Multi-kingdom ecological drivers of microbiota assembly in preterm infants

生物 肠道菌群 微生物群 生态学 基因组 微生物 背景(考古学) 寄主(生物学) 微生物生态学 细菌 遗传学 免疫学 古生物学 基因
作者
Chitong Rao,Katharine Z. Coyte,Wayne Bainter,Raif S. Geha,Camilia R. Martin,Seth Rakoff-Nahoum
出处
期刊:Nature [Nature Portfolio]
卷期号:591 (7851): 633-638 被引量:358
标识
DOI:10.1038/s41586-021-03241-8
摘要

The gut microbiota of preterm infants develops predictably1–7, with pioneer species colonizing the gut after birth, followed by an ordered succession of microorganisms. The gut microbiota is vital to the health of preterm infants8,9, but the forces that shape these predictable dynamics of microbiome assembly are unknown. The environment, the host and interactions between microorganisms all potentially shape the dynamics of the microbiota, but in such a complex ecosystem, identifying the specific role of any individual factor is challenging10–14. Here we use multi-kingdom absolute abundance quantification, ecological modelling and experimental validation to address this challenge. We quantify the absolute dynamics of bacteria, fungi and archaea in a longitudinal cohort of 178 preterm infants. We uncover microbial blooms and extinctions, and show that there is an inverse correlation between bacterial and fungal loads in the infant gut. We infer computationally and demonstrate experimentally in vitro and in vivo that predictable assembly dynamics may be driven by directed, context-dependent interactions between specific microorganisms. Mirroring the dynamics of macroscopic ecosystems15–17, a late-arriving member of the microbiome, Klebsiella, exploits the pioneer microorganism, Staphylococcus, to gain a foothold within the gut. Notably, we find that interactions between different kingdoms can influence assembly, with a single fungal species—Candida albicans—inhibiting multiple dominant genera of gut bacteria. Our work reveals the centrality of simple microbe–microbe interactions in shaping host-associated microbiota, which is critical both for our understanding of microbiota ecology and for targeted microbiota interventions. Absolute microbial abundances delineate longitudinal dynamics of bacteria, fungi and archaea in the infant gut microbiome, uncovering drivers of microbiome development masked by relative abundances and revealing notable parallels to macroscopic ecosystem assemblies.
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