Mice immunized with AMH subunit vaccine generated high HspX-specific IgG2a and IgG1 as well as high IFN-γ

production with the stimulation of Ag85B and HspX. The antibodies target the extracellular mycobacteria through binding to live M. tuberculosis, which can alter the specific uptake pathway used for phagocytosis [22]. High IgG2a/IgG1 reflects Th1-skewing pathway that produces IFN-γ to promote intracellular microbicidal activities by activating INK 128 supplier macrophages and cytotoxic T cells [17]. AMM/AMH/AMM + AMH vaccine was designed to boost BCG-primed immunity to evaluate the capability of generating protective immunity. The results showed that only AMM + AMH boosting resulted in a significant decrease in CFUs in lung tissues compared with the BCG group. Although AMM vaccine was found to be a promising candidate, it could not reduce markedly the bacterial load compared with BCG in BCG-primed and subunit vaccine-boosted strategy. Although AMH alone could

not reduce significantly CFU in lung tissues of infected mice over that of BCG, when it was combined with AMM, interestingly, fewer CFUs were found than the BCG group. AMM might induce immunity to bacteria in active multiplication condition, but inclusion of AMH progestogen antagonist potentially induced immune protection against dormant bacteria. Because of the comprehensive immune protection against replicating and dormant M. tuberculosis, the multi-stage vaccine, AMM + AMH, induced the most obvious protective effect among the BCG, BCG plus Ag85B or AMM or AMH groups (Fig. 4). In conclusion, AMH vaccine could generate strong antigen-specific humoral and cell-mediated immunity. Only AMM + AMH boosting led to more pronounced M. tuberculosis clearance from the lungs of mice than BCG alone. Meanwhile, the vaccine induced higher immune responses and presented small lesions. The combination of fusion protein AMM and AMH containing antigens both from replicating and dormant M. tuberculosis may be a promising multi-stage vaccine to boost BCG primed immunity for better protective efficacy. This work was funded by the National Major Science and Technology Projects of China (2008ZX-10003-01305,

2008zx1000301104) and the National High Technology Research and Development Program of China (863 Program) (2006AA02z420). Phospholipase D1 “
“Efficient presentation of peptide-MHC class I (pMHC-I) complexes to immune T cells should benefit from a stable peptide-MHC-I interaction. However, it has been difficult to distinguish stability from other requirements for MHC-I binding, for example, affinity. We have recently established a high-throughput assay for pMHC-I stability. Here, we have generated a large database containing stability measurements of pMHC-I complexes, and re-examined a previously reported unbiased analysis of the relative contributions of antigen processing and presentation in defining cytotoxic T lymphocyte (CTL) immunogenicity [Assarsson et al., J. Immunol. 2007. 178: 7890–7901].