A human IgE bispecific antibody shows potent cytotoxic capacity mediated by monocytes
Vukovic N, Halabi S, Salvador Russo-Cabrera J, Blokhuis B, Berraondo P, Redegeld FAM, Zaiss DMW (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 298
Article Number: 102153
Journal Issue: 8
DOI: 10.1016/j.jbc.2022.102153
Abstract
The generation of bispecific antibodies (bsAbs) targeting two different antigens opens a new level of specificity and, compared to mAbs, improved clinical efficacy in cancer therapy. Currently, the different strategies for development of bsAbs primarily focus on IgG isotypes. Nevertheless, in comparison to IgG isotypes, IgE has been shown to offer superior tumor control in preclinical models. Therefore, in order to combine the promising potential of IgE molecules with increased target selectivity of bsAbs, we developed dual tumor-associated antigen-targeting bispecific human IgE antibodies. As proof of principle, we used two different pairing approaches - knobs-into-holes and leucine zipper–mediated pairing. Our data show that both strategies were highly efficient in driving bispecific IgE formation, with no undesired pairings observed. Bispecific IgE antibodies also showed a dose-dependent binding to their target antigens, and cell bridging experiments demonstrated simultaneous binding of two different antigens. As antibodies mediate a major part of their effector functions through interaction with Fc receptors (FcRs) expressed on immune cells, we confirmed FcεR binding by inducing in vitro mast cell degranulation and demonstrating in vitro and in vivo monocyte-mediated cytotoxicity against target antigen-expressing Chinese hamster ovary cells. Moreover, we demonstrated that the IgE bsAb construct was significantly more efficient in mediating antibody-dependent cell toxicity than its IgG1 counterpart. In conclusion, we describe the successful development of first bispecific IgE antibodies with superior antibody-dependent cell toxicity–mediated cell killing in comparison to IgG bispecific antibodies. These findings highlight the relevance of IgE-based bispecific antibodies for clinical application.
Involved external institutions
University of Edinburgh
United Kingdom (GB)
Universidad de Navarra
Spain (ES)
Universiteit Utrecht (UU) / Utrecht University
Netherlands (NL)
United Kingdom (GB)
Universidad de Navarra
Spain (ES)
Universiteit Utrecht (UU) / Utrecht University
Netherlands (NL)
How to cite
APA:
Vukovic, N., Halabi, S., Salvador Russo-Cabrera, J., Blokhuis, B., Berraondo, P., Redegeld, F.A.M., & Zaiss, D.M.W. (2022). A human IgE bispecific antibody shows potent cytotoxic capacity mediated by monocytes. Journal of Biological Chemistry, 298(8). https://doi.org/10.1016/j.jbc.2022.102153
MLA:
Vukovic, Natasa, et al. "A human IgE bispecific antibody shows potent cytotoxic capacity mediated by monocytes." Journal of Biological Chemistry 298.8 (2022).
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