Abstract
Single domain shark VNAR antibodies can offer a viable alternative to conventional Ig-based monoclonal antibodies in treating COVID-19 disease during the current pandemic. Here we report the identification of neutralizing single domain VNAR antibodies selected against the SARS-CoV-2 spike protein derived from the Wuhan variant using phage display. We identified 56 unique binding clones that exhibited high affinity and specificity to the spike protein. Of those, 10 showed an ability to block both the spike protein receptor binding domain from the Wuhan variant and the N501Y mutant from interacting with recombinant ACE2 receptor in vitro. In addition, 3 antibody clones retained in vitro blocking activity when the E484K spike protein mutant was used. The inhibitory property of the VNAR antibodies was further confirmed for all 10 antibody clones using ACE2 expressing cells with spike protein from the Wuhan variant. The viral neutralizing potential of the VNAR clones was also confirmed for the 10 antibodies tested using live Wuhan variant virus in in vitro cell infectivity assays. Single domain VNAR antibodies due to their low complexity, small size, unique epitope recognition and formatting flexibility should be a useful adjunct to existing antibody approaches to treat COVID-19.
Competing Interest Statement
AG, CVP, MD, FSW, JLR and PS were employees of Ossianix Inc. Ossianix Inc filled patents on the subject matter of this manuscript. This work was supported in part by a grant from the Pennsylvania Department of Community and Economic Development under the COVID-19 Pennsylvania Discoveries Program: Responding to SARS-CoV-2 Through Innovation & Commercialization (CV19-VTT). TG, AJK were employees of Karl-Franzens-University Graz and JR was employed by Medical University Graz. TG, AJK and JR work was supported by COVID-19 dedicated fund which was kindly provided by the rectorate and faculty of natural sciences of the Karl-Franzens-University of Graz.
- Abbreviations
- ACE2
- angiotensin converting enzyme 2
- CDR3
- complementarity-determining region 3
- HSA
- human serum albumin
- NTD
- N-terminal domain
- RBD
- receptor binding domain
- RT
- room temperature
- SEC
- size-exclusion chromatography
- VNAR
- variable domain of new antigen receptors
- S
- spike protein
- SARS-CoV-2
- severe acute respiratory syndrome coronavirus 2
- SDS-PAGE
- sodium dodecyl sulfate polyacrylamide gel electrophoresis