Bevacizumab immune complexes activate platelets and induce thrombosis in FCGR2A transgenic mice

Abstract

Background: Treatment with Bevacizumab has been associated with arterial thromboembolism in colorectal cancer patients. However, the mechanism of this remains poorly understood, and preclinical testing in mice failed to predict thrombosis. Objective: We investigated whether thrombosis might be the result of platelet activation mediated via the FcγRIIa (IgG) receptor -which is not present on mouse platelets -and aimed to identify the functional roles of heparin and platelet surface localization in Bev-induced FcγRIIa activation. Methods and results: We found that Bev immunecomplexes (IC) activate platelets via FcγRIIa, and therefore attempted to reproduce this finding in vivo using FcγRIIa (hFcR) transgenic mice. Bev IC were shown to be thrombotic in hFcR mice in the presence of heparin. This activity required the heparin-binding domain of Bev's target, vascular endothelial growth factor (VEGF). Heparin promoted Bev IC deposition on to platelets in a mechanism similar to that observed with antibodies from patients with heparin-induced thrombocytopenia. When sub-active amounts of ADP or thrombin were used to prime platelets (simulating hypercoagulability in patients), Bev IC-induced dense granule release was significantly potentiated, and much lower (sub-therapeutic) heparin concentrations were sufficient for Bev IC-induced platelet aggregation. Conclusions: The prevailing rationale for thrombosis in Bev therapy is that VEGF blockade leads to vascular inflammation and clotting. However, we conclude that Bev can induce platelet aggregation, degranulation and thrombosis through complex formation with VEGF and activation of the platelet FcγRIIa receptor, and that this provides a better explanation for the thrombotic events observed in vivo. © 2009 International Society on Thrombosis and Haemostasis.