Abstract
During antiviral immunity, MHC‑I molecules display endogenous peptides to CD8+ T‑cell receptors, prompting cytotoxic elimination of infected cells. The present study focused on dominant epitopes derived from the nucleocapsid protein (NP) of Hantaan virus (HTNV) and revealed their high affinity for the HLA‑I and H‑2 superfamilies. Through immunogenicity and conservation analyses, four selective epitopes were precisely identified. Molecular docking validated the binding characteristics of selective epitopes with MHC‑I molecules. Bidirectional hierarchical clustering analysis uncovered complex interaction patterns between NP 9‑mer peptides and MHC‑I haplotypes. Moreover, in‑depth investigation of 11 HTNV variants revealed three amino acid substitutions (I241S, E242A and F384I) within the four selective epitopes; however, these substitutions did not significantly affect the pan‑HLA‑I immunoreactivity of these epitopes. Safety assessments highlighted the potential of four selective epitopes for practical applications. Utilizing ELISpot, ELISA and flow cytometry, the immunogenicity of these selective epitopes was comprehensively confirmed. In summary, the present study thoroughly evaluated the pan‑MHC‑I immunoreactivity of HTNV NP, providing a robust foundation for developing effective epitope vaccines for population immunity.