Cryptococcus neoformans-Induced Macrophage Lysosome Damage Crucially Contributes to Fungal Virulence

Upon ingestion by macrophages, Cryptococcus neoformans can survive and replicate intracellularly unless the macrophages become classically activated. The mechanism enabling intracellular replication is not fully understood; neither are the mechanisms that allow classical activation to counteract replication. C. neoformans-induced lysosome damage was observed in infected murine bone marrow-derived macrophages, increased with time, and required yeast viability. To demonstrate lysosome damage in the infected host, we developed a novel flow cytometric method for measuring lysosome damage. Increased lysosome damage was found in C. neoformans-containing lung cells compared with C. neoformans-free cells. Among C. neoformans-containing myeloid cells, recently recruited cells displayed lower damage than resident cells, consistent with the protective role of recruited macrophages. The magnitude of lysosome damage correlated with increased C. neoformans replication. Experimental induction of lysosome damage increased C. neoformans replication. Activation of macrophages with IFN-gamma abolished macrophage lysosome damage and enabled increased killing of C. neoformans. We conclude that induction of lysosome damage is an important C. neoformans survival strategy and that classical activation of host macrophages counters replication by preventing damage. Thus, therapeutic strategies that decrease lysosomal damage, or increase resistance to such damage, could be valuable in treating cryptococcal infections.