mtrR、rpdlVD 和 rrl 基因突变对淋病奈瑟菌阿奇霉素耐药性的影响。

Impact of mutations in the mtrR, rpdlVD and rrl genes on azithromycin resistance in Neisseria gonorrhoeae.

机构信息

Infection Prevention and Control Unit, Infectious Diseases Service, Lausanne University Hospital and University of Lausanne, Lausanne, Switzerland.

Swiss National Reference Center for Emerging Antibiotic Resistance, Fribourg, Switzerland.

出版信息

PLoS One. 2024 Jul 16;19(7):e0306695. doi: 10.1371/journal.pone.0306695. eCollection 2024.

DOI:10.1371/journal.pone.0306695

PMID:39012901

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11251580/

Abstract

INTRODUCTION

Bacterial sexually transmitted infections (STIs) pose a major public health problem. The emergence of antibiotic-resistant strains of Neisseria gonorrhoeae represents a serious threat to successful treatment and epidemiological control. The first extensively drug-resistant (XDR) strains (ceftriaxone-resistant and high-level azithromycin-resistant [HLR AZY]) have been reported.

AIMS

To identify molecular mechanisms implicated in azithromycin resistance in strains isolated from patients over a three-year period in a university hospital in Switzerland.

MATERIAL AND METHODS

From January 2020 to December 2022, 34 isolates (one per patient) were recovered from samples analyzed at the University Hospital of Lausanne. Eight genes involved in azithromycin resistance were sequenced: mtrR repressor (mtrCDE operon repressor) and his promotor mtrR-pr, rplD gene (L4 ribosomal protein), rplV gene (L22 ribosomal protein) and the four alleles of the rrl gene (23S rRNA).

RESULTS

With a cutoff value of 1 mg/L, 15 isolates were considered as being resistant to azithromycin, whereas the remaining 19 were susceptible. The C2597T mutation in 3 or 4 of the rrl allele confer a medium-level resistance to azithromycin (MIC = 16 mg/L, N = 2). The following mutations were significantly associated with MIC values ≥1 mg/L: the three mutations V125A, A147G, R157Q in the rplD gene (N = 10) and a substitution A->C in the mtrR promotor (N = 9). Specific mutations in the mtrR repressor and its promotor were observed in both susceptible and resistant isolates.

CONCLUSIONS

Resistance to azithromycin was explained by the presence of mutations in many different copies of 23S RNA ribosomal genes and their regulatory genes. Other mutations, previously reported to be associated with azithromycin resistance, were documented in both susceptible and resistant isolates, suggesting they play little role, if any, in azithromycin resistance.

摘要

简介

细菌性性传播感染（STIs）是一个主要的公共卫生问题。淋球菌对抗生素的耐药性菌株的出现对成功治疗和流行病学控制构成了严重威胁。已经报道了第一批广泛耐药（XDR）菌株（头孢曲松耐药和高水平阿奇霉素耐药[HLR AZY]）。

目的

鉴定在瑞士一所大学医院三年内从患者样本中分离出的菌株中与阿奇霉素耐药相关的分子机制。

材料和方法

从 2020 年 1 月至 2022 年 12 月，从洛桑大学医院分析的样本中回收了 34 株分离株（每位患者一株）。对涉及阿奇霉素耐药的 8 个基因进行了测序：mtrR 抑制剂（mtrCDE 操纵子抑制剂）和他的启动子 mtrR-pr、rplD 基因（L4 核糖体蛋白）、rplV 基因（L22 核糖体蛋白）和 rrl 基因的四个等位基因（23S rRNA）。

结果

以 1mg/L 为截断值，15 株被认为对阿奇霉素耐药，而其余 19 株则敏感。rrl 等位基因的 C2597T 突变在 3 或 4 个中导致阿奇霉素的中水平耐药（MIC=16mg/L，N=2）。以下突变与 MIC 值≥1mg/L 显著相关：rplD 基因中的 V125A、A147G、R157Q 三种突变（N=10）和 mtrR 启动子中的 A->C 取代（N=9）。在敏感和耐药分离株中均观察到 mtrR 抑制剂及其启动子的特定突变。

结论

阿奇霉素耐药性是由核糖体基因及其调节基因的许多不同拷贝中的突变引起的。在敏感和耐药分离株中均记录了先前报道与阿奇霉素耐药相关的其他突变，这表明它们在阿奇霉素耐药性中作用不大，如果有作用的话。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7b37/11251580/803522ea8789/pone.0306695.g001.jpg

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mtrR、rpdlVD 和 rrl 基因突变对淋病奈瑟菌阿奇霉素耐药性的影响。

Impact of mutations in the mtrR, rpdlVD and rrl genes on azithromycin resistance in Neisseria gonorrhoeae.

机构信息

出版信息

INTRODUCTION

AIMS

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

简介

目的

材料和方法

结果

结论

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