%0 Journal Article
%T DNA prime-protein boost using subtype consensus Env was effective in eliciting neutralizing antibody responses against subtype BC HIV-1 viruses circulating in China.
%A Zhang M
%A Zhang L
%A Zhang C
%A Hong K
%A Shao Y
%A Huang Z
%A Wang S
%A Lu S
%J Hum Vaccin Immunother
%V 8
%N 11
%D Nov 2012 1
%M 23111170
%F 4.526
%R 10.4161/hv.21648
%X Previously, we have shown that DNA prime-protein boost is effective in eliciting neutralizing antibodies (NAb) against randomly selected HIV-1 isolates. Given the genetic diversity of HIV-1 viruses and the unique predominant subtypes in different geographic regions, it is critical to test the DNA prime-protein boost approach against circulating viral isolates in key HIV endemic areas. In the current study, the same DNA prime-protein boost vaccine was used as in previous studies to investigate the induction of NAb responses against HIV-1 clade BC, a major subtype circulating in China. A codon optimized gp120-BC DNA vaccine, based on the consensus envelope (Env) antigen sequence of clade BC, was constructed and a stable CHO cell line expressing the same consensus BC gp120 protein was produced. The immunogenicity of this consensus gp120-BC was examined in New Zealand White rabbits by either DNA prime-protein boost or protein alone vaccination approaches. High levels of Env-specific antibody responses were elicited by both approaches. However, DNA prime-protein boost but not the protein alone immune sera contained significant levels of NAb against pseudotyped viruses expressing HIV-1 BC Env antigens. Furthermore, high frequencies of CD4 binding site-targeted antibodies were found in the DNA prime- protein boost rabbit sera indicating that the positive NAb may be the result of antibodies against conformationally sensitive epitopes on HIV-1 Env. The findings support that DNA prime-protein boost was effective in eliciting NAb against a key HIV-1 virus subtype in China. This result may lead to the development of regional HIV vaccines through this approach.