Abstract
BackgroundInfluenza A viruses are responsible for seasonal epidemics and represent a constant pandemic threat. Influenza vaccines induce predominantly antibodies against the head region of hemagglutinin (HA) and are strain specific. Vaccine effectiveness is often suboptimal due to mismatch with drifting viruses and an inadequate immune response. Broadly neutralizing monoclonal antibodies (mAbs) targeting the conserved stem-region of HA may provide protection through multiple seasons and cover strains with pandemic potential. We report pre-clinical data on VIR-2482, a fully human anti-HA stem mAb with half-life extending Fc mutations.MethodsBinding of VIR-2482 to a panel of influenza HAs and neutralization of H1N1 and H3N2 viruses were measured by ELISA and microneutralization. Epitope conservation was evaluated using 49,462 HA sequences retrieved from GiSAID. Engagement of human FcγRs by VIR-2482 was assessed by biolayer interferometry. Antibody-dependendent cell-mediated cytoxicity (ADCC) was measured via in vitro killing of A549 cells expressing H1-HA glycoprotein by human NK cells. Complement-dependent cytotoxicity (CDC) was evaluated by incubating VIR-2482 with H1N1 infected cells in the presence of guinea pig complement. Protection studies were performed in Balb/c mice given VIR-2482 24h before intranasal infection with a lethal dose of H1N1 PR8 and H3N2 HK/68.ResultsVIR-2482 binds to the HA proteins representing all 18 influenza A HA subtypes and neutralizes a broad panel of H1N1 and H3N2 viruses spanning almost 100 years of evolution. Bioinformatic analysis revealed >98.8% conservation for the majority of key contact residues examined from sequences retrieved for H1N1 and H3N2 between 2009-2019. The half-life extending mutations in the Fc portion do not affect the ability of the antibody to engage FcγRIIIa, FcγRIIa, and C1q as evidenced by their lack of impact on ADCC and CDC in vitro. Prophylactic administration of VIR-2482 protects Balb/c mice from infection with lethal challenge doses of H1N1 and H3N2 viruses.ConclusionThe attributes of potency, broad recognition of a highly conserved epitope, retention of high-level effector functions in addition to half-life extension support the development of VIR-2482 as a universal prophylactic for influenza A illness.DisclosuresMatteo Samuele Pizzuto, PhD, VIR Biotechnology (Employee) Fabrizia Zatta, n/a, Vir Biotechnology (Employee) Andrea Minola, MS, Vir Biotechnology (Employee) Alessia Peter, n/a, Vir Biotechnology (Employee) Katja Culap, n/a, Vir Biotechnology (Employee) Leah Soriaga, PhD, Vir Biotechnology (Employee) Anna De Marco, n/a, Vir Biotechnology (Employee) Barbara Guarino, PhD, Vir Biotechnology (Employee) Nadia Passini, n/a, Vir Biotechnology (Employee) David K. Hong, MD, Vir Biotechnology (Employee) Fabio Benigni, PhD, Vir Biotechnology (Employee) Christy Hebner, PhD, Vir Biotechnology (Employee) Aurelio Bonavia, PhD, Vir Biotechnology (Employee) Davide Corti, PhD, Vir Biotechnology (Employee)
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