Immune regulation by fungal strain diversity in inflammatory bowel disease

Xin V. Li, Irina Leonardi, Gregory G. Putzel, Alexa Semon, William D. Fiers, Takato Kusakabe, Woan Yu Lin, Iris H. Gao, Itai Doron, Alejandra Gutierrez-Guerrero, Meghan B. DeCelie, Guilhermina M. Carriche, Marissa Mesko, Chen Yang, Julian R. Naglik, Bernhard Hube, Ellen J. Scherl, Iliyan D. Iliev

Research output: Contribution to journalArticlepeer-review

153 Scopus citations

Abstract

The fungal microbiota (mycobiota) is an integral part of the complex multikingdom microbial community colonizing the mammalian gastrointestinal tract and has an important role in immune regulation1–6. Although aberrant changes in the mycobiota have been linked to several diseases, including inflammatory bowel disease3–9, it is currently unknown whether fungal species captured by deep sequencing represent living organisms and whether specific fungi have functional consequences for disease development in affected individuals. Here we developed a translational platform for the functional analysis of the mycobiome at the fungal-strain- and patient-specific level. Combining high-resolution mycobiota sequencing, fungal culturomics and genomics, a CRISPR–Cas9-based fungal strain editing system, in vitro functional immunoreactivity assays and in vivo models, this platform enables the examination of host–fungal crosstalk in the human gut. We discovered a rich genetic diversity of opportunistic Candida albicans strains that dominate the colonic mucosa of patients with inflammatory bowel disease. Among these human-gut-derived isolates, strains with high immune-cell-damaging capacity (HD strains) reflect the disease features of individual patients with ulcerative colitis and aggravated intestinal inflammation in vivo through IL-1β-dependent mechanisms. Niche-specific inflammatory immunity and interleukin-17A-producing T helper cell (TH17 cell) antifungal responses by HD strains in the gut were dependent on the C. albicans-secreted peptide toxin candidalysin during the transition from a benign commensal to a pathobiont state. These findings reveal the strain-specific nature of host–fungal interactions in the human gut and highlight new diagnostic and therapeutic targets for diseases of inflammatory origin.

Original languageEnglish
Pages (from-to)672-678
Number of pages7
JournalNature
Volume603
Issue number7902
DOIs
StatePublished - 24 Mar 2022
Externally publishedYes

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