MAA868, a novel FXI antibody with a unique binding mode, shows durable effects on markers of anticoagulation in humans

Koch, Alexander W.; Schiering, Nikolaus; Melkko, Samu; Ewert, Stefan; Salter, Janeen; Zhang, Yiming; McCormack, P. D.; Yu, Jing; Huang, Xueming; Chiu, Yu‐Hsin; Chen, Zhiping; Schleeger, Simone; Horny, Geraldine; DiPetrillo, Keith; Muller, Lionel; Hein, Andreas; Villard, Frédéric; Scharenberg, Meike; Ramage, Paul; Hassiepen, Ulrich; Côté, Serge; DeGagne, Julie; Krantz, Carsten; Eder, Jörg; Stoll, Brian R.; Kulmatycki, Kenneth; Feldman, David L.; Hoffmann, Peter; Basson, Craig T.; Frost, Robert J.; Khder, Yasser

doi:10.1182/blood-2018-10-880849

Cited by 90 publications

(105 citation statements)

References 26 publications

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“…While these data suggest that the CAS contributes to the pathology of sepsis in humans, further study is needed before any major conclusions are drawn to determine if targeting this pathway could offer a meaningful benefit to septic patients. As multiple novel contact pathway inhibitors enter clinical testing, additional clinical investigations may begin to address this question …”

Section: Human Datamentioning

confidence: 99%

“…Finally, while contact pathway inhibition in general holds promise, it remains to be clarified which specific component(s) of this pathway should be targeted to optimize clinical outcomes. Phase 1 clinical trial data have now been published on 4 different monoclonal antibodies targeting FXI, all with unique mechanisms . Our group has worked extensively with 14E11/3G3, a monoclonal antibody inhibiting FXIIa‐mediated activation of FXI.…”

Section: Limitations and Remaining Questionsmentioning

confidence: 99%

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The contact pathway and sepsis

Raghunathan

Zilberman‐Rudenko

Olson

et al. 2019

Research and Practice in Thrombosis and Haemostasis

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The contact pathway factors XI (FXI) and XII (FXII) have been demonstrated to be largely dispensable for hemostasis, as their absence results in a mild to absent bleeding diathesis. A growing body of literature, however, suggests that the contact pathway contributes to the pathologic host response to certain infectious organisms that produces the often‐fatal syndrome known as sepsis. The contact pathway factors serve as a central node connecting inflammation to coagulation, and may offer a potentially safe therapeutic target to mitigate the morbidity and mortality associated with sepsis. Herein, we summarize published in vivo and in vitro data that have explored the roles of the contact pathway in sepsis, and discuss potential clinical applications of novel FXI‐ and FXII‐inhibiting drugs currently under investigation.

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Section: Human Datamentioning

confidence: 99%

Section: Limitations and Remaining Questionsmentioning

confidence: 99%

The contact pathway and sepsis

Raghunathan

Zilberman‐Rudenko

Olson

et al. 2019

Research and Practice in Thrombosis and Haemostasis

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“…[23][24][25][26][27] Thus, the search for safer anticoagulant drugs with little-to-none bleeding risk continues. Towards this goal, several FXI(a)-targeting agents are in development including small molecules (BMS-986177 and EP-7041), [35][36][37][38][39][40][41] monoclonal antibodies (AB023, MAA868, and Osocimab), [42][43][44][45] aptamers (FELIAP), [48,49] and sulfated glycosaminoglycan mimetics (SPGG and SCI). [54][55][56] Osocimab and BMS-986177, in particular, are currently in advanced clinical trials.…”

Section: Discussionmentioning

confidence: 99%

Discovery of Benzyl Tetraphosphonate Derivative as Inhibitor of Human Factor Xia

2020

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The inhibition of factor XIa (FXIa) is a trending paradigm for the development of new generations of anticoagulants without a substantial risk of bleeding. In this report, we present the discovery of a benzyl tetra-phosphonate derivative as a potent and selective inhibitor of human FXIa. Biochemical screening of four phosphonate/phosphate derivatives has led to the identification of the molecule that inhibited human FXIa with an IC 50 value of~7.4 μM and a submaximal efficacy of~68 %. The inhibitor was at least 14-fold more selective to FXIa over thrombin, factor IXa, factor Xa, and factor XIIIa. It also inhibited FXIa-mediated activation of factor IX and prolonged the activated partial thromboplastin time of human plasma. In Michaelis-Menten kinetics experiment, inhibitor 1 reduced the V MAX of FXIa hydrolysis of a chromogenic substrate without significantly affecting its K M suggesting an allosteric mechanism of inhibition. The inhibitor also disrupted the formation of FXIa-antithrombin complex and inhibited thrombin-mediated and factor XIIa-mediated formation of FXIa from its zymogen factor XI. Inhibitor 1 has been proposed to bind to or near the heparin/polyphosphate-binding site in the catalytic domain of FXIa. Overall, inhibitor 1 is the first benzyl tetraphosphonate small molecule that allosterically inhibits human FXIa, blocks its physiological function, and prevents its zymogen activation by other clotting factors under in vitro conditions. Thus, we put forward benzyl tetra-phosphonate 1 as a novel lead inhibitor of human FXIa to guide future efforts in the development of allosteric anticoagulants.

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“…MAA868 is a fully humanized monoclonal immunoglobulin G (IgG)1 antibody that binds the catalytic domain of both FXI and FXIa with high affinity, 11 preventing further activation of the coagulation pathway. Specifically, the Fab segments of MAA868 bind to the FXI enzymatic active site region in multiple locations, inducing a conformational change in the active site structure in both the FXI zymogen and FXIa, essentially locking FXI/FXIa in a zymogen-like state and preventing further procoagulant catalytic action.…”

Section: Drugs Targeting Catalytic Activity Of Fxia Maa868 (Monoclonamentioning

confidence: 99%

The Safety and Efficacy of Novel Agents Targeting Factors XI and XII in Early Phase Human Trials

DeLoughery

Olson

Puy

et al. 2019

Semin Thromb Hemost

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Although anticoagulation without hemorrhage is a primary aim, this vision has remained as yet out of reach. Even despite the superior safety profile of the direct oral anticoagulants, hemorrhage remains a major risk of anticoagulation. Selective inhibition of the contact pathway of coagulation, specifically coagulation factor XI (FXI) and/or factor XII (FXII), has now substantial epidemiologic and preclinical data supporting the notion that these factors contribute to pathologic thrombosis and are yet primarily dispensable for in vivo hemostasis. In this way, targeting FXI and FXII may revolutionize the future anticoagulation landscape. Several drugs are under development for this purpose, including: ISIS 416858, a FXI antisense oligonucleotide which impairs hepatic synthesis of FXI; MAA868, a monoclonal antibody that binds the procoagulant enzymatic site of both zymogen and activated FXI (FXIa); BAY 1213790, a monoclonal antibody that binds the procoagulant enzymatic site of FXIa only; and AB023, a monoclonal antibody that inhibits activated FXII-mediated activation of FXI, along with two small molecules in clinical trials. Each of these drugs have demonstrated favorable safety profiles in their phases 1 and 2 studies to date, with preclinical data also supporting efficacy of abrogating thrombosis in various animal models. Other benefits of some of these drugs include once-monthly dosing and safety in patients with renal or hepatic impairment, while others offer quickly metabolized parenteral options, thus providing more convenient and widely available anticoagulation options. Though still far from the marketplace, drugs targeting FXI and FXII have the potential to usher in a new era of anticoagulation therapy.

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MAA868, a novel FXI antibody with a unique binding mode, shows durable effects on markers of anticoagulation in humans

Cited by 90 publications

References 26 publications

The contact pathway and sepsis

The contact pathway and sepsis

Discovery of Benzyl Tetraphosphonate Derivative as Inhibitor of Human Factor Xia

The Safety and Efficacy of Novel Agents Targeting Factors XI and XII in Early Phase Human Trials

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