生物
屎肠球菌
转座因子
基因组
遗传学
插入顺序
适应(眼睛)
基因组
进化动力学
病菌
肠球菌
毒力
微生物群
宿主适应
计算生物学
实验进化
全基因组测序
基因组进化
转座酶
基因
进化生物学
流动遗传元素
微生物学
DNA测序
人类病原体
顺序装配
细菌基因组大小
外显子组测序
微生物遗传学
模式生物
基因组学
深度测序
作者
Matthew P. Grieshop,Aaron A. Behr,Sierra Bowden,Jordan D. Lin,Marco Molari,Gabriella Z. M. Reynolds,Erin F. Brooks,Boryana Doyle,Ashley A. Moore,G. Rodriguez-Nava,Jorge L. Salinas,Niaz Banaei,Ami S. Bhatt
出处
期刊:Nature
[Nature Portfolio]
日期:2026-04-22
卷期号:653 (8116): 1139-1147
被引量:4
标识
DOI:10.1038/s41586-026-10373-2
摘要
Bacterial pathogens adapt rapidly to clinical and within-host selective pressures1. Insertion sequences (IS) are transposable elements that can contribute to pathogenic adaptation2, but their activity and consequences in contemporary clinical populations are not well characterized. Here, combining large-scale genomic surveys with long-read sequencing of clinical isolates and longitudinal gut metagenomes, we quantify pathogen IS dynamics from global patterns to within-host evolution. Across 19,485 publicly available high-contiguity ESKAPEE pathogen genomes, Enterococcus faecium genomes are the most IS dense, dominated by replicative ISL3 family elements, which have proliferated in clinical lineages over the past 30 years. We find extensive chromosomal structural variation, largely involving ISL3, within a new single-hospital collection of bloodstream isolates. Long-read metagenomic sequencing of 28 longitudinal stool samples from 12 haematopoietic cell transplantation (HCT) recipients demonstrates within-host IS dynamics and their regulatory consequences. In one patient, an ISL3 insertion upstream of a folate transporter formed a strong promoter, increasing transcription and improving relative fitness under folate limitation. Enhanced folate scavenging may enable E. faecium to thrive in the setting of microbiome collapse, which is common in HCT and other critically ill patients3. Together, these results show that a recent ISL3 expansion is driving rapid evolution in healthcare-associated E. faecium, with consequences for its metabolic fitness that may help explain its increasing clinical burden. Several other pathogens also show elevated IS loads in our survey, which suggests that IS expansion-mediated evolution might be more broadly relevant. Over three decades, rapid expansion of the transposable element ISL3 has reshaped Enterococcus faecium, which helps to explain this pathogen’s growing clinical threat.
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