Toward a humanized mouse model of Pneumocystis pneumonia
Guixiang Dai, Alanna Wanek, Taylor Eddens, Paul Volden, Jay K. Kolls
Guixiang Dai, Alanna Wanek, Taylor Eddens, Paul Volden, Jay K. Kolls
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Research Article Infectious disease Pulmonology

Toward a humanized mouse model of Pneumocystis pneumonia

Abstract

Pneumocystis is an important opportunistic fungus that causes pneumonia in children and immunocompromised individuals. Recent genomic data show that divergence of major surface glycoproteins may confer speciation and host range selectivity. On the other hand, immune clearance between mice and humans is well correlated. Thus, we hypothesized that humanize mice may provide information about human immune responses involved in controlling Pneumocystis infection. CD34-engrafted huNOG-EXL mice controlled fungal burdens to a greater extent than nonengrafted mice. Moreover, engrafted mice generated fungal-specific IgM. Fungal control was associated with a transcriptional signature that was enriched for genes associated with nonopsonic recognition of trophs (CD209) and asci (CLEC7A). These same genes were downregulated in CD4-deficient mice as well as twins with bare lymphocyte syndrome with Pneumocystis pneumonia.

Authors

Guixiang Dai, Alanna Wanek, Taylor Eddens, Paul Volden, Jay K. Kolls

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Figure 4

Lung RNA-Seq.

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Lung RNA-Seq. A subgroup of huNOG-EXL mice appeared to clear/control Pne...
A subgroup of huNOG-EXL mice appeared to clear/control Pneumocystis murina better at 6 weeks after infection. The whole-lung RNA-Seq h3 and h4 mouse data were compared with those for h1, h5, and h2 mice. The results indicate that lower lung fungal burden was associated with higher CD209 gene expression. h1, h5, and h2 mice had higher lung fungal burdens compared with those of h4 and h3 mice (A). Differently expressed genes (B) and human CD209 gene mapping (C) are shown.