IS26 介导的 bla 基因扩增增加了大肠杆菌体内对头孢菌素的抗生素耐药性。

IS26 mediated bla amplification in Escherichia coli increase the antibiotic resistance to cephalosporin in vivo.

机构信息

Department of Infectious Diseases, Sir Run Run Shaw Hospital, Zhejiang University School of Medicine, Hangzhou, China; Key Laboratory of Microbial Technology and Bioinformatics of Zhejiang Province, Hangzhou, China; Regional Medical Center for National Institute of Respiratory Diseases, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang University, Hangzhou, China.

Department of Clinical Laboratory, Hangzhou Women's Hospital, Hangzhou Maternity and Child Health Care Hospital, Hangzhou, China.

出版信息

J Glob Antimicrob Resist. 2023 Dec;35:202-209. doi: 10.1016/j.jgar.2023.09.018. Epub 2023 Oct 5.

DOI:10.1016/j.jgar.2023.09.018

PMID:37802302

Abstract

OBJECTIVES

To characterize two Escherichia coli strains isolated from a patient pre- and post-treatment, using β-lactams and β-lactam/β-lactamase inhibitor combinations (BLBLIs).

METHODS

A combination of antibiotic susceptibility testing (AST) with whole genome sequencing using Illumina and Oxford Nanopore platforms. Long-read sequencing and reverse transcription-quantitative PCR were performed to determine the copy numbers and expression levels of antibiotic resistance genes (ARGs), respectively. Effect on fitness costs were assessed by growth rate determination.

RESULTS

The strain obtained from the patient after the antibiotic treatment (XH989) exhibited higher resistance to cefepime, BLBLIs and quinolones compared with the pre-treatment strain (XH987). Sequencing revealed IS26-mediated duplications of a IS26-fosA3-bla plasmid-embedded element in strain XH989. Long-read sequencing (7.4 G data volume) indicated a variation in copy numbers of bla within one single culture of strain XH989. Increased copy numbers of the IS26-fosA3-bla element were correlated with higher CTX-M-65 expression level and did not impose fitness costs, while facilitating faster growth under high antibiotic concentrations.

CONCLUSION

Our study is an example from the clinic how BLBLIs and β-lactams exposure in vivo possibly promoted the amplification of an IS26-multiple drug resistance (MDR) region. The observation of a copy number variation seen with the bla gene in the plasmid of the post-treatment strain expands our knowledge of insertion sequence dynamics and evolution during treatment.

摘要

目的

使用β-内酰胺类药物和β-内酰胺/β-内酰胺酶抑制剂组合（BLBLIs）对治疗前后从患者中分离的两种大肠杆菌菌株进行表型特征分析。

方法

采用抗生素药敏试验（AST）与 Illumina 和 Oxford Nanopore 平台全基因组测序相结合的方法。分别进行长读测序和反转录定量 PCR 以确定抗生素耐药基因（ARGs）的拷贝数和表达水平。通过测定生长速率评估对适应性成本的影响。

结果

与治疗前的菌株（XH987）相比，来自治疗后患者的菌株（XH989）对头孢吡肟、BLBLIs 和喹诺酮类药物的耐药性更高。测序显示，IS26 介导的 XH989 菌株中 IS26-fosA3-bla 质粒嵌入元件的重复。长读测序（7.4 G 数据量）表明 XH989 菌株单一培养物中 bla 的拷贝数存在差异。IS26-fosA3-bla 元件拷贝数的增加与 CTX-M-65 表达水平的升高相关，且不会产生适应性成本，同时有利于在高抗生素浓度下更快地生长。

结论

本研究是临床实例，说明了 BLBLIs 和β-内酰胺类药物在体内暴露可能促进了 IS26-多重耐药（MDR）区域的扩增。在治疗后菌株的质粒中 bla 基因观察到的拷贝数变化，扩展了我们对插入序列动力学和进化过程的认识。

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IS26 介导的 bla 基因扩增增加了大肠杆菌体内对头孢菌素的抗生素耐药性。

IS26 mediated bla amplification in Escherichia coli increase the antibiotic resistance to cephalosporin in vivo.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

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方法

结果

结论

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