奥美拉唑反应性尿路感染多药耐药大肠埃希菌acrabb - tolc外排泵基因鉴定及外排抑制因子AcrR突变检测

Microbiology insights Pub Date : 2019-12-04 eCollection Date: 2019-01-01 DOI:10.1177/1178636119889629
Nandan Chowdhury, Sabrina Suhani, Auditi Purkaystha, Musammat Kulsuma Begum, Topu Raihan, Md Jahangir Alam, Kamrul Islam, Abul Kalam Azad
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引用次数: 22

摘要

抗菌素耐药性对孟加拉国以及全世界的传染病治疗构成威胁。多药耐药(MDR)肠杆菌科是泌尿道感染(UTI)这类传染病的最常见病因,它导致了针对UTI选择经验性抗生素的问题不断升级。本研究的目的是调查孟加拉国东北地区尿路感染多药耐药大肠杆菌中是否存在外排泵,分离并表征这些当地分离菌株的AcrAB-TolC外排泵基因,并对外排泵抑制因子AcrR基因进行突变分析,以了解AcrAB-TolC外排泵机制。在外排泵抑制剂奥美拉唑的存在下,每个MDR大肠杆菌分离株对所研究的7种抗生素中的至少1种表现出敏感性增加,表明外排泵可能参与了它们的抗生素耐药性。奥美拉唑使所研究的每一种抗生素的最低抑菌浓度降低2- 8倍。利用生物信息学工具分析聚合酶链反应(PCR)产物的DNA和推导出的氨基酸序列显示,在所有耐多药和抗生素敏感的大肠杆菌分离株中均存在AcrAB-TolC和AcrR基因。然而,AcrR基因扩增难解突变系统(ARMS) PCR产物的氨基酸序列显示,AcrR基因45位的精氨酸被半胱氨酸取代,仅在耐多药大肠杆菌中观察到,其抗生素敏感性在奥美拉唑存在下增加。本文报道的数据支持这样一种观点,即当奥美拉唑存在时,耐多药大肠杆菌分离株的抗生素敏感性增加可能是由于外排泵的抑制,而acrabb - tolc外排泵可能是当AcrR 45位发生精氨酸到半胱氨酸的突变时,抗生素耐药性的一个因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Identification of AcrAB-TolC Efflux Pump Genes and Detection of Mutation in Efflux Repressor AcrR from Omeprazole Responsive Multidrug-Resistant Escherichia coli Isolates Causing Urinary Tract Infections.

Antimicrobial resistance poses a threat in the treatment of infectious diseases in Bangladesh as well as in the world. Multidrug-resistant (MDR) Enterobacteriaceae, the most common cause of one such infectious disease, urinary tract infection (UTI), has contributed to the escalating problem of selecting empiric antibiotics against UTIs. The aim of this study was to investigate the presence of the efflux pump in MDR Escherichia coli isolates from UTI in the North-East region of Bangladesh, to isolate and characterize the AcrAB-TolC efflux pump genes of these locally isolated strains and to do mutation analysis of the efflux pump repressor AcrR gene to understand the AcrAB-TolC efflux pump mechanism. In the presence of omeprazole, an efflux pump inhibitor, every MDR E. coli isolate showed increased susceptibility to at least 1 of the 7 antibiotics investigated, indicating that efflux pump might be involved in their antibiotic resistance. Omeprazole decreased the minimum inhibitory concentration of every antibiotics being investigated by 2- to 8-fold. DNA and the deduced amino acid sequences of the polymerase chain reaction (PCR) products analyzed by bioinformatics tools revealed that the chromosomal AcrAB-TolC and AcrR genes were present in all MDR and antibiotic-susceptible E. coli isolates. However, the deduced amino acid sequences of the amplification refractory mutation system (ARMS) PCR product of the AcrR gene revealed that the substitution of arginine to cysteine at position 45 of AcrR was observed only in the MDR E. coli whose antibiotic susceptibility increased in the presence of omeprazole. Data reported herein support the notion that the increased antibiotic susceptibility of the MDR E. coli isolates in the presence of omeprazole might be due to efflux pump(s) inhibition and the AcrAB-TolC efflux pump might be a contributor to antibiotic resistance when the mutation of arginine to cysteine occurs at position 45 of AcrR.

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