Anticryptococcal cytotoxicity of murine nonadherent cells is perforin and nonperforin mediated

NK and T cells play a pivotal role in host defense to Cryptococcus neoformans (C. neoformans) fungus which affects especially hosts with impaired cell mediated immunity. The vaccine against cryptococcosus is not developed yet, thus we established an animal BALB/c mice model to analyze anticryprococcal activity of immune cells. We detected that non-stimulated spleen mononuclear cells (MNC) from non-immunized mice have the capacity to exhibit anticriptococcal activity on the incapsulated C. neoformans strain (ATCC 34873) and this activity can be enhanced by non-adherent cells (NAC). In order to obtained antigen-specific anticryprococcal activity, MNC and NAC were stimulated in vitro with corpuscular (Ag1) or soluble (Ag2) C. neoformans antigen prepared from the acapsular strain Cap67 (ATCC 52817). In vitro stimulation of immune cells with both C. neoformans antigens enhanced the anticryptococcal activity of MNC and NAC. NAC fraction expressed the highest anticryptococcal activity, also in the presence and in the absence of accessory cells (AC). The highest anticryptococcal activity of effector cells was detected after immunization of mice with the same C. neoformans antigens and after additional stimulation of immune cells in vitro with the some antigens. These data demonstrated that growth inhibition of C. neoformans mediated by mice effector cells can be enhanced with corpuscular, as well as soluble antigens. Thus designin an animal model which is simple and reproducible and can be used for further studies and development of immunization strategies against human cryptococcosis

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Memory CD4+ T Cells Are Required for Optimal NK Cell Effector Functions against the Opportunistic Fungal Pathogen Pneumocystis murina

Kelly

Zheng

Ruan

et al. 2013

The Journal of Immunology

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Little is known about the role of NK cells or their interplay with other immune cells during opportunistic infections. Using our murine model of Pneumocystis pneumonia, we found that loss of NK cells during immunosuppression results in substantial Pneumocystis lung burden. During early infection of C57B/6 CD4+ T cell depleted mice, there were significantly less NK cells in the lung tissue compared to CD4+ T cell intact animals, and the NK cells present demonstrated decreased upregulation of the activation marker NKp46 and production of the effector cytokine, IFN-γ. Furthermore, co-incubation studies revealed a significant increase in fungal killing when NK cells were combined with CD4+ T cells compared to either cell alone which was coincident with a significant increase in perforin production by NK cells. Finally, however, we found through adoptive transfer that memory CD4+ T cells are required for significant NK cell upregulation of the activation marker NKG2D and production of IFN-γ, granzyme B and perforin during Pneumocystis infection. To the best of our knowledge, this study is the first to not only demonstrate a role for NK cells in immunity to Pneumocystis pneumonia, but also to establish a functional relationship between CD4+ T cells and NK cells in the host response to an opportunistic fungal pathogen.

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Anticryptococcal cytotoxicity of murine nonadherent cells is perforin and nonperforin mediated

Cited by 3 publications

References 40 publications

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Lack of a contact requirement for direct antibacterial activity of lymphocyte subpopulations in ginbuna crucian carp

A murine model for study of anticryptococcal activity mediated by cytotoxic immune cells: Role in immunization and human vaccine strategies

Memory CD4+ T Cells Are Required for Optimal NK Cell Effector Functions against the Opportunistic Fungal Pathogen Pneumocystis murina

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