Multivalency transforms SARS-CoV-2 antibodies into ultrapotent neutralizers.
Edurne RujasIga KucharskaYong Zi TanSamir BenlekbirHong CuiTiantian ZhaoGregory A WasneyPatrick BudylowskiFurkan GuvencJocelyn C NewtonTaylor SicardAnthony SemesiKrithika MuthuramanAmy NouanesengsyClare Burn AschnerKatherine PrietoStephanie A BuelerSawsan YoussefSindy Liao-ChanJacob GlanvilleNatasha Christie-HolmesSamira MubarekaScott D Gray-OwenJohn L RubinsteinBebhinn TreanorJean-Philippe JulienPublished in: Nature communications (2021)
SARS-CoV-2, the virus responsible for COVID-19, has caused a global pandemic. Antibodies can be powerful biotherapeutics to fight viral infections. Here, we use the human apoferritin protomer as a modular subunit to drive oligomerization of antibody fragments and transform antibodies targeting SARS-CoV-2 into exceptionally potent neutralizers. Using this platform, half-maximal inhibitory concentration (IC50) values as low as 9 × 10-14 M are achieved as a result of up to 10,000-fold potency enhancements compared to corresponding IgGs. Combination of three different antibody specificities and the fragment crystallizable (Fc) domain on a single multivalent molecule conferred the ability to overcome viral sequence variability together with outstanding potency and IgG-like bioavailability. The MULTi-specific, multi-Affinity antiBODY (Multabody or MB) platform thus uniquely leverages binding avidity together with multi-specificity to deliver ultrapotent and broad neutralizers against SARS-CoV-2. The modularity of the platform also makes it relevant for rapid evaluation against other infectious diseases of global health importance. Neutralizing antibodies are a promising therapeutic for SARS-CoV-2.