1. Complement Activation by an Anti-Dengue/Zika Antibody with Impaired Fcγ Receptor Binding Provides Strong Efficacy and Abrogates Risk of Antibody-Dependent Enhancement
- Author
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Zenjiro Sampei, Christine Xing’er Koo, Frannie Jiuyi Teo, Ying Xiu Toh, Taku Fukuzawa, Siok Wan Gan, Takeru Nambu, Adrian Ho, Kiyofumi Honda, Tomoyuki Igawa, Fariyal Ahmed, Cheng-I Wang, Katja Fink, and Junichi Nezu
- Subjects
antibody engineering ,Fc engineering ,anti-virus antibody ,complement ,C1q ,Fcγ receptor ,Immunologic diseases. Allergy ,RC581-607 - Abstract
To combat infectious diseases, vaccines are considered the best prophylactic strategy for a wide range of the population, but even when vaccines are effective, the administration of therapeutic antibodies against viruses could provide further treatment options, particularly for vulnerable groups whose immunity against the viruses is compromised. Therapeutic antibodies against dengue are ideally engineered to abrogate binding to Fcγ receptors (FcγRs), which can induce antibody-dependent enhancement (ADE). However, the Fc effector functions of neutralizing antibodies against SARS-CoV-2 have recently been reported to improve post-exposure therapy, while they are dispensable when administered as prophylaxis. Hence, in this report, we investigated the influence of Fc engineering on anti-virus efficacy using the anti-dengue/Zika human antibody SIgN-3C and found it affected the viremia clearance efficacy against dengue in a mouse model. Furthermore, we demonstrated that complement activation through antibody binding to C1q could play a role in anti-dengue efficacy. We also generated a novel Fc variant, which displayed the ability for complement activation but showed very low FcγR binding and an undetectable level of the risk of ADE in a cell-based assay. This Fc engineering approach could make effective and safe anti-virus antibodies against dengue, Zika and other viruses.
- Published
- 2023
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