Optimization of untranslated regions enhances antigen expression and immunogenicity of FMDV P12A3C mRNA vaccine.

Abstract

Foot-and-Mouth Disease (FMD) causes substantial economic losses to the global livestock industry annually. Current vaccines inadequately prevent infection and transmission of Foot-and-Mouth Disease Virus (FMDV), highlighting the urgent need for FMDV mRNA vaccines with enhanced immunogenicity and safety. The immunogenicity of mRNA vaccines is largely determined by sequence design, particularly the optimization of untranslated regions (UTRs), which significantly enhance mRNA stability and promote efficient antigen expression. In this study, eight UTR sequences were designed and evaluated using the enhanced green fluorescent protein (EGFP) reporter gene. Results showed that EGFP-UTR3 and EGFP-UTR8 performed best in protein expression. Subsequent integration of UTR3 and UTR8 into FMDV P12A3C mRNA revealed that P12A3C-UTR8 consistently achieved higher antigen expression across multiple cell models, elicited robust humoral and cellular immune responses in mice, and provided protection comparable to conventional inactivated vaccines in guinea pigs, indicating that UTR8 is a highly promising regulatory element for vaccine applications. Sequence analysis revealed that beyond the previously reported influence of the 5' UTR secondary structure, the GC content of the 3' UTR is strongly associated with mRNA translation efficiency. These findings elucidate the intrinsic link between UTR structure and function and provide critical theoretical support for optimizing FMDV mRNA vaccine and advancing novel vaccine development.