2011 年至 2016 年中国鸡白痢沙门氏菌分离株的喹诺酮耐药表型和遗传特征。

Quinolone resistance phenotype and genetic characterization of Salmonella enterica serovar Pullorum isolates in China, during 2011 to 2016.

机构信息

Key Laboratory of Prevention and Control Agents for Animal Bacteriosis, Institute of Animal Husbandry and Veterinary, Hubei Academy of Agricultural Sciences, Wuhan, China.

College of Animal Science and Technology, Anhui Agricultural University, Hefei, China.

出版信息

BMC Microbiol. 2018 Dec 27;18(1):225. doi: 10.1186/s12866-018-1368-4.

DOI:10.1186/s12866-018-1368-4

PMID:30587131

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6307136/

Abstract

BACKGROUND

Pullorum disease, caused by Salmonella enterica serovar Pullorum (S. Pullorum), is one of the most important bacterial infections in the poultry industry in developing countries, including China. To examine the prevalence and characteristics of S. Pullorum, the Multilocus Sequence Typing (MLST) genotypes, fluoroquinolones resistance, and biofilm-forming abilities of S. Pullorum isolates were investigated, collected from 2011 to 2016 in China.

RESULTS

Thirty S. Pullorum isolates collected from 2011 to 2016 were analyzed. Quinolones susceptibility testing showed that 90% of the isolates were resistant to the first generation of quinolines nalidixic acid, but the resistance rates to different fluoroquinolones agents were lower than 13.3%; for some there was even no resistance. Multilocus sequence typing (MLST) showed that ST-92 was the dominating genotype, accounting for 90.0% of all S. pullorum strains. The remaining three isolates were of the new reported sequence type ST-2151. Interestingly, the Asp87Gly substitution in quinolone resistance-determining regions (QRDR) of GyrA was only observed in the three strains of ST-2151, suggesting a potential correlation between Asp87Gly substitution and sequence type (p < 0.05). However, Asp87Gly substitution could not confer the resistant to ofloxacin and ciprofloxacin of these isolates. The plasmid-mediated quinolone resistance (PMQR) gene was not found in any of the tested isolates. Furthermore, an assay measuring biofilm-forming abilities showed that 46.7% of the isolates were non-biofilm producers, while 53.3% could form very weak biofilms, which might explain the relatively lower resistance to fluoroquinolones.

CONCLUSIONS

We reported a high resistance rate to the first generation of quinolines nalidixic acid and relatively low resistance rates to fluoroquinolones in S. Pullorum isolates. In addition, weak biofilm-forming abilities were found, which might be an important reason of the low fluoroquinolones resistance rates of S. Pullorum isolates. ST-92 was the dominating genotype demonstrated by MLST, and the new sequence type ST-2151 showed a potential correlation with Asp87Gly substitution in QRDR of GyrA. We believe the characterization of these S. Pullorum isolates will be helpful to develop prevention and control strategies.

摘要

背景

由肠炎沙门氏菌血清型 Pullorum（S. Pullorum）引起的禽霍乱是发展中国家（包括中国）家禽业最重要的细菌性传染病之一。为了研究 S. Pullorum 的流行情况和特征，对 2011 年至 2016 年间从中国采集的 S. Pullorum 分离株的多位点序列分型（MLST）基因型、氟喹诺酮类药物耐药性和生物膜形成能力进行了研究。

结果

对 2011 年至 2016 年间采集的 30 株 S. Pullorum 分离株进行了分析。喹诺酮类药物敏感性试验表明，90%的分离株对第一代喹诺酮类药物萘啶酸耐药，但对不同氟喹诺酮类药物的耐药率低于 13.3%；有些甚至没有耐药性。多位点序列分型（MLST）显示 ST-92 是主要基因型，占所有 S. pullorum 菌株的 90.0%。其余 3 株为新报道的 ST-2151 序列型。有趣的是，在 GyrA 的喹诺酮类药物耐药决定区（QRDR）中仅观察到 3 株 ST-2151 中的 Asp87Gly 取代，这表明 Asp87Gly 取代与序列型之间存在潜在相关性（p<0.05）。然而，Asp87Gly 取代并不能赋予这些分离株对氧氟沙星和环丙沙星的耐药性。未在任何测试分离株中发现质粒介导的喹诺酮类耐药（PMQR）基因。此外，测量生物膜形成能力的试验表明，46.7%的分离株是非生物膜生产者，而 53.3%的分离株可以形成非常弱的生物膜，这可能解释了 S. Pullorum 分离株对氟喹诺酮类药物相对较低的耐药性。

结论

我们报告了 S. Pullorum 分离株对第一代喹诺酮类药物萘啶酸的高耐药率和对氟喹诺酮类药物的相对低耐药率。此外，发现了较弱的生物膜形成能力，这可能是 S. Pullorum 分离株对氟喹诺酮类药物耐药率较低的一个重要原因。MLST 显示 ST-92 是主要基因型，新的序列型 ST-2151 显示与 GyrA 的 QRDR 中的 Asp87Gly 取代之间存在潜在相关性。我们相信，对这些 S. Pullorum 分离株的特征描述将有助于制定预防和控制策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dce3/6307136/249a873c4416/12866_2018_1368_Fig1_HTML.jpg

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2011 年至 2016 年中国鸡白痢沙门氏菌分离株的喹诺酮耐药表型和遗传特征。

Quinolone resistance phenotype and genetic characterization of Salmonella enterica serovar Pullorum isolates in China, during 2011 to 2016.

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