e To explore the efficacy of novel complementary prime-boost immunization regimens in a nonhuman primate model for HIV infection, rhesus monkeys primed by different DNA vaccines were boosted with virus-like particles (VLP) and then challenged by repeated low-dose rectal exposure to simian immunodeficiency virus (SIV). Characteristic of the cellular immune response after the VLP booster immunization were high numbers of SIV-specific, gamma interferon-secreting cells after stimulation with inactivated SIV particles, but not SIV peptides, and the absence of detectable levels of CD8 ؉ T cell responses. Antibodies specific to SIV Gag and SIV Env could be induced in all animals, but, consistent with a poor neutralizing activity at the time of challenge, vaccinated monkeys were not protected from acquisition of infection and did not control viremia. Surprisingly, vaccinees with high numbers of SIV-specific, gamma interferon-secreting cells were infected fastest during the repeated low-dose exposures and the numbers of these immune cells in vaccinated macaques correlated with susceptibility to infection. Thus, in the absence of protective antibodies or cytotoxic T cell responses, vaccine-induced immune responses may increase the susceptibility to acquisition of immunodeficiency virus infection. The results are consistent with the hypothesis that virus-specific T helper cells mediate this detrimental effect and contribute to the inefficacy of past HIV vaccination attempts (e.g., STEP study).
Immune escape mechanisms and the diversity of the circulating HIV strains pose many hurdles for the development of an effective HIV vaccine. In addition, testing the efficacy of HIV vaccines in clinical studies is time-consuming and costly. Therefore, only three vaccine strategies have been tested for efficacy in human volunteers so far. A recombinant protein vaccine based on the gp120 surface protein (AIDSVAX) did not provide protection (5, 13), although antibodies to the vaccine antigen were induced. The lack of efficacy was attributed to the absence of neutralizing antibodies. To explore the efficacy of cellular immune responses, volunteers were also immunized with adenoviral vectors carrying gag, pol, and nef of HIV. However, this did not provide protection either, and in a subgroup of volunteers with preexisting antibodies to the adenoviral vector the susceptibility to acquisition of HIV infection was increased (2). The third vaccine strategy tested for efficacy in human volunteers aimed at the induction of cellular and humoral immune responses by combining an avipox vector carrying gag, protease, and env with the AIDSVAX vaccine. The acquisition of HIV infection was reduced by approximately 30% (15), providing the first evidence that protection from HIV infection by vaccination may be possible.Since such an efficacy is probably too low for general use, we explored the efficacy of a novel complementary prime-boost immunization in nonhuman primates. In our previous study, we compared the immunogenicities of dendritic cell (DC)-ta...
