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Targeted inhibition of activated protein C by a non-active-site inhibitory antibody to treat hemophilia

Author

Listed:
  • Xiao-Yan Zhao

    (US Innovation Center, Bayer)

  • Andreas Wilmen

    (Biological Research, Bayer AG)

  • Dongli Wang

    (Tsinghua University)

  • Xinquan Wang

    (Tsinghua University)

  • Maxine Bauzon

    (US Innovation Center, Bayer)

  • Ji-Yun Kim

    (US Innovation Center, Bayer)

  • Lars Linden

    (Biological Research, Bayer AG)

  • Liang Li

    (Tsinghua University)

  • Ursula Egner

    (Structural Biology, Bayer AG)

  • Tobias Marquardt

    (Structural Biology, Bayer AG)

  • Dieter Moosmayer

    (Structural Biology, Bayer AG)

  • Jan Tebbe

    (Biological Research, Bayer AG)

  • Julian Marius Glück

    (Biological Research, Bayer AG)

  • Philipp Ellinger

    (Biological Research, Bayer AG)

  • Kirk McLean

    (US Innovation Center, Bayer)

  • Shujun Yuan

    (US Innovation Center, Bayer)

  • Subramanian Yegneswaran

    (US Innovation Center, Bayer)

  • Xiaoqiao Jiang

    (US Innovation Center, Bayer)

  • Vince Evans

    (US Innovation Center, Bayer)

  • Jian-Ming Gu

    (US Innovation Center, Bayer)

  • Doug Schneider

    (US Innovation Center, Bayer)

  • Ying Zhu

    (US Innovation Center, Bayer)

  • Yifan Xu

    (US Innovation Center, Bayer)

  • Cornell Mallari

    (US Innovation Center, Bayer)

  • Ashley Hesslein

    (Biological Development, Bayer)

  • Yan Wang

    (US Innovation Center, Bayer)

  • Nicole Schmidt

    (US Innovation Center, Bayer)

  • Katrin Gutberlet

    (Pathology/Toxicology, Bayer AG)

  • Christine Ruehl-Fehlert

    (Pathology/Toxicology, Bayer AG)

  • Alexius Freyberger

    (Pathology/Toxicology, Bayer AG)

  • Terry Hermiston

    (US Innovation Center, Bayer)

  • Chandra Patel

    (US Innovation Center, Bayer)

  • Derek Sim

    (US Innovation Center, Bayer)

  • Laurent O. Mosnier

    (The Scripps Research Institute)

  • Volker Laux

    (TRG-Cardiology/Hematology, Bayer AG)

Abstract

Activated protein C (APC) is a plasma serine protease with antithrombotic and cytoprotective functions. Based on the hypothesis that specific inhibition of APC’s anticoagulant but not its cytoprotective activity can be beneficial for hemophilia therapy, 2 types of inhibitory monoclonal antibodies (mAbs) are tested: A type I active-site binding mAb and a type II mAb binding to an exosite on APC (required for anticoagulant activity) as shown by X-ray crystallography. Both mAbs increase thrombin generation and promote plasma clotting. Type I blocks all APC activities, whereas type II preserves APC’s cytoprotective function. In normal monkeys, type I causes many adverse effects including animal death. In contrast, type II is well-tolerated in normal monkeys and shows both acute and prophylactic dose-dependent efficacy in hemophilic monkeys. Our data show that the type II mAb can specifically inhibit APC’s anticoagulant function without compromising its cytoprotective function and offers superior therapeutic opportunities for hemophilia.

Suggested Citation

  • Xiao-Yan Zhao & Andreas Wilmen & Dongli Wang & Xinquan Wang & Maxine Bauzon & Ji-Yun Kim & Lars Linden & Liang Li & Ursula Egner & Tobias Marquardt & Dieter Moosmayer & Jan Tebbe & Julian Marius Glück, 2020. "Targeted inhibition of activated protein C by a non-active-site inhibitory antibody to treat hemophilia," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16720-9
    DOI: 10.1038/s41467-020-16720-9
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