Depletion of alveolar macrophages decreases the dissemination of a glucosylceramide-deficient mutant of Cryptococcus neoformans in immunodeficient mice.

In previous studies we showed that a Cryptococcus neoformans mutant lacking glucosylceramide (Deltagcs1) is avirulent and unable to reach the brain when it is administered intranasally into an immunocompetent mouse and is contained in a lung granuloma. To determine whether granuloma formation is key for containment of C. neoformans Deltagcs1, we studied the role of C. neoformans glucosylceramide in a T- and NK-cell-immunodeficient mouse model (Tgepsilon26) in which alveolar macrophages (AMs) are not activated and granuloma formation is not expected. The results show that Tgepsilon26 mice infected with Deltagcs1 do not produce a lung granuloma and that the Deltagcs1 mutant proliferates in the lungs and does disseminate to the brain, although its virulence phenotype is dramatically reduced. Since Deltagcs1 can grow only in acidic niches, such as the phagolysosome of AMs, and not in neutral or alkaline environments, such as the extracellular spaces, we hypothesize that in immunodeficient mice Deltagcs1 proliferates inside AMs. Indeed, we found that depletion of AMs significantly improved Tgepsilon26 mouse survival and decreased the dissemination of Deltagcs1 cells to the central nervous system. Thus, these results suggest that the growth of Deltagcs1 in immunodeficient mice is maintained within AMs. This study highlights the hypothesis that AMs may exacerbate C. neoformans infection in conditions in which there is severe host immunodeficiency.