Q48K mutation in the type IB nitroreductase NrmA is responsible for nitrofurantoin resistance in Enterococcus faecium

IF 4.9 2区医学 Q1 INFECTIOUS DISEASES International Journal of Antimicrobial Agents Pub Date : 2024-07-19 DOI:10.1016/j.ijantimicag.2024.107277

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Abstract

Objectives

Nitrofurantoin is recommended as first-line therapy for the optimal treatment of uncomplicated urinary tract infections (UTIs) caused by enterococci and Escherichia coli. However, the mechanisms of nitrofurantoin resistance in enterococci have not been elucidated. This study aimed to investigate the mechanisms of nitrofurantoin resistance in E. faecium, focusing on the role of the nitroreductase NrmA.

Methods

Enterococcus strains isolated from the urinary tract samples were collected and were tested for nitrofurantoin susceptibility. Potential genes associated with nitrofurantoin resistance were screened in the NCBI nucleotide database and by polymerase chain reaction (PCR). Complementation assays and enzyme kinetic tests were performed to assess the impact of the Q48K mutation in NrmA on nitrofurantoin resistance.

Results

Of the 128 E. faecium isolates tested, 59 (46.1%) were resistant to nitrofurantoin. Analysis revealed the presence of a type IB nitroreductase, designated NrmA, in all E. faecium strains studied, shared 18.7% sequence identity with nitroreductase NfsB in E. coli. Different from NrmA in nitrofurantoin-susceptible E. faecium, nitrofurantoin-resistant strains had a single amino acid substitution, i.e., a lysine instead of a glutamine at position 48 (Q48K mutation). Complementation assays of nitrofurantoin-resistant E. faecium HS17-112 showed that the nitrofurantoin minimal inhibitory concentration of the complemented strain HS17-112: pIB166-nrmA (wild type [WT]) decreased from 128 mg/L to 4 mg/L. Compared with NrmA (WT), NrmA (Q48K) showed significantly reduced catalytic efficiency, with a kcat/Km value decreasing from 0.122 µM⁻¹ s⁻¹ to 0.000042 µM⁻¹ s⁻¹.

Conclusion

The Q48K mutation in nitroreductase NrmA is responsible for nitrofurantoin resistance in E. faecium.

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IB 型硝基还原酶 NrmA 的 Q48K 突变是造成粪肠球菌耐硝基呋喃妥因的原因。

推荐将硝基呋喃妥因作为一线疗法，以优化治疗由肠球菌和大肠埃希菌引起的无并发症尿路感染（UTI）。编码硝基还原酶的 nfsA 和 nfsB 基因突变可导致革兰氏阴性菌对硝基呋喃妥因产生耐药性。然而，肠球菌对硝基呋喃妥因耐药的机制尚未阐明。本研究从UTI患者中收集了128株临床分离的粪肠球菌，其中59株（46.1%）对硝基呋喃妥因耐药。通过分析 NCBI 数据库中的粪肠球菌全基因组序列，在所有粪肠球菌菌株中发现了一种 IB 型硝基还原酶，并将其命名为 nrmA，代表粪肠球菌中的硝基还原酶。硝基还原酶 NrmA 与大肠杆菌中的硝基还原酶 NfsB 有 18.7% 的序列相同性。与对硝基呋喃妥因敏感的粪肠球菌中的 NrmA 不同，耐硝基呋喃妥因的粪肠球菌中的 NrmA 有一个氨基酸置换，即第 48 位的赖氨酸取代了谷氨酰胺（Q48K 突变）。该突变位于 NfsB 和革兰氏阴性菌中其他硝基还原酶的保守区域，其中可能包括黄素单核苷酸结合位点。对耐硝基呋喃妥因的粪肠球菌HS17-112进行的补体检测表明，补体后的菌株HS17-112：pIB166-nrmA（野生型[WT]）的硝基呋喃妥因最小抑菌浓度从128毫克/升降至4毫克/升。与 NrmA（WT）相比，NrmA（Q48K）对硝基呋喃妥因的催化效率较低。NrmA(Q48K) 对硝基呋喃妥因的 kcat/Km 从 0.122 μM-1 s-1 降至 0.000042 μM-1 s-1。总之，硝基还原酶 NrmA 的 Q48K 突变是造成粪肠球菌耐硝基呋喃妥因的原因。

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

International Journal of Antimicrobial Agents 医学-传染病学

CiteScore

21.60

自引率

0.90%

发文量

176

审稿时长

36 days

期刊介绍： The International Journal of Antimicrobial Agents is a peer-reviewed publication offering comprehensive and current reference information on the physical, pharmacological, in vitro, and clinical properties of individual antimicrobial agents, covering antiviral, antiparasitic, antibacterial, and antifungal agents. The journal not only communicates new trends and developments through authoritative review articles but also addresses the critical issue of antimicrobial resistance, both in hospital and community settings. Published content includes solicited reviews by leading experts and high-quality original research papers in the specified fields.