Phagosomal F-Actin Retention by Cryptococcus gattii Induces Dendritic Cell Immunoparalysis
Khusraw Jamil, Maria J. Polyak, David Feehan, Philip Surmanowicz, Danuta Stack, Shu Shun Li, Henry Ogbomo, Michal A. Olszewski, Anutosh Ganguly, Christopher H. Mody
Abstract
Cryptococcus yeast species typically display characteristics of opportunistic pathogens, with the exception of C. gattii , which can cause life-threatening respiratory and disseminated brain infections in otherwise healthy people. The pathogenesis of C. gattii is not well understood, but an important characteristic is that C. gattii is capable of evading host cell-mediated immune defenses initiated by DCs. Here, we report that when virulent C. gattii becomes ingested by a DC, the intracellular compartment containing the fungi is covered by a persistent protein cage structure consisting of F-actin. This F-actin cage acts as a barrier to prevent interaction with other intracellular compartments, and as a result, the DC fails to kill the fungi and activate important cell-mediated immune responses. We propose that this unique immune evasion mechanism permits C. gattii to remain unchallenged within host cells, leading to persistent infection.