Ana Popovic, Eric Yixiao Cao, Joanna Han, Nirvana Nursimulu, Eliza V C Alves-Ferreira, Kyle Burrows, Andrea Kennard, Noor Alsmadi, Michael E Grigg, Arthur Mortha, John Parkinson
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引用次数: 0
摘要
共生原生动物和肠道细菌群落之间的关系很复杂,至少部分是通过宿主免疫力来调节的。为了加深我们对这种三方相互作用的理解,我们研究了健康小鼠和 B 细胞缺陷小鼠体内小鼠原生动物麝香蓟马(Tritrichomonas musculus,Tmu)与肠道细菌之间的群落和功能动态。我们发现了原生动物驱动的常驻微生物群生长和活动的巨大重塑,与此同时,Tmu 的功能也发生了变化,在缺乏 B 细胞的情况下,这种变化会加速。元转录组数据揭示了细菌与原生动物之间基于营养的竞争。单细胞转录组学确定了不同的 Tmu 生命阶段,为滴虫的有性复制和假囊的形成提供了新的证据。通过显微镜和流式细胞术对独特的细胞状态进行了原位验证。我们的研究结果揭示了一种共生原生动物在肠道建立过程中复杂的微生物动态,并为推动未来的机理研究提供了宝贵的数据集。
Commensal protist Tritrichomonas musculus exhibits a dynamic life cycle that induces extensive remodeling of the gut microbiota
Commensal protists and gut bacterial communities exhibit complex relationships, mediated at least in part through host immunity. To improve our understanding of this tripartite interplay, we investigated community and functional dynamics between the murine protist Tritrichomonas musculus (Tmu) and intestinal bacteria in healthy and B cell-deficient mice. We identified dramatic, protist-driven remodeling of resident microbiome growth and activities, in parallel with Tmu functional changes, which were accelerated in the absence of B cells. Metatranscriptomic data revealed nutrient-based competition between bacteria and the protist. Single cell transcriptomics identified distinct Tmu life stages, providing new evidence for trichomonad sexual replication and the formation of pseudocysts. Unique cell states were validated in situ through microscopy and flow cytometry. Our results reveal complex microbial dynamics during the establishment of a commensal protist in the gut, and provide valuable datasets to drive future mechanistic studies.
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