超高深度长读测序检测到 IS 介导的基因重复，这可能是产生一系列耐药基因的触发因素，也是产生新型基因变异（如 blaCTX-M-243）的机制。

Ultra-deep long-read sequencing detects IS-mediated gene duplications as a potential trigger to generate arrays of resistance genes and a mechanism to induce novel gene variants such as blaCTX-M-243.

机构信息

Division of Nosocomial Pathogens and Antibiotic Resistance, Robert Koch Institute, Wernigerode, Germany.

Institute for Medical Microbiology and Virology, University Medical Center Göttingen, Göttingen, Germany.

出版信息

J Antimicrob Chemother. 2022 Feb 2;77(2):381-390. doi: 10.1093/jac/dkab407.

DOI:10.1093/jac/dkab407

PMID:34865035

Abstract

BACKGROUND

Extended-spectrum β-lactamases (ESBLs) are enzymes that can render their hosts resistant to various β-lactam antibiotics. CTX-M-type enzymes are the most prevalent ESBLs and the main cause of resistance to third-generation cephalosporins in Enterobacteriaceae. The number of described CTX-M types is continuously rising, currently comprising over 240 variants. During routine screening we identified a novel blaCTX-M gene.

OBJECTIVES

To characterize a novel blaCTX-M variant harboured by a multidrug-resistant Escherichia coli isolate of sequence type ST354.

METHODS

Antibiotic susceptibilities were determined using broth microdilution. Genome and plasmid sequences were reconstructed using short- and long-read sequencing. The novel blaCTX-M locus was analysed using long-read and Sanger sequencing. Plasmid polymorphisms were determined in silico on a single plasmid molecule level.

RESULTS

The novel blaCTX-M-243 allele was discovered alongside a nearly identical blaCTX-M-104-containing gene array on a 219 kbp IncHI2A plasmid. CTX-M-243 differed from CTX-M-104 by only one amino acid substitution (N109S). Ultra-deep (2300-fold coverage) long-read sequencing revealed dynamic scaling of the blaCTX-M genetic contexts from one to five copies. Further antibiotic resistance genes such as blaTEM-1 also exhibited sequence heterogeneity but were stable in copy number.

CONCLUSIONS

We identified the novel ESBL gene blaCTX-M-243 and illustrate a dynamic system of varying blaCTX-M copy numbers. Our results highlight the constant emergence of new CTX-M family enzymes and demonstrate a potential evolutionary platform to generate novel ESBL variants and possibly other antibiotic resistance genes.

摘要

背景

超广谱β-内酰胺酶（ESBLs）是能够使宿主对各种β-内酰胺抗生素产生耐药性的酶。CTX-M 型酶是最常见的 ESBLs，也是肠杆菌科对第三代头孢菌素产生耐药性的主要原因。目前已描述的 CTX-M 型数量不断增加，包含超过 240 种变体。在常规筛选中，我们发现了一种新型 blaCTX-M 基因。

目的

对一株携带新型 blaCTX-M 基因的多重耐药大肠埃希菌分离株的 CTX-M 型进行特征分析。

方法

采用肉汤微量稀释法测定抗生素敏感性。使用短读长和长读长测序重建基因组和质粒序列。使用长读长和 Sanger 测序分析新型 blaCTX-M 基因座。在质粒分子水平上通过计算机模拟确定质粒多态性。

结果

在一个 219 kbp IncHI2A 质粒上，我们发现了一种新型 blaCTX-M-243 等位基因，旁边是一个几乎相同的包含 blaCTX-M-104 的基因簇。CTX-M-243 与 CTX-M-104 仅一个氨基酸（N109S）不同。深度测序（2300 倍覆盖率）揭示了 blaCTX-M 遗传背景从一个到五个拷贝的动态扩展。进一步的抗生素耐药基因，如 blaTEM-1，也表现出序列异质性，但拷贝数稳定。

结论

我们鉴定了新型 ESBL 基因 blaCTX-M-243，并说明了 blaCTX-M 拷贝数变化的动态系统。我们的结果突出了新型 CTX-M 家族酶的不断出现，并展示了一个潜在的进化平台，可产生新型 ESBL 变体和可能的其他抗生素耐药基因。

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超高深度长读测序检测到 IS 介导的基因重复，这可能是产生一系列耐药基因的触发因素，也是产生新型基因变异（如 blaCTX-M-243）的机制。

Ultra-deep long-read sequencing detects IS-mediated gene duplications as a potential trigger to generate arrays of resistance genes and a mechanism to induce novel gene variants such as blaCTX-M-243.

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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