菌类
生物
免疫系统
炎症性肠病
微生物学
白色念珠菌
肠道菌群
人体胃肠道
免疫学
疾病
白色体
遗传学
细菌
医学
病理
生态学
作者
Xin Li,Irina Leonardi,Gregory Putzel,Alexa Semon,William D. Fiers,Takato Kusakabe,Woan-Yu Lin,Iris H. Gao,Itai Doron,Alejandra Gutiérrez-Guerrero,Meghan Bialt DeCelie,Guilhermina M. Carriche,Marissa Mesko,Chen Yang,Julian R. Naglik,Bernhard Hube,Ellen Scherl,Iliyan D. Iliev
出处
期刊:Nature
[Nature Portfolio]
日期:2022-03-16
卷期号:603 (7902): 672-678
被引量:262
标识
DOI:10.1038/s41586-022-04502-w
摘要
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.
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