Tracing the evolutionary dynamics of carbapenem-resistant Escherichia coli in recurrent and multi-site infections.

IF 4 3区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY

Gut Pathogens Pub Date : 2025-08-26 DOI:10.1186/s13099-025-00746-9

Ya-Yu Cheng, Ya-Min Tsai, Yao-Chi Chuang, Yu-Hua Fan, Ming-Cheng Wang, Yu-Chen Chen, Ching-Hao Teng, Pei-Yun Kuo, Tran Thi Dieu Thuy, Carl Jay Ballena Bregente, Yen-Zhen Zhang, Yi-Hong Lee, Ding-Ze Ho, Cheng-Yen Kao

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引用次数: 0

Abstract

Background: Carbapenem-resistant Escherichia coli (CREC) can cause persistent or multi-site infections, leading to significant clinical challenges due to the limited availability of effective antibiotics. However, the within-host evolution of CREC and its impact on infection patterns remain poorly understood. This study aims to characterize CREC isolates from patients with recurrent or multi-site infections to elucidate the relationship between bacterial adaptation within the host and infection dynamics, thereby addressing a critical gap in our understanding of CREC pathogenesis.

Results: Genotypic analysis, including Nanopore whole-genome sequencing, and phenotypic comparisons were performed on CREC isolates from individual patients. Pulsed-field gel electrophoresis (PFGE) patterns revealed that 18 patients were consistently infected with highly genetically related strains. Moreover, two patients (Patients 16 and 18) experienced sequential infections caused by genetically distinct strains, resulting in a total of 20 strain groups. Among these, seven (35%) belonged to phylogroup B1, six (30%) to phylogroup A, four (20%) to phylogroup B2, and three (15%) to phylogroup D. Nine groups were multidrug-resistant (MDR), six were extensively drug-resistant (XDR), and four shifted from XDR to MDR. Notably, group 18 - 1 included two MDR and five XDR strains. We examined the distribution of 31 virulence-associated genes across 20 groups and found that only three groups carried less than 10 genes. However, all strains within the same group harbored the same set of virulence genes. Larvae infection models revealed that strains from patients 7 and 8 became increasingly virulent over time, while those from patients 11 and 16 showed reduced virulence. Plaque assays revealed variability in phage susceptibility among isolates from different patients, as well as among consecutive isolates obtained from the same patient over time. Whole-genome sequencing results suggested plasmid dissemination among CREC strains in patients 5 and 18 based on highly identical plasmid sequences.

Conclusions: These findings underscore the significance of bacterial genomic changes and plasmid transfer in driving phenotypic evolution, enabling CREC to adapt and persist within hosts under selective pressures, thereby sustaining infections.

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追踪碳青霉烯耐药大肠杆菌在复发性和多位点感染中的进化动力学。

背景：碳青霉烯耐药大肠杆菌（CREC）可引起持续性或多部位感染，由于有效抗生素的可用性有限，导致重大的临床挑战。然而，宿主内CREC的进化及其对感染模式的影响仍然知之甚少。本研究旨在对来自复发性或多位点感染患者的CREC分离物进行表征，以阐明宿主内细菌适应与感染动力学之间的关系，从而解决我们对CREC发病机制的理解中的一个关键空白。结果：对个体患者的CREC分离株进行了基因型分析，包括纳米孔全基因组测序和表型比较。脉冲场凝胶电泳（PFGE）模式显示18例患者一致感染高度遗传相关的菌株。此外，两名患者（患者16和患者18）经历了由遗传上不同的菌株引起的连续感染，总共产生了20个菌株组。其中7个（35%）属于系统群B1, 6个（30%）属于系统群A， 4个（20%）属于系统群B2, 3个（15%）属于系统群d。9个组为多药耐药（MDR）， 6个广泛耐药（XDR）， 4个从XDR向MDR转移。值得注意的是，18 - 1组包括2株MDR和5株XDR。我们检查了31个毒力相关基因在20个群体中的分布，发现只有3个群体携带的基因少于10个。然而，同一组内的所有菌株都具有相同的毒力基因。幼虫感染模型显示，患者7号和8号的菌株随着时间的推移毒性越来越强，而患者11号和16号的菌株毒性减弱。菌斑分析揭示了不同患者分离株之间以及同一患者连续分离株之间噬菌体敏感性的差异。全基因组测序结果显示，患者5和患者18的CREC菌株间质粒传播基于高度相同的质粒序列。结论：这些发现强调了细菌基因组变化和质粒转移在驱动表型进化中的重要性，使CREC能够在选择压力下适应和持续存在于宿主体内，从而维持感染。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Gut Pathogens GASTROENTEROLOGY & HEPATOLOGY-MICROBIOLOGY

CiteScore

7.70

自引率

2.40%

发文量

期刊介绍： Gut Pathogens is a fast publishing, inclusive and prominent international journal which recognizes the need for a publishing platform uniquely tailored to reflect the full breadth of research in the biology and medicine of pathogens, commensals and functional microbiota of the gut. The journal publishes basic, clinical and cutting-edge research on all aspects of the above mentioned organisms including probiotic bacteria and yeasts and their products. The scope also covers the related ecology, molecular genetics, physiology and epidemiology of these microbes. The journal actively invites timely reports on the novel aspects of genomics, metagenomics, microbiota profiling and systems biology. Gut Pathogens will also consider, at the discretion of the editors, descriptive studies identifying a new genome sequence of a gut microbe or a series of related microbes (such as those obtained from new hosts, niches, settings, outbreaks and epidemics) and those obtained from single or multiple hosts at one or different time points (chronological evolution).