An IL-17F. S65L knock-in mouse reveals similarities and differences in IL-17F function in oral candidiasis: a new tool to understand IL-17F

C Zhou, L Monin, R Gordon, FEY Aggor… - The Journal of …, 2020 - journals.aai.org
C Zhou, L Monin, R Gordon, FEY Aggor, R Bechara, TN Edwards, DH Kaplan, S Gingras
The Journal of Immunology, 2020journals.aai.org
Oropharyngeal candidiasis (OPC) is an opportunistic infection of the oral mucosa caused by
the commensal fungus Candida albicans. IL-17R signaling is essential to prevent OPC in
mice and humans, but the individual roles of its ligands, IL-17A, IL-17F, and IL-17AF, are
less clear. A homozygous IL-17F deficiency in mice does not cause OPC susceptibility,
whereas mice lacking IL-17A are moderately susceptible. In humans, a rare heterozygous
mutation in IL-17F (IL-17F. S65L) was identified that causes chronic mucocutaneous …
Abstract
Oropharyngeal candidiasis (OPC) is an opportunistic infection of the oral mucosa caused by the commensal fungus Candida albicans. IL-17R signaling is essential to prevent OPC in mice and humans, but the individual roles of its ligands, IL-17A, IL-17F, and IL-17AF, are less clear. A homozygous IL-17F deficiency in mice does not cause OPC susceptibility, whereas mice lacking IL-17A are moderately susceptible. In humans, a rare heterozygous mutation in IL-17F (IL-17F. S65L) was identified that causes chronic mucocutaneous candidiasis, suggesting the existence of essential antifungal pathways mediated by IL-17F and/or IL-17AF. To investigate the role of IL-17F and IL-17AF in more detail, we exploited this “experiment of nature” by creating a mouse line bearing the homologous mutation in IL-17F (Ser65Leu) by CRISPR/Cas9. Unlike Il17f−/− mice that are resistant to OPC, Il17f S65L/S65L mice showed increased oral fungal burdens similar to Il17a−/− mice. In contrast to humans, however, disease was only evident in homozygous, not heterozygous, mutant mice. The mutation was linked to modestly impaired CXC chemokine expression and neutrophil recruitment to the infected tongue but not to alterations in oral antimicrobial peptide expression. These findings suggest mechanisms by which the enigmatic cytokine IL-17F contributes to host defense against fungi. Moreover, because these mice do not phenocopy Il17f−/− mice, they may provide a valuable tool to interrogate IL-17F and IL-17AF function in vivo in other settings.
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