携带碳青霉烯酶的全球大肠杆菌ST131进化枝的可移动遗传元件

Mobile genetic elements of global Escherichia coli ST131 clades with carbapenemases.

作者信息

Peirano Gisele, Matsumara Yasufumi, Pitout Johann D D

机构信息

Alberta Precision Laboratories, Calgary, Alberta, Canada.

Cummings School of Medicine, University of Calgary, #9, 3535 Research Road NW, Calgary, Alberta, T2L 2 K8, Canada.

出版信息

Eur J Clin Microbiol Infect Dis. 2025 Jun 7. doi: 10.1007/s10096-025-05187-5.

DOI:10.1007/s10096-025-05187-5

PMID:40481333

Abstract

INTRODUCTION

Escherichia coli ST131 is an important clone linked with carbapenemases. Limited data is available about the international distribution of ST131 clades and mobile genetic elements (MGEs) linked with carbapenemases.

METHODS

Short and long read WGS were performed on ST131 with carbapenemases (n=53) obtained from 21 countries (2010-19). We fully assembled 51 of the carbapenenemase containing plasmids that were grouped into MOB-clusters using MOB-suite v3.1.9.

RESULTS

KPCs (n=37) were the most frequent carbapenemases followed by NDMs (n=8), OXA-48-like (n=7), VIMs (n=1) and IMPs (n=2). ST131 subclades were linked with different carbapenemases and clade C dominated the population structure. Plasmids with bla (n=35) belonged to eight MOB-clusters that included IncU, IncF, ColRNAI, IncN1, IncR, pKPC-CAV1193, Col-pHAD28; bla plasmids (n=7) belonged to four MOB-clusters that included IncF, IncX3, IncC, IncN2; bla plasmids (n=6) belonged to six MOB-clusters that included IncL. IncM1, Col(pHAD28), ColKP3, IncF, IncX3; bla plasmids (n=2) belonged to IncN1 and IncC, while the bla (n=1) plasmid belonged to IncC. Multiple transposable and antimicrobial resistance determinants were harboured on these plasmids.

CONCLUSIONS

The global spread of carbapenemase genes in ST131 clades were driven by multiple underlying mechanisms, including the local and international spread of highly similar plasmids as well as diverse plasmids, within the same geographical locations. This study provided references for future ST131 genomic studies on MGEs linked with carbapenemases.

摘要

引言

大肠埃希菌ST131是一种与碳青霉烯酶相关的重要克隆株。关于与碳青霉烯酶相关的ST131分支和移动遗传元件（MGEs）的国际分布，现有数据有限。

方法

对来自21个国家（2010 - 2019年）的携带碳青霉烯酶的ST131菌株（n = 53）进行了短读长和长读长全基因组测序（WGS）。我们对51个携带碳青霉烯酶的质粒进行了完全组装，这些质粒使用MOB-suite v3.1.9软件被分组到MOB簇中。

结果

KPCs（n = 37）是最常见的碳青霉烯酶，其次是NDMs（n = 8）、OXA - 48样酶（n = 7）、VIMs（n = 1）和IMPs（n = 2）。ST131亚分支与不同的碳青霉烯酶相关，C分支在群体结构中占主导地位。携带bla的质粒（n = 35）属于八个MOB簇，包括IncU、IncF、ColRNAI、IncN1、IncR、pKPC - CAV1193、Col - pHAD28；携带bla的质粒（n = 7）属于四个MOB簇，包括IncF、IncX3、IncC、IncN2；携带bla的质粒（n = 6）属于六个MOB簇，包括IncL、IncM1、Col(pHAD28)、ColKP3、IncF、IncX3；携带bla的质粒（n = 2）属于IncN1和IncC，而携带bla的质粒（n = 1）属于IncC。这些质粒上携带了多个转座子和抗菌药物耐药决定簇。

结论

碳青霉烯酶基因在ST131分支中的全球传播是由多种潜在机制驱动的，包括高度相似质粒以及同一地理位置内不同质粒的本地和国际传播。本研究为未来关于与碳青霉烯酶相关的MGEs的ST131基因组研究提供了参考。

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携带碳青霉烯酶的全球大肠杆菌ST131进化枝的可移动遗传元件

Mobile genetic elements of global Escherichia coli ST131 clades with carbapenemases.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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