Phenotypic and genetic characterization of daptomycin non-susceptible Staphylococcus aureus strains selected by adaptive laboratory evolution.

IF 4.6 2区医学 Q2 IMMUNOLOGY Frontiers in Cellular and Infection Microbiology Pub Date : 2024-10-24 eCollection Date: 2024-01-01 DOI:10.3389/fcimb.2024.1453233

Yanlei Xu, Yanghua Xiao, Huilin Zhao, Bingjie Wang, Jingyi Yu, Yongpeng Shang, Ying Zhou, Xiaocui Wu, Yinjuan Guo, Fangyou Yu

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Abstract

Background: Daptomycin non-susceptible Staphylococcus aureus (DNS) strains pose a serious clinical threat, yet their characteristics remain poorly understood.

Methods: DNS derivatives were generated by exposing S. aureus strains to subinhibitory concentrations of daptomycin. Competition experiment and growth kinetics experiment were used to observe the growth of bacteria. Galleria mellonella larvae and mouse skin abscess models were used to observe the virulence of bacteria. Transmission electron microscopy (TEM), cytochrome C experiment and biofilm formation experiment were used to observe the drug resistance phenotype. And homologous recombination was used to study the role of mutations.

Results: Phenotypic profiling of DNS strains revealed impaired growth, increased cell wall thickness, enhanced biofilm formation, reduced negative surface charge, and attenuated virulence compared to their wild-type strains. Whole genome sequencing identified mutations in mprF, cls2, and saeR in DNS strains. Allelic replacement experiments validated the roles of MprF L341F and Cls2 F60S substitutions in augmenting daptomycin non-susceptibility in Newman. Deletion of saeR in the Newman_MprFL341F strain and complementation of saeR in the Newman-DNS strain did not directly alter daptomycin susceptibility. However, the deletion of saeR was found to enhance competitive fitness under daptomycin pressure.

Conclusion: This work validates adaptive laboratory evolution (ALE) for modeling clinical DNS strains and uncovers contributions of mprF, cls2, and saeR mutations to the adaptation and resistance mechanisms of S. aureus against daptomycin. These findings enrich our understanding of how S. aureus acquired resistance to daptomycin, thus paving the way for the development of more effective treatment strategies and offering potential molecular markers for resistance surveillance.

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通过实验室适应性进化筛选出的对达托霉素无敏感性的金黄色葡萄球菌菌株的表型和遗传特征。

背景：对达托霉素不敏感的金黄色葡萄球菌（DNS）菌株构成了严重的临床威胁，但人们对其特征的了解仍然很少：不耐受达托霉素的金黄色葡萄球菌（DNS）菌株对临床构成了严重威胁，但人们对其特征仍知之甚少：方法：将金黄色葡萄球菌菌株暴露于亚抑制浓度的达托霉素中，产生 DNS 衍生物。采用竞争实验和生长动力学实验观察细菌的生长情况。用鼠胆幼虫和小鼠皮肤脓肿模型观察细菌的毒力。利用透射电子显微镜（TEM）、细胞色素 C 实验和生物膜形成实验观察耐药性表型。同源重组用于研究突变的作用：结果：与野生型菌株相比，DNS菌株的表型分析表明其生长受阻、细胞壁厚度增加、生物膜形成增强、表面负电荷减少、毒力减弱。全基因组测序确定了 DNS 菌株中 mprF、cls2 和 saeR 的突变。等位基因置换实验验证了 MprF L341F 和 Cls2 F60S 的置换在增强纽曼的达托霉素不敏感性中的作用。纽曼MprFL341F菌株中saeR的缺失和纽曼-DNS菌株中saeR的互补并没有直接改变对达托霉素的敏感性。然而，在达托霉素的压力下，saeR的缺失被发现能提高竞争适应性：这项工作验证了适应性实验室进化（ALE）对临床 DNS 菌株建模的有效性，并发现了 mprF、cls2 和 saeR 突变对金黄色葡萄球菌对达托霉素的适应性和抗性机制的贡献。这些发现丰富了我们对金葡菌如何获得达托霉素耐药性的理解，从而为开发更有效的治疗策略铺平了道路，并为耐药性监测提供了潜在的分子标记。

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

Frontiers in Cellular and Infection Microbiology IMMUNOLOGY-MICROBIOLOGY

CiteScore

7.90

自引率

7.00%

发文量

1817

审稿时长

14 weeks

期刊介绍： Frontiers in Cellular and Infection Microbiology is a leading specialty journal, publishing rigorously peer-reviewed research across all pathogenic microorganisms and their interaction with their hosts. Chief Editor Yousef Abu Kwaik, University of Louisville is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Frontiers in Cellular and Infection Microbiology includes research on bacteria, fungi, parasites, viruses, endosymbionts, prions and all microbial pathogens as well as the microbiota and its effect on health and disease in various hosts. The research approaches include molecular microbiology, cellular microbiology, gene regulation, proteomics, signal transduction, pathogenic evolution, genomics, structural biology, and virulence factors as well as model hosts. Areas of research to counteract infectious agents by the host include the host innate and adaptive immune responses as well as metabolic restrictions to various pathogenic microorganisms, vaccine design and development against various pathogenic microorganisms, and the mechanisms of antibiotic resistance and its countermeasures.