Abstract

Adoptive dendritic cell (DC) immunotherapy provides a useful experimental tool to evaluate immunoregulation in vivo and has previously been successfully used to enhance host resistance in a variety of experimental models of leishmaniasis. Here, we used this approach to identify IL-6 and IL-12p40 as critical cytokines that cooperate to mediate host protection to Leishmania donovani but which act independently to regulate expansion of IL-10(+) CD4(+) T cells, shown here for the first time to be associated with this infection. Adoptive transfer of LPS-activated bone marrow-derived DC (BMDC) from wild-type mice was therapeutically beneficial and led to enhanced resistance as measured by spleen parasite burden. In contrast, IL-6- or IL-12p40-deficient BMDC had no protective benefit, indicating that production of both cytokines was essential for the therapeutic efficacy of DC. IL-10 production by CD25(-) FoxP3(-) IL-10(+) CD4(+) T cells is a strong correlate of disease progression, and BMDC from wild-type mice inhibited expansion of these cells. Strikingly, IL-12-deficient BMDC could also inhibit the expansion of this T cell population whereas IL-6-deficient BMDC could not, indicating that IL-6 played a key role in this aspect of DC function in vivo. Breadth of cytokine production is thus an important factor when considering strategies for DC-based interventions.