Efficacy of recombinant NP-M1 and NP-M1-CRT DNA vaccines against Influenza A viruses in mice C57/BL6

Abstract

AbstractEffective vaccination against the influenza virus remains a challenge because of antigenic shift and drift in influenza viruses. Conservation is an important feature of the Nucleoprotein (NP) and Matrix protein 1(M1) qualifying them as potential candidates for developing a universal vaccine against the influenza A virus. Carliticulin (CRT), a member of heat shock protein (HSP) family, are conserved and widely distributed in many microorganisms and mammalian cells. In this study, a plasmid vector encoding the NP-M1-CRT sequence was constructed and compared with the NP-M1 sequence with respect to immunogenicity and protective efficacy in a murine model. The potency of the created construct for provoking humoral, cellular immune responses, and its protective immunity against the lethal influenza virus infection were then compared with commercial split vaccine and then evaluated in a murine model system. NP-M1-CRT as a DNA vaccine combined with in vivo electroporation could significantly improve the immunogenicity of constructed vectors. Serological evaluations demonstrated the potency of our approach to provoke strong anti-NP specific antibody responses. Furthermore, our strategy of immunization in prime-boost groups were able to provide protection against lethal viral challenge using H1N1 subtype. The ease of production of these types of vectors and the fact that they would not require annual updating and manufacturing may provide an alternative cost-effective approach to limit the spread of potential pandemic influenza viruses.