AbstractIFN-γ is critical for the cure of leishmaniasis in humans and mice. BALB/c mice are genetically susceptible to infection with the visceralizing species of Leishmania, L. chagasi. We have evidence that a soluble factor(s) inhibits IFN-γ production by cultured liver granuloma cells from BALB/c mice during L. chagasi infection. In contrast, liver granulomas from C3H.HeJ mice, which are genetically resistant to L. chagasi infection, produce abundant IFN-γ. According to ELISAs and neutralization studies, there was not evidence that the Th2-type cytokines IL-10 or IL-4 contributed to IFN-γ suppression. However, both Ab neutralization and immunohistochemistry showed that granuloma-derived TGF-β was, at least in part, responsible for inhibiting IFN-γ release by CD4+ cells in BALB/c liver granuloma cultures. Consistently, TGF-β levels were high in liver granulomas from susceptible BALB/c mice but low in resistant C3H mice or in BALB/c mice that were immunized against L. chagasi disease. Administration of recombinant adenovirus expressing TGF-β (AdV-TGFβ) but not IL-10 (AdV-IL10) caused genetically resistant C3H mice to become significantly more susceptible to L. chagasi infection. In contrast, either AdV-TGFβ or AdV-IL10 could abrogate the protective immune response achieved by immunization of BALB/c mice. We conclude that locally secreted TGF-β inhibits Th1-associated cure of murine visceral leishmaniasis caused by L. chagasi, independently of Th2-type cytokines.