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中国西北地区引起绵羊腹泻的产超广谱β-内酰胺酶分离株的特征。

Characterization of Extended-Spectrum β-Lactamase-Producing Isolates That Cause Diarrhea in Sheep in Northwest China.

机构信息

College of Veterinary Medicine, Northwest A&F University, Yangling, Shaanxi, China.

College of Veterinary Medicine, Yangzhou University, Yangzhou, Jiangsu, China.

出版信息

Microbiol Spectr. 2022 Aug 31;10(4):e0159522. doi: 10.1128/spectrum.01595-22. Epub 2022 Aug 9.

DOI:10.1128/spectrum.01595-22
PMID:35943154
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9431196/
Abstract

Development of extended-spectrum-β-lactamase (ESBL)-producing Escherichia coli is one the greatest threats faced by mankind. Among animals, chickens, pigs, and cattle are reservoirs of these pathogens worldwide. Nevertheless, there is a knowledge gap on ESBL-producing E. coli from small ruminants (i.e., sheep and goats) in China. The aim of this study was to identify and characterize the resistance profiles, resistomes, and sequence features of 67 ESBL-producing E. coli isolates from sheep in northwest China. The findings showed that and were the most prevalent. Interestingly, we found that the resistance gene was widespread in sheep merely from Shaanxi areas, accounting for 19.2% (5/26). The highly prevalent serotypes and FumC-FimH (CH) typing isolates were O8 and CH, respectively. High-risk E. coli clones, such as sequence type 10 (ST10), ST23, ST44, and ST58, were also found in China's sheep population. A total of 67 ESBL-producing isolates were divided into five phylogenetic groups, namely, B1 ( = 47, 70.1%), B2 ( = 1, 1.5%), C ( = 14, 20.9%), E ( = 1, 1.5%), and F ( = 1, 1.5%), with the phylogenetic groups for 3 isolates (4.5%) remaining unknown. Moreover, ESBL-producing E. coli isolates were also characterized by the abundance and diversity of biocide/metal resistance genes and insert sequences. We found that in ESBL-producing E. coli isolates, there were two different types of isolates, those containing ESBL genes or not, which led to large discrepancies between resistance phenotypes and resistomes. In summary, our study provides a comprehensive overview of resistance profiles and genome sequence features in ESBL-producing E. coli and highlights the possible role of sheep as antibiotic resistance gene disseminators into humans. Antimicrobial resistance (AMR), especially the simultaneous resistance to several antibiotics (multidrug resistance [MDR]), is one of the greatest threats to global public health in the 21st century. Among animals, chickens, pigs, and cattle are reservoirs of these pathogens worldwide. Nevertheless, there is a knowledge gap on ESBL-producing E. coli from small ruminants in China. This study is the largest and most comprehensive analysis of ESBL-producing E. coli isolates from sheep, including antibiotic resistance profiles, phylogenetic groups, serotypes, multilocus sequence types (MLST), insert sequences (IS), antibiotic resistance genes, disinfectant resistance genes, and heavy metal resistance genes. We recommend extending the surveillance of AMR of sheep-origin E. coli to prevent future public health risks.

摘要

产超广谱β-内酰胺酶(ESBL)大肠杆菌的产生是人类面临的最大威胁之一。在动物中,鸡、猪和牛是这些病原体在全球的储存库。然而,中国对来自小反刍动物(即绵羊和山羊)的产 ESBL 大肠杆菌的了解存在空白。本研究旨在鉴定和描述来自中国西北地区绵羊的 67 株产 ESBL 大肠杆菌的耐药谱、耐药组和序列特征。研究结果表明,和 是最常见的。有趣的是,我们发现,耐药基因 仅在陕西地区的绵羊中广泛存在,占 19.2%(5/26)。高流行血清型和 FumC-FimH(CH)分型分离株分别为 O8 和 CH。在中国绵羊群体中也发现了高风险的大肠杆菌克隆,如序列型 10(ST10)、ST23、ST44 和 ST58。总共 67 株产 ESBL 分离株被分为五个系统发育群,即 B1( = 47,70.1%)、B2( = 1,1.5%)、C( = 14,20.9%)、E( = 1,1.5%)和 F( = 1,1.5%),其中 3 株(4.5%)的系统发育群尚不清楚。此外,产 ESBL 大肠杆菌分离株还具有杀生物剂/金属耐药基因和插入序列的丰富度和多样性特征。我们发现,在产 ESBL 大肠杆菌分离株中,存在两种不同类型的分离株,一种含有 ESBL 基因,另一种不含有 ESBL 基因,这导致耐药表型和耐药组之间存在较大差异。总之,本研究全面概述了产 ESBL 大肠杆菌的耐药谱和基因组序列特征,并强调了绵羊作为抗生素耐药基因向人类传播的可能作用。

抗生素耐药性(AMR),尤其是对几种抗生素的同时耐药(多药耐药性[MDR]),是 21 世纪对全球公共健康的最大威胁之一。在动物中,鸡、猪和牛是这些病原体在全球的储存库。然而,中国对来自小反刍动物的产 ESBL 大肠杆菌的了解存在空白。本研究是对绵羊中产 ESBL 大肠杆菌分离株进行的最大和最全面的分析,包括抗生素耐药谱、系统发育群、血清型、多位点序列分型(MLST)、插入序列(IS)、抗生素耐药基因、消毒剂耐药基因和重金属耐药基因。我们建议扩大对绵羊源大肠杆菌 AMR 的监测,以防止未来的公共健康风险。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/66fbab219a37/spectrum.01595-22-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/7c2ed7b4da00/spectrum.01595-22-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/d190e9ee26b8/spectrum.01595-22-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/693db9dae644/spectrum.01595-22-f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/66fbab219a37/spectrum.01595-22-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/7c2ed7b4da00/spectrum.01595-22-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/d190e9ee26b8/spectrum.01595-22-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/920b/9431196/693db9dae644/spectrum.01595-22-f003.jpg
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