Murine models of Pneumocystis infection recapitulate human primary immune disorders
Waleed Elsegeiny, Mingquan Zheng, Taylor Eddens, Richard L. Gallo, Guixiang Dai, Giraldina Trevejo-Nunez, Patricia Castillo, Kara Kracinovsky, Hillary Cleveland, William Horne, Jonathan Franks, Derek Pociask, Mark Pilarski, John F. Alcorn, Kong Chen, Jay K. Kolls
Waleed Elsegeiny, Mingquan Zheng, Taylor Eddens, Richard L. Gallo, Guixiang Dai, Giraldina Trevejo-Nunez, Patricia Castillo, Kara Kracinovsky, Hillary Cleveland, William Horne, Jonathan Franks, Derek Pociask, Mark Pilarski, John F. Alcorn, Kong Chen, Jay K. Kolls
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Research Article Immunology Infectious disease

Murine models of Pneumocystis infection recapitulate human primary immune disorders

Abstract

Despite the discovery of key pattern recognition receptors and CD4+ T cell subsets in laboratory mice, there is ongoing discussion of the value of murine models to reflect human disease. Pneumocystis is an AIDS-defining illness, in which risk of infection is inversely correlated with peripheral CD4+ T cell counts. Due to medical advances in the control of HIV, the current epidemiology of Pneumocystis infection is predominantly due to primary human immunodeficiencies and immunosuppressive therapies. To this end, we found that every human genetic immunodeficiency associated with Pneumocystis infection that has been tested in mice recapitulated susceptibility. For example, humans with a loss-of-function IL21R mutation are severely immunocompromised. We found that IL-21R, in addition to CD4+ T cell intrinsic STAT3 signaling, were required for generating protective antifungal class-switched antibody responses, as well as effector T cell–mediated protection. Furthermore, CD4+ T cell intrinsic IL-21R/STAT3 signaling was required for CD4+ T cell effector responses, including IL-22 production. Recombinant IL-22 administration to Il21r–/– mice induced the expression of a fungicidal peptide, cathelicidin antimicrobial peptide, which showed in vitro fungicidal activity. In conclusion, SPF laboratory mice faithfully replicate many aspects of human primary immunodeficiency and provide useful tools to understand the generation and nature of effector CD4+ T cell immunity.

Authors

Waleed Elsegeiny, Mingquan Zheng, Taylor Eddens, Richard L. Gallo, Guixiang Dai, Giraldina Trevejo-Nunez, Patricia Castillo, Kara Kracinovsky, Hillary Cleveland, William Horne, Jonathan Franks, Derek Pociask, Mark Pilarski, John F. Alcorn, Kong Chen, Jay K. Kolls

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Figure 4

GM-CSF production by CD4+ T cells is required for successful immune response.

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GM-CSF production by CD4+ T cells is required for successful immune resp...
WT and Csf2–/– CD4+ T cells were adoptively transferred via i.v. injection to Rag1–/– mice 2 weeks prior to primary infection. Real-time PCR of whole lung RNA for (A) P. murina mitochondrial ribosomal RNA small subunit was performed to assess degree of P. murina burden, as well as on murine expression markers Arg1 (B), Nos2 (C), Signr4 (D), and Mrc1 (E). (F) Whole lung RNA was isolated from WT and WT CD4-depleted mice, which were infected with P. murina for 2 weeks. RNA was then sequenced using an Illumina NextSeq 500 and analyzed for differential expression of Signr family members (n = 4). (G) Representative images of P. murina inoculum incubated directly with human CD209-FC (hIgG4) recombinant protein and stained with DAPI (blue) and anti-hIgG4 (FITC). Values are represented as means ± SEM. A is a composite of 2 experiments. B–E and G are representative data of 2 experiments. F was performed once. P values are annotated as follows: *P ≤0.05, **P ≤0.01, ***P ≤0.001, and ****P ≤0.0001 (1-way ANOVA).