Mette Brunsgaard Hermit scite author profile

AbstractHemophilia is treated by IV replacement therapy with Factor VIII (FVIII) or Factor IX (FIX), either on demand to resolve bleeding, or as prophylaxis. Improved treatment may be provided by drugs designed for subcutaneous and less frequent administration with a reduced risk of inhibitor formation. Tissue factor pathway inhibitor (TFPI) down-regulates the initiation of coagulation by inhibition of Factor VIIa (FVIIa)/tissue factor/Factor Xa (FVIIa/TF/FXa). Blockage of TFPI inhibition may facilitate thrombin generation in a hemophilic setting. A high-affinity (KD = 25pM) mAb, mAb 2021, against TFPI was investigated. Binding of mAb 2021 to TFPI effectively prevented inhibition of FVIIa/TF/FXa and improved clot formation in hemophilia blood and plasma. The binding epitope on the Kunitz-type protease inhibitor domain 2 of TFPI was mapped by crystallography, and showed an extensive overlap with the FXa contact region highlighting a structural basis for its mechanism of action. In a rabbit hemophilia model, an intravenous or subcutaneous dose significantly reduced cuticle bleeding. mAb 2021 showed an effect comparable with that of rFVIIa. Cuticle bleeding in the model was reduced for at least 7 days by a single intravenous dose of mAb 2021. This study suggests that neutralization of TFPI by mAb 2021 may constitute a novel treatment option in hemophilia.

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Prolonged half-life and preserved enzymatic properties of factor IX selectively PEGylated on native N-glycans in the activation peptide

Østergaard¹,

Bjelke²,

Hansen

et al. 2011

129

133

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Current management of hemophilia B entails multiple weekly infusions of factor IX (FIX) to prevent bleeding episodes. In an attempt to make a longer acting recombinant FIX (rFIX), we have explored a new releasable protraction concept using the native N-glycans in the activation peptide as sites for attachment of polyethylene glycol (PEG). Release of the activation peptide by physiologic activators converted glycoPEGylated rFIX (N9-GP) to native rFIXa and proceeded with normal kinetics for FXIa, while the K m for activation by FVIIa-tissue factor (TF) was increased by 2-fold. Consistent with minimal perturbation of rFIX by the attached PEG, N9-GP retained 73%-100% specific activity in plasma and whole-blood-based assays and showed efficacy comparable with rFIX in stopping acute bleeds in hemophilia B mice. In animal models N9-GP exhibited up to 2-fold increased in vivo recovery and a markedly prolonged half-life in mini-pig (76 hours) and hemo- IntroductionFactor IX (FIX) is a vitamin K-dependent glycoprotein and an essential protease of the hemostatic system. The domain organization of FIX is shared with factors VII, X, and protein C and comprises an N-terminal domain rich in ␥-carboxyglutamic acid (Gla), 2 epidermal growth factor-like repeats and a C-terminal trypsin-like protease domain. 1 Together they form a 55-kDa single-chain protease precursor circulating in plasma at a concentration of approximately 90nM (5 g/mL), defined as 1 IU/mL. FIX is converted to the 2-chain activated form by the tissue factor (TF)-factor VIIa (FVIIa) complex or factor XIa (FXIa). Activation occurs by limited proteolysis at Arg145 and Arg180 in the protease domain and liberates a 35-amino acid activation peptide that carries the only 2 N-linked glycans in the protein. 2,3 Subsequent assembly of FIXa with the cofactor VIIIa on the activated platelet surface greatly enhances the proteolytic activity of FIXa toward its substrate factor X (FX) and is essential for propagation of the coagulation response. 4 The importance of this activity is reflected by the occurrence of the bleeding disorder hemophilia B (HB) in individuals carrying mutations in the FIX gene. The prevalence of HB is approximately 1 in 25 000 males, and it has been estimated that approximately 84 000 people are affected worldwide. 5 The mainstay in HB treatment is substitution therapy by infusion of plasma-derived or recombinant FIX (rFIX). The therapeutic goal is to prevent bleeding episodes and to provide safe and efficacious treatment of bleedings when they occur. Because of the relatively short half-life of FIX (18-24 hours [6][7][8] ), the recommended prophylaxis regimen consists of 2 to 3 weekly infusions of 40-100 IU/kg 9 FIX to maintain trough levels above 1% and thus shifting patients from a severe to a milder phenotype. When adhered to, prophylaxis in patients without severe joint disorder is efficacious with a frequency of only 0-2 breakthrough bleeds per year in the majority of patients. 8,10 However, the need for multiple weekly infusions present challen...

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Absence of hematopoietic tissue factor pathway inhibitor mitigates bleeding in mice with hemophilia

Maroney

Cooley

Ferrel

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Tissue factor pathway inhibitor (TFPI) blocks thrombin generation via the extrinsic blood coagulation pathway. Because the severe bleeding in patients with hemophilia occurs from deficiency of intrinsic blood coagulation pathway factor VIII or IX, pharmacological agents that inactivate TFPI and, therefore, restore thrombin generation via the extrinsic pathway, are being developed for treatment of hemophilia. Murine models of combined TFPI and factor VIII deficiency were used to examine the impact of TFPI deficiency on bleeding and clotting in hemophilia. In breeding studies, Factor VIII null (F8 −/− ) did not rescue the embryonic death of TFPI null (Tfpi −/− ) mice. Tfpi +/− did not alter the bleeding phenotype of F8 −/− mice. However, total inhibition of intravascular TFPI through injection of anti-TFPI antibody mitigated tail vein bleeding. Interestingly, tail blood loss progressively decreased at doses greater than needed to totally inhibit plasma TFPI, suggesting that inhibition of a sequestered pool of TFPI released at the injury site mitigates bleeding. Because TFPI is sequestered within platelets and released following their activation, the function of platelet TFPI was examined in F8 −/− mice lacking hematopoietic cell TFPI that was generated by fetal liver transplantation. Blood loss after tail transection significantly decreased in Tfpi +/− ;F8 −/− mice with hematopoietic Tfpi −/− cells compared with Tfpi +/− ;F8 −/− mice with Tfpi +/+ hematopoietic cells. Additionally, following femoral vein injury, Tfpi +/− ;F8 −/− mice with Tfpi −/− hematopoietic cells had increased fibrin deposition compared with identical-genotype mice with Tfpi +/+ hematopoietic cells. These findings implicate platelet TFPI as a primary physiological regulator of bleeding in hemophilia.hemostasis | Kunitz | coagulopathy

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Ibotenic acid and thioibotenic acid: a remarkable difference in activity at group III metabotropic glutamate receptors

Hermit

Greenwood

Nielsen

et al. 2004

European Journal of Pharmacology

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A factor VIIIa–mimetic bispecific antibody, Mim8, ameliorates bleeding upon severe vascular challenge in hemophilia A mice

Østergaard¹,

Lund²,

Greisen

et al. 2021

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Hemophilia A (HA) is a bleeding disorder resulting from deficient Factor VIII (FVIII), which normally functions as a cofactor to activated Factor IX (FIXa) that facilitates activation of Factor X (FX). To mimic this property in a bispecific antibody (biAb) format, a screening was conducted to identify functional pairs of anti-FIXa and anti-FX antibodies, followed by optimization of functional and biophysical properties. The resulting biAb (Mim8) assembled efficiently with FIXa and FX on membranes, and supported activation with an apparent equilibrium dissociation constant (KD) of 16 nM. Binding affinity with FIXa and FX in solution was much lower, with KD-values for FIXa and FX of 2.3 and 1.5 µM, respectively. In addition, the activity of Mim8 was dependent on stimulatory activity contributed by the anti-FIXa arm, which enhanced the proteolytic activity of FIXa by four orders of magnitude. In hemophilia A plasma and whole blood, Mim8 normalized thrombin generation and clot formation with potencies 13 and 18 times higher than a sequence-identical analog of emicizumab, respectively. A similar potency difference was observed in a tail-vein transection model in hemophilia A mice, while reduction of bleeding in a severe tail-clip model was observed only for Mim8. Furthermore, the pharmacokinetics of Mim8 were investigated and a half-life of 14 days demonstrated in cynomolgus monkey. In conclusion, Mim8 is a FVIIIa-mimetic with a potent and efficacious hemostatic effect based on preclinical data.

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