15–1.5 μg of gag protein, induced a similar CD4+ T-cell response. In contrast, a comparable strong immune response could only be detected with a high concentration, 15 μg, of soluble gag p24 protein (Fig. 4A and B). To probe the essential role of DCs in T-cell priming in the intact animal, we ablated CD11chi DCs by administration of diphtheria toxin (DT), to CD11c-DTR bone marrow chimeras 36. The use of chimeras limits the toxicity of DT in CD11c-DTR mice. The CD11c-DTR and WT mice were treated with 100 ng of DT s.c. and 2 days later, at the time of vaccination, no DCs could be detected in spleen
and lymph nodes (Supporting Information Fig. 2). Following vaccination, CD4+ T-cell responses did not develop selleck chemicals llc if DCs were depleted with DT treatment of CD11c-DTR chimeras, whereas DT injection had no effect on nontransgenic WT bone marrow SAR245409 datasheet chimeras (Fig. 4B and C). Interestingly, depletion of CD11c+ cells had no effect on antibody responses (Fig. 4D). Thus the new GLA-SE adjuvant requires DCs for adaptive T-cell responses to take place but is less
dependent on DCs for inducing antibodies. To test whether GLA-SE induces DC maturation in vivo, mice were injected s.c. with 20 μg of GLA-SE, SE control emulsion or PBS. After 6 or 18 h, spleen and lymph nodes were harvested and expression of costimulatory molecules (CD40, CD80, and CD86) analyzed on CD11chi MHCII+ cells by flow cytometry as showed in Supporting Information Fig. 3. GLA-SE-treated splenic DCs upregulated the expression of costimulatory molecules, especially CD86, as early as 6 h after injection, while in lymph nodes upregulation of CD40, CD80, and CD86 was evident after 18 h (Fig. 5A). DC maturation was dependent on the GLA since injection of the emulsion alone (SE) did not upregulate costimulatory Quinapyramine molecules (Fig. 5A). In parallel experiments, to evaluate the profile of cytokines produced
by DCs 4 h after s.c. injection of 20 μg of GLA-SE or SE control emulsion, purified CD11chi MHCII+ cells were incubated for an additional 18 h in vitro. As expected, the stimulated splenic DCs produced many inflammatory cytokines, in particular IL-12p70 (Fig. 5B). Therefore GLA induces two cardinal features of DC maturation, changes in cell surface costimulatory molecules and production of IL-12p70 and other cytokines. Since the magnitude and the nature of the T-cell response depends, to a large extent, on the presence of costimulatory molecules, such as CD80, CD86, and CD40 37, 38 as well as the production of cytokines and chemokines by DCs 39, these findings indicate that GLA is stimulating the appropriate changes in DCs in vivo that should lead to immunization. As a first direct proof that DCs were functionally mature, i.e. immunogenic and able to find and activate rare clones of antigen-specific T cells, we sorted CD11c+ MHCII+ DCs from the spleen and lymph nodes 4 h after injecting mice with GLA-SE or SE as control.