Microlyse; a thrombolytic agent that targets VWF for clearance of microvascular thrombosis
de Maat, Steven; Clark, Chantal; Barendrecht, Arjan D; Smits, Simone; van Kleef, Nadine D; El Otmani, Hinde; Waning, Manon; van Moorsel, Marc Vincent Adriaan; Szardenings, Michael; Delaroque, Nicolas; Vercruysse, Kristof; Urbanus, Rolf T; Sebastian, Silvie; Lenting, Peter J; Hagemeyer, Christoph Eugen; Renné, Thomas; Vanhoorelbeke, Karen; Tersteeg, Claudia; Maas, Coen
(2022) Blood, volume 139, issue 4, pp. 597 - 607
(Article)
Abstract
Thrombotic microangiopathies are hallmarked by attacks of disseminated microvascular thrombosis. In thrombotic thrombocytopenic purpura (TTP), this is caused by a rise in thrombogenic ultra-large von Willebrand factor (VWF) multimers because of ADAMTS13 deficiency. We previously reported that systemic plasminogen activation is therapeutic in a TTP mouse model. In contrast to
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its natural activators (ie, tissue plasminogen activator and urokinase plasminogen activator [uPA]), plasminogen can directly bind to VWF. For optimal efficacy and safety, we aimed to focus and accelerate plasminogen activation at sites of microvascular occlusion. We here describe the development and characterization of Microlyse, a fusion protein consisting of a high-affinity V HH targeting the CT/CK domain of VWF and the protease domain of uPA, for localized plasminogen activation on microthrombi. Microlyse triggers targeted destruction of platelet-VWF complexes by plasmin on activated endothelial cells and in agglutination studies. At equal molar concentrations, Microlyse degrades microthrombi sevenfold more rapidly than blockade of platelet-VWF interactions with a bivalent humanized V HH (caplacizumab*). Finally, Microlyse attenuates thrombocytopenia and tissue damage (reflected by increased plasma lactate dehydrogenase activity, as well as PAI-1 and fibrinogen levels) more efficiently than caplacizumab* in an ADAMTS13 −/− mouse model of TTP, without affecting hemostasis in a tail-clip bleeding model. These findings show that targeted thrombolysis of VWF by Microlyse is an effective strategy for the treatment of TTP and might hold value for other forms of VWF-driven thrombotic disease.
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Keywords: Hematology, Biochemistry, Cell Biology, Immunology, Journal Article
ISSN: 0006-4971
Publisher: American Society of Hematology
Note: Funding Information: C.M. gratefully acknowledges the Landsteiner Foundation for Blood Transfusion Research (#LSBR 1520), the Netherlands Organization for Scientific Research (NWO, 2019/TTW/00695158), and the Circulatory Health Programme of the UMC Utrecht for the Utrecht-Leuven collaboration grant. S.d.M. gratefully acknowledges the TTW section of the Netherlands Organization for Scientific Research (NWO, 2019/TTW/00704802) and T.R. grants A11/SFB877, B08/SFB841, and P06/KFO306 of the German Research Foundation (DFG). The authors would like to thank Albert Huisman and Ms. Thea Hol-Muskee for assisting in VWF-FVIII complex determinations. The authors are grateful to Ms. Wariya Sanrattana for designing the visual abstract. Funding Information: C.M. gratefully acknowledges the Landsteiner Foundation for Blood Transfusion Research (#LSBR 1520), the Netherlands Organization for Scientific Research (NWO, 2019/TTW/00695158), and the Circulatory Health Programme of the UMC Utrecht for the Utrecht-Leuven collaboration grant. S.d.M. gratefully acknowledges the TTW section of the Netherlands Organization for Scientific Research (NWO, 2019/TTW/00704802) and T.R. grants A11/SFB877, B08/SFB841, and P06/KFO306 of the German Research Foundation (DFG). The authors would like to thank Albert Huisman and Ms. Thea Hol-Muskee for assisting in VWF-FVIII complex determinations. The authors are grateful to Ms. Wariya Sanrattana for designing the visual abstract. Publisher Copyright: © 2022 American Society of Hematology
(Peer reviewed)