Escherichia coli with increased aminoglycoside resistance due to an amino acid substitution at position 85 of HemC.

IF 1.9 4区医学 Q3 INFECTIOUS DISEASES Journal of Infection and Chemotherapy Pub Date : 2024-10-05 DOI:10.1016/j.jiac.2024.10.004

Tomoki Komeda, Tomomi Hishinuma, Teruo Kirikae, Tatsuya Tada

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Abstract

Objective: The mechanism of aminoglycoside resistance due to abnormal hemin synthesis remains unclear. We investigate an Escherichia coli strain with a single amino acid substitution at position 85 of HemC.

Methods: An aminoglycoside-resistant Escherichia coli DH5α was selected by passaging in Lysogeny Broth (LB) medium containing amikacin. Whole genome sequencing was performed to determine the genetic profile of the strain. An isogenic strain of E. coli DH5α was created. Growth rates, drug susceptibilities and expressions of the heme synthetic genes were compared between the original strain and the isogenic strain.

Results: Whole genome sequencing revealed a nucleotide substitution at position 254 of hemC from adenine (A) to thymine (T), resulting in an amino acid substitution at position 85 of HemC from histidine (H) to leucine (L). There were no mutations in other heme synthetic genes, including hemA, hemB, hemC, hemD, hemE, hemF, hemG, hemH, hemL, hemN, hemX and hemY. The isogenic strain of E. coli DH5α with H85L in HemC was less susceptible to aminoglycosides, and its growth was slower than that of E. coli DH5α before passage. Quantitative real-time PCR showed that the expression of hemA was higher and the expressions of hemL, hemG and hemX lower in the isogenic strain than before passage.

Conclusion: This is the first report of aminoglycoside resistance due to an amino acid substitution in HemC. These findings suggested that mutations in the heme synthetic genes may indirectly affect the growth rates of E. coli strains and their susceptibilities to aminoglycosides.

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由于 HemC 第 85 位的氨基酸替换，大肠杆菌对氨基糖苷类药物的耐药性增强。

目的：氨基糖苷类药物因血氨合成异常而产生耐药性的机制尚不清楚。我们研究了一株在 HemC 的第 85 位进行了单个氨基酸置换的大肠杆菌：方法：通过在含阿米卡星的溶菌酶肉汤（LB）培养基中传代，筛选出对氨基糖苷类耐药的大肠埃希菌 DH5α。进行了全基因组测序，以确定菌株的遗传特征。建立了大肠杆菌 DH5α 的同源菌株。比较了原始菌株和异源菌株的生长率、药物敏感性和血红素合成基因的表达：结果：全基因组测序发现 HemC 第 254 位的核苷酸从腺嘌呤（A）替换为胸腺嘧啶（T），导致 HemC 第 85 位的氨基酸从组氨酸（H）替换为亮氨酸（L）。其他血红素合成基因（包括 hemA、hemB、hemC、hemD、hemE、hemF、hemG、hemH、hemL、hemN、hemX 和 hemY）没有发生突变。HemC中含有H85L的大肠杆菌DH5α同源菌株对氨基糖苷类药物的敏感性较低，其生长速度比通过前的大肠杆菌DH5α慢。实时定量 PCR 显示，与通过前相比，同源菌株中 hemA 的表达量较高，而 hemL、hemG 和 hemX 的表达量较低：结论：这是首次报道由于 HemC 中的氨基酸替换而导致的氨基糖苷类耐药性。这些发现表明，血红素合成基因的突变可能会间接影响大肠杆菌菌株的生长速度及其对氨基糖苷类药物的敏感性。

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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来源期刊

Journal of Infection and Chemotherapy INFECTIOUS DISEASES-PHARMACOLOGY & PHARMACY

CiteScore

4.10

自引率

4.50%

发文量

303

审稿时长

47 days

期刊介绍： The Journal of Infection and Chemotherapy (JIC) — official journal of the Japanese Society of Chemotherapy and The Japanese Association for Infectious Diseases — welcomes original papers, laboratory or clinical, as well as case reports, notes, committee reports, surveillance and guidelines from all parts of the world on all aspects of chemotherapy, covering the pathogenesis, diagnosis, treatment, and control of infection, including treatment with anticancer drugs. Experimental studies on animal models and pharmacokinetics, and reports on epidemiology and clinical trials are particularly welcome.