Strain phylogroup and environmental constraints shape Escherichia coli dynamics and diversity over a twenty-year human gut time series.

IF 10.8 1区 环境科学与生态学 Q1 ECOLOGY ISME Journal Pub Date : 2024-12-12 DOI:10.1093/ismejo/wrae245
Bénédicte Condamine, Thibaut Morel-Journel, Florian Tesson, Guilhem Royer, Mélanie Magnan, Aude Bernheim, Erick Denamur, François Blanquart, Olivier Clermont
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Abstract

Escherichia coli is an increasingly antibiotic-resistant opportunistic pathogen. Few data are available on its ecological and evolutionary dynamics in its primary commensal niche, the vertebrate gut. Using Illumina and/or Nanopore technologies, we sequenced whole genomes of 210 E. coli isolates from 22 stools sampled during a 20-year period from a healthy man (ED) living in Paris, France. All phylogroups, except C, were represented, with a predominance of B2 (34.3%), followed by A and F (19% each) phylogroups. Thirty-five clones were identified based on their haplogroup and pairwise genomic single nucleotide polymorphism distance and classified in three phenotypes according to their abundance and residence time: 25 sub-dominant/transient (52 isolates), five dominant/transient (48 isolates) and five dominant/resident (110 isolates). Four over five dominant/resident clones belonged to B2 and closely related F phylogroups, whereas sub-dominant/transient clones belonged mainly to B1, A and D phylogroups. The long residence times of B2 clones seemed to be counterbalanced by lower colonization abilities. Clones with larger within-host frequency persisted for longer. By comparing ED strain genomes to a collection of commensal E. coli genomes from 359 French individuals, we identified ED-specific genomic properties including an enrichment in genes involved in a metabolic pathway (mhp cluster) and the presence of a very rare antiviral defense island. The E. coli colonization within the gut microbiota was shaped by both the intrinsic properties of the strain lineages, in particular longer residence of phylogroup B2, and the environmental constraints such as diet or phages.

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大肠埃希菌是一种抗生素耐药性日益增强的机会性病原体。有关其在脊椎动物肠道这一主要共生生态位中的生态和进化动态的数据很少。利用 Illumina 和/或 Nanopore 技术,我们对生活在法国巴黎的一名健康男性(ED)20 年间从 22 份粪便样本中分离出的 210 个大肠杆菌进行了全基因组测序。除 C 型大肠杆菌外,所有系统群均有大肠杆菌,其中以 B2 型大肠杆菌居多(占 34.3%),其次是 A 型大肠杆菌和 F 型大肠杆菌(各占 19%)。根据单倍群和配对基因组单核苷酸多态性距离确定了 35 个克隆,并根据其丰度和驻留时间将其分为三种表型:25 个亚优势/瞬时型(52 个分离株)、5 个优势/瞬时型(48 个分离株)和 5 个优势/驻留型(110 个分离株)。五个优势/常驻克隆中有四个属于 B2 和密切相关的 F 系统群,而亚优势/瞬时克隆主要属于 B1、A 和 D 系统群。B2 克隆的驻留时间较长,但其定殖能力较低。宿主内频率较高的克隆持续时间较长。通过将 ED 菌株基因组与来自 359 个法国人的共生大肠杆菌基因组进行比较,我们发现了 ED 的特异性基因组特性,包括富含参与代谢途径(mhp 簇)的基因,以及存在一个非常罕见的抗病毒防御岛。大肠杆菌在肠道微生物群中的定植既受菌株品系固有特性的影响,尤其是噬菌体群 B2 的长期存在,也受饮食或噬菌体等环境因素的制约。
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来源期刊
ISME Journal
ISME Journal 环境科学-生态学
CiteScore
22.10
自引率
2.70%
发文量
171
审稿时长
2.6 months
期刊介绍: The ISME Journal covers the diverse and integrated areas of microbial ecology. We encourage contributions that represent major advances for the study of microbial ecosystems, communities, and interactions of microorganisms in the environment. Articles in The ISME Journal describe pioneering discoveries of wide appeal that enhance our understanding of functional and mechanistic relationships among microorganisms, their communities, and their habitats.
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