在城市废水中发现的镶嵌式粪肠球菌质粒中存在 optrA 基因，该质粒来源于非洲大陆（突尼斯）。

Detection of optrA in the African continent (Tunisia) within a mosaic Enterococcus faecalis plasmid from urban wastewaters.

机构信息

UCIBIO/REQUIMTE, Departamento de Ciências Biológicas, Laboratório de Microbiologia, Faculdade de Farmácia, Universidade do Porto, Porto, Portugal.

Université de Tunis El Manar, Institut de la Recherche Vétérinaire de Tunisie, 20 rue Jebel Lakhdhar, Bab Saadoun, Tunis, Tunisia.

出版信息

J Antimicrob Chemother. 2017 Dec 1;72(12):3245-3251. doi: 10.1093/jac/dkx321.

DOI:10.1093/jac/dkx321

PMID:29029072

Abstract

OBJECTIVES

Oxazolidinone resistance is a serious limitation in the treatment of MDR Enterococcus infections. Plasmid-mediated oxazolidinone resistance has been strongly linked to animals where the use of phenicols might co-select resistance to both antibiotic families. Our goal was to assess the diversity of genes conferring phenicol/oxazolidinone resistance among diverse enterococci and to characterize the optrA genetic environment.

METHODS

Chloramphenicol-resistant isolates (>16 mg/L, n = 245) from different sources (hospitals/healthy humans/wastewaters/animals) in Portugal, Angola and Tunisia (1996-2016) were selected. Phenicol (eight cat variants, fexA, fexB) or phenicol + oxazolidinone [cfr, cfr(B), optrA] resistance genes were searched for by PCR. Susceptibility (disc diffusion/microdilution), filter mating, stability of antibiotic resistance (500 bacterial generations), plasmid typing (S1-PFGE/hybridization), MLST and WGS (Illumina-HiSeq) were performed for optrA-positive isolates.

RESULTS

Resistance to phenicols (n = 181, 74%) and phenicols + oxazolidinones (n = 2, 1%) was associated with the presence of cat(A-8) (40%, predominant in hospitals and swine), cat(A-7) (29%, predominant in poultry and healthy humans), cat(A-9) (2%), fexB (2%) and fexA + optrA (1%). fexA and optrA genes were co-located in a transferable plasmid (pAF379, 72 918 bp) of two ST86 MDR Tunisian Enterococcus faecalis (wastewaters) carrying several putative virulence genes. MICs of chloramphenicol, linezolid and tedizolid were stably maintained at 64, 4 and 1 mg/L, respectively. The chimeric pAF379 comprised relics of genetic elements from different Gram-positive bacteria and origins (human/porcine).

CONCLUSIONS

To the best of our knowledge, we report the first detection of optrA in an African country (Tunisia) within a transferable mosaic plasmid of different origins. Its identification in isolates from environmental sources is worrisome and alerts for the need of a concerted global surveillance on the occurrence and spread of optrA.

摘要

目的

恶唑烷酮类耐药性是治疗耐多药肠球菌感染的严重限制因素。质粒介导的恶唑烷酮类耐药性与动物密切相关，在动物中，苯氧青霉素的使用可能会同时选择对这两种抗生素家族的耐药性。我们的目标是评估不同肠球菌中赋予苯氧青霉素/恶唑烷酮类耐药性的基因多样性，并对 optrA 基因环境进行特征描述。

方法

从葡萄牙、安哥拉和突尼斯（1996-2016 年）不同来源（医院/健康人群/废水/动物）的耐氯霉素分离株（>16mg/L，n=245）中选择。通过 PCR 搜索苯氧青霉素（8 种 cat 变体、fexA、fexB）或苯氧青霉素+恶唑烷酮 [cfr、cfr(B)、optrA] 耐药基因。对 optrA 阳性分离株进行药敏试验（圆盘扩散/微量稀释）、滤膜交配、抗生素耐药性稳定性（500 代细菌）、质粒分型（S1-PFGE/杂交）、多位点序列分型（MLST）和全基因组测序（Illumina-HiSeq）。

结果

对苯氧青霉素（n=181，74%）和苯氧青霉素+恶唑烷酮类（n=2，1%）的耐药性与 cat(A-8)（40%，主要存在于医院和猪中）、cat(A-7)（29%，主要存在于家禽和健康人群中）、cat(A-9)（2%）、fexB（2%）和 fexA+optrA（1%）的存在有关。fexA 和 optrA 基因位于一个可转移质粒（pAF379，72918bp）中，该质粒来自于两个 ST86 型耐多药粪肠球菌（废水），携带多个潜在的毒力基因。氯霉素、利奈唑胺和替加环素的 MIC 值分别稳定维持在 64、4 和 1mg/L。嵌合 pAF379 由不同革兰氏阳性菌和起源（人/猪）的遗传元件组成。

结论

据我们所知，我们首次在一个非洲国家（突尼斯）报告了在一个可转移的嵌合质粒中发现 optrA，该质粒来自不同的起源。在环境来源的分离株中发现它令人担忧，并提醒需要全球范围内对 optrA 的发生和传播进行协同监测。

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在城市废水中发现的镶嵌式粪肠球菌质粒中存在 optrA 基因，该质粒来源于非洲大陆（突尼斯）。

Detection of optrA in the African continent (Tunisia) within a mosaic Enterococcus faecalis plasmid from urban wastewaters.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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