Cryptococcal heat shock protein 70 homolog Ssa1 contributes to pulmonary expansion of Cryptococcus neoformans during the afferent phase of the immune response by promoting macrophage M2 polarization

Numerous virulence factors expressed by Cryptococcus neoformans modulate host defenses by promoting nonprotective Th2-biased adaptive immune responses. Prior studies demonstrate that the heat shock protein 70 homolog, Ssa1, significantly contributes to serotype D C. neoformans virulence through the...

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Bibliographic Details
Published in:The Journal of immunology (1950) 2015-06, Vol.194 (12), p.5999-6010
Main Authors: Eastman, Alison J, He, Xiumiao, Qiu, Yafeng, Davis, Michael J, Vedula, Priya, Lyons, Daniel M, Park, Yoon-Dong, Hardison, Sarah E, Malachowski, Antoni N, Osterholzer, John J, Wormley, Jr, Floyd L, Williamson, Peter R, Olszewski, Michal A
Format: Article
Language:English
Subjects:
Adaptive Immunity
Animals
Brain - metabolism
Brain - microbiology
Brain - pathology
Cryptococcosis - immunology
Cryptococcosis - metabolism
Cryptococcosis - mortality
Cryptococcosis - pathology
Cryptococcus neoformans
Cryptococcus neoformans - genetics
Cryptococcus neoformans - metabolism
Cytokines - metabolism
Disease Models, Animal
Female
Gene Expression Regulation, Fungal
HSP70 Heat-Shock Proteins - genetics
HSP70 Heat-Shock Proteins - metabolism
Immunity, Innate
Laccase - genetics
Laccase - metabolism
Leukocytes - immunology
Leukocytes - pathology
Lung Diseases, Fungal - immunology
Lung Diseases, Fungal - microbiology
Lung Diseases, Fungal - mortality
Lung Diseases, Fungal - pathology
Macrophage Activation - immunology
Macrophages - immunology
Mice
Mutation
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Summary:Numerous virulence factors expressed by Cryptococcus neoformans modulate host defenses by promoting nonprotective Th2-biased adaptive immune responses. Prior studies demonstrate that the heat shock protein 70 homolog, Ssa1, significantly contributes to serotype D C. neoformans virulence through the induction of laccase, a Th2-skewing and CNS tropic factor. In the present study, we sought to determine whether Ssa1 modulates host defenses in mice infected with a highly virulent serotype A strain of C. neoformans (H99). To investigate this, we assessed pulmonary fungal growth, CNS dissemination, and survival in mice infected with either H99, an SSA1-deleted H99 strain (Δssa1), and a complement strain with restored SSA1 expression (Δssa1::SSA1). Mice infected with the Δssa1 strain displayed substantial reductions in lung fungal burden during the innate phase (days 3 and 7) of the host response, whereas less pronounced reductions were observed during the adaptive phase (day 14) and mouse survival increased only by 5 d. Surprisingly, laccase activity assays revealed that Δssa1 was not laccase deficient, demonstrating that H99 does not require Ssa1 for laccase expression, which explains the CNS tropism we still observed in the Ssa1-deficient strain. Lastly, our immunophenotyping studies showed that Ssa1 directly promotes early M2 skewing of lung mononuclear phagocytes during the innate phase, but not the adaptive phase, of the immune response. We conclude that Ssa1's virulence mechanism in H99 is distinct and laccase-independent. Ssa1 directly interferes with early macrophage polarization, limiting innate control of C. neoformans, but ultimately has no effect on cryptococcal control by adaptive immunity.
ISSN:0022-1767
1550-6606
DOI:10.4049/jimmunol.1402719