Co-Occurrence of tet(X4) and bla_NDM-5 in Escherichia coli Isolates of Inpatient Origin in Guangzhou, China.

IF 2.3 4区医学 Q3 INFECTIOUS DISEASES Microbial drug resistance Pub Date : 2024-04-01 Epub Date: 2023-12-28 DOI:10.1089/mdr.2023.0098

Haijun Chen, Yi Zhan, Linjing Wang, Zhirou Xiao, Donghua Feng, Zhemei Chen, Haitao Liu, Dingqiang Chen, Zhenbo Xu, Ling Yang

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Abstract

Tigecycline, one of the last-resort therapeutic options for complicated infections caused by multidrug-resistant pathogens, especially carbapenem-resistant Enterobacterales and Acinetobacter in recent years. The emergence of antibiotic-resistant bacteria and antibiotic-resistant genes has threatened the effectiveness of antibiotics and public health with the excessive use of antibiotics in clinics. However, the emergence and dissemination of high-level mobile tigecycline-resistance gene tet(X) is challenging for clinical effectiveness of antimicrobial agent. This study aimed to characterize an E. coli strain T43, isolated from an inpatient in a teaching hospital in China. The E. coli T43 was resistant to almost all antimicrobials except colistin and consisted of a 4,774,080 bp chromosome and three plasmids. Plasmids pT43-1 and pT43-2 contained tigecycline-resistance gene tet(X4). Plasmid pT43-1 had a size of 152,423 bp with 51.05% GC content and harbored 151 putative open reading frames. pT43-1 was the largest plasmid in strain T43 and carried numerous resistance genes, especially tigecycline resistance gene tet(X4) and carbapenemase resistance gene bla_NDM-5. The tet(X) gene was associated with IS26. Co-occurrence of numerous resistance genes in a single plasmid possibly contributed to the dissemination of these genes under antibiotics stress. It might explain the presence of clinically crucial resistance genes tet(X) and bla_NDM-5 in clinics. This study suggested the applicable use of antibiotics and continued surveillance of tet(X) and bla_NDM-5 in clinics are imperative.

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中国广州住院病人大肠埃希菌中 tet(X4) 和 blaNDM-5 的共存。

替加环素是近年来治疗耐多药病原体，尤其是耐碳青霉烯类肠杆菌和乙型脑炎杆菌引起的复杂感染的最后治疗选择之一。抗生素耐药细菌和抗生素耐药基因的出现，威胁着抗生素的有效性和公共卫生，因为临床上抗生素的使用过多。然而，高水平移动性耐替加环素基因 tet(X) 的出现和传播对抗菌药物的临床有效性构成了挑战。本研究旨在描述从中国一家教学医院住院病人身上分离出的大肠杆菌 T43 菌株的特征。大肠杆菌 T43 对除可乐定之外的几乎所有抗菌药都具有耐药性，由 4,774,080 bp 的染色体和三个质粒组成。质粒 pT43-1 和 pT43-2 含有耐替加环素基因 tet(X4)。质粒 pT43-1 的大小为 152,423 bp，GC 含量为 51.05%，含有 151 个假定开放阅读框。pT43-1 是 T43 菌株中最大的质粒，携带有许多抗性基因，尤其是耐替加环素基因 tet(X4)和碳青霉烯酶抗性基因 blaNDM-5。tet（X）基因与 IS26 相关。单个质粒中同时存在多个抗性基因可能是这些基因在抗生素压力下传播的原因。这可能解释了临床上重要的耐药基因 tet(X) 和 blaNDM-5 在临床上的存在。这项研究表明，必须在临床中合理使用抗生素并持续监测 tet(X) 和 blaNDM-5。

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

Microbial drug resistance 医学-传染病学

CiteScore

6.00

自引率

3.80%

发文量

118

审稿时长

6-12 weeks

期刊介绍： Microbial Drug Resistance (MDR) is an international, peer-reviewed journal that covers the global spread and threat of multi-drug resistant clones of major pathogens that are widely documented in hospitals and the scientific community. The Journal addresses the serious challenges of trying to decipher the molecular mechanisms of drug resistance. MDR provides a multidisciplinary forum for peer-reviewed original publications as well as topical reviews and special reports. MDR coverage includes: Molecular biology of resistance mechanisms Virulence genes and disease Molecular epidemiology Drug design Infection control.