从中国一家污水处理厂分离出的产超广谱β-内酰胺酶（ESBL）菌株的全基因组测序

Whole Genome Sequencing of Extended-Spectrum Beta-Lactamase (ESBL)-Producing Isolated From a Wastewater Treatment Plant in China.

作者信息

Jiang Xiawei, Cui Xinjie, Xu Hao, Liu Wenhong, Tao Fangfang, Shao Tiejuan, Pan Xiaoping, Zheng Beiwen

机构信息

College of Basic Medical Sciences, Zhejiang Chinese Medical University, Hangzhou, China.

Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, State Key Laboratory for Diagnosis and Treatment of Infectious Diseases, The First Affiliated Hospital, College of Medicine, Zhejiang University, Hangzhou, China.

出版信息

Front Microbiol. 2019 Aug 2;10:1797. doi: 10.3389/fmicb.2019.01797. eCollection 2019.

DOI:10.3389/fmicb.2019.01797

PMID:31428078

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6688389/

Abstract

BACKGROUND AND OBJECTIVES

Wastewater treatment plants (WWTPs) are one of the major reservoirs for antimicrobial resistant bacteria (ARB) and antimicrobial resistance genes (ARGs) in the environment. Thus, the investigation on ARB and ARGs from WWTPs has attracted increasing attention in recent years. In order to uncover the resistome in a WWTP treating effluents from a pharmaceutical industry in China, the extended-spectrum beta-lactamase (ESBL)-producing strains were isolated and their whole genome sequences were obtained and analyzed. Moreover, metagenomic sequencing was applied to give a comprehensive view of antibiotic resistance in this WWTP.

METHODS

18 ESBL-producing strains were isolated from a WWTP located in Taizhou, China on April, 2017. All strains were sequenced using Illumina HiSeq 2000 sequencer. The whole genome sequences were assembled using SPAdes software and annotated with RAST server. Sequence types (STs), plasmids, ARGs and virulence genes were predicted from the genomes using MLST, Plasmid Finder, ResFinder and Virulence Finder, respectively. Metagenomic DNA of the same sample was extracted and sequenced using Illumina Hiseq X Ten platform. Metagenomic sequences were assembled using SOAPdenovo software.

RESULTS

All 18 ESBL-producing strains were resistant to ampicillin, cefazolin, and ceftriaxone. Analysis of their genomes revealed that all strains carried beta-lactamase encoding genes and the most prevalent type was . Various virulence genes and ARGs confronting resistance to other types of antimicrobial agents were also predicted. Further investigation on the metagenomics data indicated 11 ARGs with high amino acid identities to the known ARGs. Five of these ARGs, , , , and , were also present in the genomes of the ESBL-producing isolated from the same sample.

CONCLUSION

Our study revealed the resistome of a pharmaceutical WWTP by both culture-dependent and metegenomic methods. The existence of ESBL-producing strains, indicating that pharmaceutical WWTP can play a significant role in the emergence of ARB. The occurrence of ARGs annotated from the metagenomic data suggests that pharmaceutical WWTP can play a significant role in the emergence of ARGs. Our findings highlight the need for strengthening the active surveillance of ARB and ARGs from pharmaceutical industry.

摘要

背景与目的

污水处理厂是环境中耐抗菌药物细菌（ARB）和抗菌药物耐药基因（ARG）的主要储存库之一。因此，近年来对污水处理厂中ARB和ARG的研究越来越受到关注。为了揭示中国一家处理制药工业废水的污水处理厂中的耐药基因组，分离出了产超广谱β-内酰胺酶（ESBL）的菌株，并获得和分析了它们的全基因组序列。此外，应用宏基因组测序来全面了解该污水处理厂中的抗生素耐药情况。

方法

2017年4月从中国泰州的一家污水处理厂分离出18株产ESBL的菌株。所有菌株都使用Illumina HiSeq 2000测序仪进行测序。全基因组序列使用SPAdes软件进行组装，并使用RAST服务器进行注释。分别使用MLST、Plasmid Finder、ResFinder和Virulence Finder从基因组中预测序列类型（STs）、质粒、ARG和毒力基因。提取同一样本的宏基因组DNA，并使用Illumina Hiseq X Ten平台进行测序。宏基因组序列使用SOAPdenovo软件进行组装。

结果

所有18株产ESBL的菌株均对氨苄西林、头孢唑林和头孢曲松耐药。对它们的基因组分析表明，所有菌株都携带β-内酰胺酶编码基因，最常见的类型是。还预测了各种毒力基因和对其他类型抗菌剂耐药的ARG。对宏基因组数据的进一步研究表明，有11个ARG与已知的ARG具有高度的氨基酸同一性。其中5个ARG，、、、和，也存在于从同一样本中分离出的产ESBL的基因组中。

结论

我们的研究通过基于培养的方法和宏基因组方法揭示了一家制药污水处理厂的耐药基因组。产ESBL菌株的存在表明制药污水处理厂在ARB的出现中可能起重要作用。从宏基因组数据中注释出的ARG的出现表明制药污水处理厂在ARG的出现中可能起重要作用。我们的研究结果强调了加强对制药行业ARB和ARG主动监测的必要性。

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从中国一家污水处理厂分离出的产超广谱β-内酰胺酶（ESBL）菌株的全基因组测序

Whole Genome Sequencing of Extended-Spectrum Beta-Lactamase (ESBL)-Producing Isolated From a Wastewater Treatment Plant in China.

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