Evaluation of the immunogenicity of SARS-CoV-2 B cell epitopes

Sammanfattning: Background: The COVID-19 pandemic is caused by the SARS-CoV-2 virus, which enter the host cells through interactions between the receptor-binding domain (RBD) on the S-protein and the ACE-2 receptor on the host cell. A novel type of vaccine strategy is peptide vaccines, with great potential as a faster and more selective approach to conventional vaccine development. This study focuses on the possibility of generating an antibody response through synthetic peptides harboring B cell epitopes.  Aim: This project aims to investigate the potential of immunogenic peptides to generate an antibody response when used as synthetically produced peptides. As proof-of-concept, the project studies the interactions between previously identified monoclonal antibodies with defined B cell epitopes and the corresponding peptide sequences.  Method: The interactions are evaluated by different ELISA experiments. The candidate peptides are additionally investigated on their binding to polyclonal serum with established S reactive antibodies. Furthermore, the project includes synthesis of one peptide by solid phase peptide synthesis. Results: The ELISA experiments presented no interaction between the synthetic peptides and the monoclonal antibodies or human sera.  Conclusion: The project fulfilled its aim to study the interaction between the B cell epitopes and the monoclonal antibodies. However, no binding was observed. Despite the many advantages in production and stability, development of B cell epitope vaccines come with many challenges. Future will entail if synthetic peptides harboring B cell epitopes can be used as vaccines, or if peptide vaccines will be a focus when a T cell response is to be induced.