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Inherited human CARD9 deficiency impairs lymphoid cell, but not fibroblast, IL-17–mediated immunity
Erika Della Mina, Carlos G. El-Haddad, Timothy A. West, Clara W.T. Chung, Jing Jing Li, Vivienne Lea, Elissa K. Deenick, Filomeen Haerynck, Jean-Laurent Casanova, Anne Puel, Cindy S. Ma, Stuart G. Tangye, Alisa Kane
Erika Della Mina, Carlos G. El-Haddad, Timothy A. West, Clara W.T. Chung, Jing Jing Li, Vivienne Lea, Elissa K. Deenick, Filomeen Haerynck, Jean-Laurent Casanova, Anne Puel, Cindy S. Ma, Stuart G. Tangye, Alisa Kane
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Research Article Genetics Immunology Infectious disease

Inherited human CARD9 deficiency impairs lymphoid cell, but not fibroblast, IL-17–mediated immunity

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Abstract

Nearly 100 individuals have been identified who carry deleterious biallelic germline variants in CARD9 and experience life-threatening, invasive fungal infections caused by Ascomycetes but are otherwise resistant to other infectious agents. CARD9 is an adaptor protein expressed predominantly in myeloid cells, which functions downstream of dectin receptors, pattern recognition receptors for fungal antigens, to activate innate immune responses. The impact of CARD9 deficiency on lymphocytes, however, is less clear. We deciphered the functional consequences and delineated mechanisms of disease in a patient (P1) with a nonsense germline homozygous CARD9 variant (c.673A>T/p.K225*) and invasive Candida disease. P1’s PBMCs expressed truncated CARD9 and showed significantly reduced cytokine production in response to fungal ligands. P1 had reduced frequencies of circulating memory CD4+ TH17-like (CCR6+CXCR3–) cells. In addition, in vitro differentiation of P1’s naive CD4+ T cells into IL-17A/IL-17F–secreting cells was greatly impaired. Consistent with impaired responses of innate and adaptive immune cells from P1 in vitro, proportions of Candida-specific CD4+ T cells were strongly and selectively diminished. Our findings suggest that the CARD9 variant identified in P1 is pathogenic, affecting not only CARD9-induced immunity mediated by myeloid cells but also CD4+ T cell–intrinsic IL-17–dependent immunity and Candida-specific T cell responses.

Authors

Erika Della Mina, Carlos G. El-Haddad, Timothy A. West, Clara W.T. Chung, Jing Jing Li, Vivienne Lea, Elissa K. Deenick, Filomeen Haerynck, Jean-Laurent Casanova, Anne Puel, Cindy S. Ma, Stuart G. Tangye, Alisa Kane

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Figure 5

Defect in Candida-specific T cell response by P1’s CD4+ T cells.

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Defect in Candida-specific T cell response by P1’s CD4+ T cells.
HDs (n ...
HDs (n = 20), P1 CARD9K225* (n = 2 samples), P4 CARD9Q289* (n = 1), and P5 CARD9R70W (n = 1) patient PBMCs were stimulated in vitro with heat-killed C. albicans (HKCA) (A and B) or PHA (C and D). Frequency of Ag-specific CD4+ T cells measured by flow cytometry are reported. Total viable OX40+CD25+ CD4+ T cells upon HKCA (A) or PHA (C) were background-subtracted against nonstimulated culture (negative control). Brefeldin A was added during the last 4 hours of stimulation, and intracellular staining of IL-2, IFN-γ, TNF-α, IL-17A, and IL-17F cytokines was performed (B and D); frequency of cytokine-producing cells upon HKCA (B) or PHA (D) was background-subtracted against non-stimulated culture. ND, not detected. Each point represents a different individual (for HDs) or sample (P1, P4, and P5); mean ± SD for 3 independent experiments is shown.

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