J Strassburger scite author profile

Summary. BAY 59-7939 is an oral, direct Factor Xa (FXa) inhibitor in development for the prevention and treatment of arterial and venous thrombosis. BAY 59-7939 competitively inhibits human FXa (K i 0.4 nM) with > 10 000-fold greater selectivity than for other serine proteases; it also inhibited prothrombinase activity (IC 50 2.1 nM). BAY 59-7939 inhibited endogenous FXa more potently in human and rabbit plasma (IC 50 21 nM) than rat plasma (IC 50 290 nM). It demonstrated anticoagulant effects in human plasma, doubling prothrombin time (PT) and activated partial thromboplastin time at 0.23 and 0.69 lM, respectively. In vivo, BAY 59-7939 reduced venous thrombosis (fibrin-rich, platelet-poor thrombi) dose dependently (ED 50 0.1 mg kg )1 i.v.) in a rat venous stasis model. BAY 59-7939 reduced arterial (fibrinand platelet-rich) thrombus formation in an arteriovenous (AV) shunt in rats (ED 50 5.0 mg kg )1 p.o.) and rabbits (ED 50 0.6 mg kg )1 p.o.). Slight inhibition of FXa (32% at ED 50 ) reduced thrombus formation in the venous model; to affect arterial thrombosis in the rat and rabbit, stronger inhibition of FXa (74%, 92% at ED 50 ) was required. Calculated plasma levels in rabbits at the ED 50 were 14-fold lower than in the rat AV shunt model, correlating with the 14-fold lower IC 50 of FXa inhibition in rabbit compared with rat plasma; this may suggest a correlation between FXa inhibition and antithrombotic activity. Bleeding times in rats and rabbits were not significantly affected at antithrombotic doses (3 mg kg )1 p.o., AV shunt). Based on these results, BAY 59-7939 was selected for clinical development.

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Allosteric Inhibition as a New Mode of Action for BAY 1213790, a Neutralizing Antibody Targeting the Activated Form of Coagulation Factor XI

Schaefer

Buchmueller

Dittmer

et al. 2019

Journal of Molecular Biology

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A role for coagulation factor Xa in experimental pulmonary arterial hypertension

Delbeck

Nickel

Perzborn

et al. 2011

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Skin Wound Repair Is Not Altered in the Absence of Endogenous AnxA1 or AnxA5, but Pharmacological Concentrations of AnxA4 and AnxA5 Inhibit Wound Hemostasis

Kreft¹,

Klatt

Strassburger

et al. 2016

Cells Tissues Organs

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Skin injury induces the cell surface exposure of phosphatidylserine (PS) on damaged and dying cells to activate coagulation and repair processes. Annexins can bind to PS and may modulate the healing response. Here, we determine the relevance of annexins for skin wound healing using AnxA1- and AnxA5-deficient mice and recombinant annexins with distinct PS binding properties. Wound inflammation, closure and the formation of granulation tissue were not altered in AnxA1- or AnxA5-deficient mice or after increasing AnxA5 serum concentrations (100 nM) in wild-type mice. Increased serum concentrations (1 µM) of AnxA5 induced massive bleeding, but wound hemostasis was not delayed by AnxA1. Both annexins interact with PS, but only AnxA5 can form 2-dimensional (2D) arrays on the cell surface. The injection of an AnxA5 mutant that binds to PS but lacks the ability of 2D array formation failed to induce bleeding. 2D lattice-forming AnxA4, with high affinity to PS also caused bleeding, while hemostasis was not affected by AnxA8 with low affinity or the AnxA8 mutant with medium affinity for PS and the lack of 2D formation. Increased concentrations of AnxA4 and AnxA5 also delayed coagulation pathway activation in vitro. This effect was attenuated for the AnxA5 mutant as well as for AnxA1 and AnxA8. In conclusion, endogenous AnxA1 and AnxA5 are dispensable for wound hemostasis and repair, but pharmacologically excessive concentrations of AnxA4 and AnxA5 inhibit hemostasis in skin wounds.

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J Strassburger

In vitro and in vivo studies of the novel antithrombotic agent BAY 59-7939—an oral, direct Factor Xa inhibitor

Allosteric Inhibition as a New Mode of Action for BAY 1213790, a Neutralizing Antibody Targeting the Activated Form of Coagulation Factor XI

A role for coagulation factor Xa in experimental pulmonary arterial hypertension

Skin Wound Repair Is Not Altered in the Absence of Endogenous AnxA1 or AnxA5, but Pharmacological Concentrations of AnxA4 and AnxA5 Inhibit Wound Hemostasis

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