bFGF peptide combined with the pVAX-8CpG plasmid as adjuvant is a novel anticancer vaccine inducing effective immune responses against Lewis lung carcinoma.

Due to the poor immunogenicity of subunit protein antigens, there is a need to use adjuvants in order to generate effective immune responses. Basic fibroblast growth factor (bFGF) is one of the best characterized pro-angiogenic cytokine and is a candidate target for anticancer therapy. We used truncated bFGF (tbFGF) combined with engineered pVAX-nCpG as novel adjuvant to immunize mice in order to inhibit tumor angiogenesis and suppress tumor growth. In our study, the results demonstrated that the mice immunized with tbFGF-alum-pVAX-8CpG produced a better tumor-suppression effect compared with the other groups, apart from the group treated with tbFGF-alum-CpG. In addition, the function of immune modulation of pVAX-8CpG was similar to CpG ODNs. The vaccine composed of tbFGF, alum and pVAX-8CpG effectively inhibited tumor angiogenesis and induced strong antitumor immune responses. The antitumor activity induced by the vaccine tbFGF-alum-pVAX-8CpG was not only associated with the antigen-specific antibody, but also with the killing activity of cytotoxic cells. This indicates that alum-pVAX-8CpG may be an innovative adjuvant for cancer vaccines.