低水平氯化诱导产生的活的但不可培养的大肠杆菌比其可培养的对应物对抗生素具有更高的耐受性。

Viable but non-culturable E. coli induced by low level chlorination have higher persistence to antibiotics than their culturable counterparts.

作者信息

Lin Huirong, Ye Chengsong, Chen Sheng, Zhang Shenghua, Yu Xin

机构信息

Key Lab of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, Xiamen, 361021, People's Republic of China.

出版信息

Environ Pollut. 2017 Nov;230:242-249. doi: 10.1016/j.envpol.2017.06.047. Epub 2017 Jun 26.

DOI:10.1016/j.envpol.2017.06.047

PMID:28662489

Abstract

Disinfectant used in drinking water treatment and distribution system can induce culturable bacteria, including various kinds of pathogenic bacteria, into viable but non-culturable (VBNC) state. The loss of cultural state, resuscitation and environmental persistence of VBNC bacteria will severely damage drinking water microbiological safety and thus pose a risk to public health. The manner in which chlorination treatment induced a VBNC state in Escherichia coli and the antibiotic persistence of VBNC bacteria was investigated. It was found that low dosage of chlorine (0.5 mg L) disinfection effectively reduced the culturability of E. coli and induced a VBNC state, after which metabolic activity was reduced and persistence to 9 typical antibiotics was enhanced. Furthermore, RT-qPCR results showed that stress resistance genes (rpoS, marA, ygfA, relE) and ARGs, especially efflux genes were up-regulated compared with culturable cells. The intracellular concentration was tested and found to be lower in VBNC cells than in actively growing E. coli, which suggested a higher efflux rate. The data presented indicate that VBNC E. coli are more persistent than culturable counterparts to a wide variety of antibiotics. VBNC E. coli constitute a potential source of contamination and should be considered during monitoring of drinking water networks.

摘要

饮用水处理和分配系统中使用的消毒剂可使包括各种病原菌在内的可培养细菌进入活的非可培养（VBNC）状态。VBNC细菌培养状态的丧失、复苏及环境持久性将严重损害饮用水微生物安全性，进而对公众健康构成风险。研究了氯化处理诱导大肠杆菌进入VBNC状态的方式以及VBNC细菌对抗生素的持久性。结果发现，低剂量氯（0.5 mg/L）消毒可有效降低大肠杆菌的可培养性并诱导其进入VBNC状态，此后代谢活性降低，对9种典型抗生素的耐受性增强。此外，RT-qPCR结果表明，与可培养细胞相比，应激抗性基因（rpoS、marA、ygfA、relE）和抗生素抗性基因（ARGs），尤其是外排基因上调。对细胞内浓度进行检测，发现VBNC细胞中的浓度低于活跃生长的大肠杆菌，这表明外排率更高。所呈现的数据表明，VBNC大肠杆菌对多种抗生素的耐受性比可培养的大肠杆菌更强。VBNC大肠杆菌构成了一个潜在的污染源，在饮用水管网监测过程中应予以考虑。

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低水平氯化诱导产生的活的但不可培养的大肠杆菌比其可培养的对应物对抗生素具有更高的耐受性。

Viable but non-culturable E. coli induced by low level chlorination have higher persistence to antibiotics than their culturable counterparts.

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