Abstract
Rift Valley Fever (RVF) poses a significant threat to livestock and human health, necessitating effective and safe vaccines. This study evaluated the immunogenicity and safety of novel inactivated RVF vaccines in sheep, enhanced with zinc oxide nanoparticles (ZnNPs) and selenium nanoparticles (SeNPs) as co-adjuvants, compared to an aluminum hydroxide gel (ALHV) adjuvanted vaccine alone. Our findings demonstrate that nanoparticle-formulated ALHV elicited a markedly faster onset of protection, achieving protective neutralizing antibody titers within 3–4 days post-vaccination, significantly accelerating immunity compared to approximately two weeks with ALHV alone. Furthermore, these enhanced formulations induced more robust and sustained humoral and IFN-γ responses, indicating superior activation of both antibody-mediated and cell-mediated immunity. The nanoparticle-enhanced vaccines also maintained long-lasting protection, extending the duration of protective antibody titers up to 11 months, compared to 10 months for ALHV alone. Beyond immunological benefits, these vaccines were safe, stable, and associated with improved growth performance in vaccinated sheep, particularly with ZnNPs. Biochemical analyses confirmed the absence of adverse effects on liver and kidney function, while showing beneficial increases in total protein and globulin levels. This study underscores the potential of SeNPs and ZnNPs as potent adjuvants for inactivated RVF vaccines, offering a promising strategy for developing more effective, rapidly protective, and durable vaccines against RVF and potentially other zoonotic diseases.