Compared to bacteria, the role of fungi within the intestinal microbiota is poorly understood. In this study we investigated whether the presence of a “healthy” fungal community in the gut is important for modulating immune function. Prolonged oral treatment of mice with antifungal drugs resulted in increased disease severity in acute and chronic models of colitis, and also exacerbated the development of allergic airway disease. Microbiota profiling revealed restructuring of fungal and bacterial communities. Specifically, representation of Candida spp. was reduced, while Aspergillus, Wallemia, and Epicoccum spp. were increased. Oral supplementation with a mixture of three fungi found to expand during antifungal treatment (Aspergillus amstelodami, Epicoccum nigrum, and Wallemia sebi) was sufficient to recapitulate the exacerbating effects of antifungal drugs on allergic airway disease. Taken together these results indicate that disruption of commensal fungal populations can influence local and peripheral immune responses and enhance relevant disease states.
Intestinal fungi are an important component of the microbiota, and recent studies have unveiled their potential in modulating host immune homeostasis and inflammatory disease. Nonetheless, the mechanisms governing immunity to gut mycobiota remain unknown. We identified CX3CR1+ mononuclear phagocytes (MNPs) as essential for the initiation of innate and adaptive immune responses to intestinal fungi. CX3CR1+ MNPs express antifungal receptors and activate antifungal responses in a Syk dependent manner. Genetic ablation of CX3CR1+ MNPs led to changes in the gut fungal communities and to severe colitis that was rescued by antifungal treatment. A missense mutation in the gene encoding CX3CR1 led to impaired antifungal responses in Crohn’s Disease patients. These results unravel the role of CX3CR1+ MNPs as mediators of the interactions between intestinal mycobiota and host immunity during health and disease.
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