086 and rFVIIa at 0.2, 2, and 20 µg/mL were similar suggesting a saturation of mechanism at these concentrations. The combination of PF-06741086 and rFVIIa restored thrombin generation to normal plasma levels at all rFVIIa concentrations examined. The TFPI inhibitory activity of PF-06741086 on thrombin generation in the presence and absence of rFVIIa was further studied in additional hemophilia A plasmas, including hemophilia A plasmas with inhibitors and hemophilia B plasma. All donors had less than 1% coagulation factor activity. A rFVIIa concentration of 2 µg/mL was selected because it corresponded to plasma levels that could be observed following dosing of FVIIa and because the thrombin generation response in hemophilia plasma was similar with FVIIa added to hemophilia A plasma at 0.2, 2 and 20 µg/mL. The concentration of PF-06741086 was 16 µg/mL in these studies. The effect of PF-06741086 on thrombin generation was also measured in non-hemophilic plasma which would have the full complement of coagulation factors. The addition of PF-06741086 alone or in combination with rFVIIa to hemophilia A and B plasma resulted in an increase in thrombin generation including higher peak thrombin concentration and shortening of lag time compared to addition of rFVIIa alone. In hemophilic plasma samples with inhibitors (3 - 1261 Bethesda Units), PF-06741086 alone also restored thrombin generation. A minimal additive effect in peak thrombin generation was observed with the combination of PF-06741086 (16 µg/mL) and 2 µg/mL rFVIII. The midpoint peak thrombin levels achieved with PF-06741086 alone or in combination with rFVIIa were similar to those observed in non-hemophilic plasma and did not exceed the level observed in non-hemophilic plasma dosed with PF-06741086. To summarize, use of rFVIIa in combination with PF-06741086 results in increased thrombin generation in hemophilia A, hemophilia B and inhibitor plasmas without inducing excessive coagulation. Disclosures Rakhe: Pfizer: Employment. Hett:Pfizer: Employment. Murphy:Pfizer: Employment. Pittman:Pfizer: Employment.

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Hemostatic efficacy of marstacimab alone or in combination with bypassing agents in hemophilia plasmas and a mouse bleeding model

Pittman

Rakhe

Bowley

et al. 2022

Research and Practice in Thrombosis and Haemostasis

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Background Patients with hemophilia have deficiencies in intrinsic coagulation factors and can develop inhibitors that limit the effectiveness of replacement coagulation factors. Marstacimab, a human monoclonal antibody, binds and inhibits the human tissue factor pathway inhibitor. Marstacimab is currently under development as a potential prophylactic treatment to prevent bleeding episodes in patients with hemophilia A and B. Objective To assess the effects of marstacimab alone or in combination with the bypassing agent recombinant factor FVIIa (rFVIIa) or activated prothrombin complex concentrate (aPCC) on thrombin generation and bleeding. Methods Marstacimab and/or rFVIIa or aPCC were added to hemophilic A or B plasma or nonhemophilic plasma in vitro. Hemostatic activity was measured using the thrombin generation assay. In vivo effects were assessed using a mouse acute bleeding model. Male hemophilia A mice were dosed with marstacimab plus aPCC before tail clip; blood loss was quantified by measuring hemoglobin. Results Marstacimab plus rFVIIa or aPCC slightly increased peak thrombin levels compared with either agent alone. This increase was within the reported range for nonhemophilic plasma and did not exceed levels observed in nonhemophilic plasma treated with marstacimab alone. Hemophilia A mice that received 200 U/kg aPCC had significantly reduced bleeding (62%) compared with vehicle‐treated mice ( p < 0.05), and marstacimab plus aPCC reduced bleeding by 83.3% compared with vehicle ( p = 0.0009). Conclusions Marstacimab alone or with bypassing agents increased hemostasis in hemophilia plasma without generating excessive thrombin. The hemostatic activity of marstacimab plus aPCC was confirmed in hemophilia A mice.

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Swapnil Rakhe

Marstacimab, a tissue factor pathway inhibitor neutralizing antibody, improves coagulation parameters of ex vivo dosed haemophilic blood and plasmas

Translational Pharmacokinetic/Pharmacodynamic Characterization and Target-Mediated Drug Disposition Modeling of an Anti–Tissue Factor Pathway Inhibitor Antibody, PF-06741086

Pulmonary Administration of Interferon Beta-1a-Fc Fusion Protein in Non-Human Primates Using an Immunoglobulin Transport Pathway

An Antibody to Tissue Factor Pathway Inhibitor (PF-06741086) in Combination with Recombinant Factor VIIa Increases Hemostasis in Hemophilia Plasma without Excessive Thrombin Generation

Hemostatic efficacy of marstacimab alone or in combination with bypassing agents in hemophilia plasmas and a mouse bleeding model

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