Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused a global pandemic. There are four structural proteins of the virus: spike, envelope, membrane, and nucleocapsid proteins. Various vaccines were designed and are effectively being used against the spike protein of the virus. However, several vaccine-related complications have been reported worldwide. Assuming that the structural integrity of the whole protein might be contributing to these complications, this study was performed to design epitopes using the S2 domain of the spike protein, which could trigger a strong immune response. We have also predicted antigenic and allergenic properties of the selected epitopes. A total of 49 B cell epitopes passing antigenicity and other assessment filters were found using three methods. Among them, RDLICAQ had the highest antigenicity score (1.1443). However, only one cytotoxic T lymphocyte epitope, RSFIEDLLF, passed the essential filters with an antigenicity score of 0.5782 to show an appropriate immune response for T cells, while among 21 helper T cell lymphocyte epitopes that were filtered, FAMQMAYRFNGIGVT showed the highest (1.3688) antigenicity score. Conservation analysis revealed that the S2 domain is significantly conserved, thus making it an ideal candidate for vaccine development. We have also designed a vaccine construct based on the best suiting components found during the whole study. This construct and S2 domain solely can be future subjects of interest or might be included in a subunit cocktail formulation for attaining unabridged immunogenicity.
Keywords: S2 domain; SARS-CoV-2; conservation analysis; epitope prediction; vaccine development.