A CARD9 deficiency mouse model recapitulates human chronic CNS candidiasis identifying defective monocytic cell responses in immunopathogenesis
Marija Landekic, Isabelle Angers, Yongbiao Li, Marie-Christine Guiot, Marc-André Déry, Annie Beauchamp, Lucie Roussel, Annie Boisvert, Wen Bo Zhou, Christina Gavino, Julia Luo, Stéphane Bernier, Makayla Kazimerczak-Brunet, Yichun Sun, Brendan Snarr, Michail S. Lionakis, Robert T. Wheeler, Irah L. King, Salman T. Qureshi, Maziar Divangahi, Donald C. Vinh
Marija Landekic, Isabelle Angers, Yongbiao Li, Marie-Christine Guiot, Marc-André Déry, Annie Beauchamp, Lucie Roussel, Annie Boisvert, Wen Bo Zhou, Christina Gavino, Julia Luo, Stéphane Bernier, Makayla Kazimerczak-Brunet, Yichun Sun, Brendan Snarr, Michail S. Lionakis, Robert T. Wheeler, Irah L. King, Salman T. Qureshi, Maziar Divangahi, Donald C. Vinh
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Research Article Genetics Immunology

A CARD9 deficiency mouse model recapitulates human chronic CNS candidiasis identifying defective monocytic cell responses in immunopathogenesis

Abstract

Human Caspase Recruitment Domain Containing Protein 9 (CARD9) deficiency predisposes to invasive fungal disease, particularly by Candida spp. CARD9 deficiency causes chronic central nervous system (CNS) candidiasis. Currently, no animal model recapitulates the chronicity of disease, precluding a better understanding of immunopathogenesis. We established a knock-in mouse homozygous for the recurring p.Y91H mutation (Y91HKI) and, in parallel to Card9-/– mice, titrated the intravenous fungal inoculum to the CARD9 genotype to develop a model of chronic invasive candidiasis. Strikingly, CARD9-deficient mice had predominantly CNS involvement, with neurological symptoms appearing late during infection and progressive brain fungal burden in the absence of fulminant sepsis, reflecting the human syndrome. Mononuclear cell aggregation at fungal lesions in the brain correlated with increased MHCII+Ly6C+ monocyte numbers at day 1 after infection in WT and Y91HKI mice, but not in Card9-/– mice. At day 4 after infection, neutrophils and additional Ly6C+ monocytes were recruited to the CARD9-deficient brain. As in humans, Y91HKI mutant mice demonstrated cerebral multinucleated giant cells and granulomata. Subtle immunologic differences between the hypomorphic (p.Y91H) and null mice were noted, perhaps explaining some of the variability seen in humans. Our work established a disease-recapitulating animal model to specifically decipher chronic CNS candidiasis due to CARD9 deficiency.

Authors

Marija Landekic, Isabelle Angers, Yongbiao Li, Marie-Christine Guiot, Marc-André Déry, Annie Beauchamp, Lucie Roussel, Annie Boisvert, Wen Bo Zhou, Christina Gavino, Julia Luo, Stéphane Bernier, Makayla Kazimerczak-Brunet, Yichun Sun, Brendan Snarr, Michail S. Lionakis, Robert T. Wheeler, Irah L. King, Salman T. Qureshi, Maziar Divangahi, Donald C. Vinh

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Figure 3

Low-dose i.v. inoculation as a model of chronic CNS candidiasis caused by CARD9 deficiency.

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Low-dose i.v. inoculation as a model of chronic CNS candidiasis caused b...
(A) Kaplan-Meier curve of mice infected with C. albicans. B6N: n = 6–8; Y91HKI: n = 8–13 mice per group; 2 experiments pooled. (B) Kaplan-Meier curve of mice infected with 1 × 103 C. albicans. n = 11–15 per group; 3 experiments pooled. *P < 0.05; **P < 0.01 by the log-rank test. (C) Brain burden after 1 × 103 C. albicans challenge. n = 6–11 mice, 3 experiments pooled. Two-way ANOVA with Tukey’s test. ***P < 0.001. Data are shown as mean ± SEM. (D) Representative images of skull distention. Gross comparison of the head of a Y91HKI mouse that reached weight loss endpoint and a Card9–/– mouse that reached endpoint from severe skull distention and morbidity. Arrows and dotted line are visual aids, highlighting the differences in skull morphology. CT scan of a Card9–/– mouse skull at day 22 p.i. with skull distention is shown. Arrows indicate areas where the skull has lost integrity. (E) Prevalence of phenotypes observed in mice from B. No symptoms were observed in surviving mice.