Heterologous expression, purification and characterization of the influenza A virus M2e gene fused to Mycobacterium tuberculosis HSP70359-610 in prokaryotic system as a fusion protein

One of the concerns about influenza A vaccine based on M2e protein is their limited potency; hence, optimal approaches to enhance immunogenicity of M2e protein immunization remain to be established. It seems by linking this M2e-peptide to an appropriate carrier such as mycobacterium tuberculosis C-terminal 28-kDa domain of HSP70 (HSP70(359-610)), we can render it very immunogenic. According to previous reports, this study was designed to produce a novel influenza A virus recombinant fusion protein consisted of M2e, a potent immunogenic protein from influenza A virus, fused to C-terminal domain of mycobacterium tuberculosis HSP70, HSP70(359-610), as a carrier and adjuvant. We fused the genes of M2e and HSP70 (359-610) then inserted in pQE-60, prokaryotic expression vector. This recombinant fusion protein with a 6xHis-tag was successfully over expressed in Escherichia coli M-15. The recombinant fusion protein was purified by Ni-NTA affinity chromatography under denaturing conditions, followed by urea gradient dialysis. The purified fusion protein was analyzed on SDS-PAGE. Western blot assay was used to examine the immunoreaction of the expressed protein using commercial penta-His HRP conjugate antibody. The antigenicity and biological activity of the recombinant protein was also qualitatively detected on the infected MDCK cells surface by immunofluorescence and cell-ELISA assay using rabbit's immunized antiserum. This observation suggest that the expressed fusion protein is useful as a universal recombinant vaccine for overcoming highly mutational influenza virus, but more immunological study in animal lab remains to be evaluated.