梭菌纲
生物
功能(生物学)
抗性(生态学)
计算生物学
微生物学
生态学
遗传学
作者
Shuchang Tian,Min Soo Kim,Jingcheng Zhao,Kerim Heber,Fuhua Hao,David Koslicki,Sangshan Tian,Vishal Singh,Andrew D. Patterson,Jordan E. Bisanz
标识
DOI:10.1016/j.chom.2025.02.007
摘要
Clostridioides difficile, a major cause of antibiotic-associated diarrhea, is suppressed by the gut microbiome, but the precise mechanisms are not fully described. Through a meta-analysis of 12 human studies, we designed a synthetic fecal microbiota transplant (sFMT1) by reconstructing microbial networks negatively associated with C. difficile colonization. This lab-built 37-strain consortium formed a functional community suppressing C. difficile in vitro and in animal models. Using sFMT1 as a tractable model system, we find that bile acid 7α-dehydroxylation is not a determinant of sFMT1 efficacy while one strain performing Stickland fermentation-a pathway of competitive nutrient utilization-is both necessary and sufficient for the suppression of C. difficile, replicating the efficacy of a human fecal transplant in a gnotobiotic mouse model. Our data illustrate the significance of nutrient competition in suppression of C. difficile and a generalizable approach to interrogating complex community function through robust methods to leverage publicly available sequencing data.
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