An induced mutation of ABC-transporter component VraF(K84E) contributes to vancomycin resistance and virulence in Staphylococcus aureus strain MW2

IF 4.5 3区 医学 Q1 MICROBIOLOGY
Ruobing Cao , Huimin Su , Zichun Wei , Zhien He , Ting Pan , Yujie Li , Baolin Sun
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引用次数: 0

Abstract

Staphylococcus aureus is a notorious pathogen responsible for various severe diseases. Due to the emergence of drug-resistant strains, the prevention and treatment of S. aureus infections have become increasingly challenging. Vancomycin is considered to be one of the last-resort drugs for treating most methicillin-resistant S. aureus (MRSA), so it is of great significance to further reveal the mechanism of vancomycin resistance. VraFG is one of the few important ABC (ATP-binding cassette) transporters in S. aureus that can form TCS (two-component systems)/ABC transporter modules. ABC transporters can couple the energy released from ATP hydrolysis to translocate solutes across the cell membrane. In this study, we obtained a strain with decreased vancomycin susceptibility after serial passaging and selection. Subsequently, whole-genome sequencing was performed on this laboratory-derived strain MWA2 and a novel single point mutation was discovered in vraF gene, leading to decreased sensitivity to vancomycin and daptomycin. Furthermore, the mutation reduces autolysis of S. aureus and downregulates the expression of lytM, isaA, and atlA. Additionally, we observed that the mutant has a less net negative surface charge than wild-type strain. We also noted an increase in the expression of the dlt operon and mprF gene, which are associated with cell surface charge and serve to hinder the binding of cationic peptides by promoting electrostatic repulsion. Moreover, this mutation has been shown to enhance hemolytic activity, expand subcutaneous abscesses, reflecting an increased virulence. This study confirms the impact of a point mutation of VraF on S. aureus antibiotic resistance and virulence, contributing to a broader understanding of ABC transporter function and providing new targets for treating S. aureus infections.

金黄色葡萄球菌 MW2 菌株中 ABC 转运体成分 VraF(K84E) 的诱导突变导致万古霉素耐药性和毒力增强
金黄色葡萄球菌是导致各种严重疾病的臭名昭著的病原体。由于耐药菌株的出现,金黄色葡萄球菌感染的预防和治疗变得越来越具有挑战性。万古霉素被认为是治疗大多数耐甲氧西林金黄色葡萄球菌(MRSA)的最后手段之一,因此进一步揭示万古霉素耐药机制具有重要意义。VraFG 是金黄色葡萄球菌中少数几个能形成 TCS(双组分系统)/ABC 转运体模块的重要 ABC(ATP 结合盒)转运体之一。ABC 转运体可将 ATP 水解释放的能量与溶质跨细胞膜转运结合起来。在本研究中,我们获得了一株经过连续传代和筛选后对万古霉素敏感性降低的菌株。随后,我们对这株来自实验室的菌株 MWA2 进行了全基因组测序,发现 vraF 基因有一个新的单点突变,导致其对万古霉素和达托霉素的敏感性降低。此外,该突变减少了金黄色葡萄球菌的自溶,并下调了 lytM、isaA 和 atlA 的表达。此外,我们观察到突变体的表面净负电荷少于野生型菌株。我们还注意到 dlt 操作子和 mprF 基因的表达增加,它们与细胞表面电荷有关,可通过促进静电排斥来阻碍阳离子肽的结合。此外,这种突变已被证明能增强溶血活性,扩大皮下脓肿,反映出毒力增强。这项研究证实了 VraF 的点突变对金黄色葡萄球菌抗生素耐药性和毒力的影响,有助于人们更广泛地了解 ABC 转运体的功能,并为治疗金黄色葡萄球菌感染提供了新的靶点。
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来源期刊
CiteScore
9.70
自引率
0.00%
发文量
18
审稿时长
45 days
期刊介绍: Pathogen genome sequencing projects have provided a wealth of data that need to be set in context to pathogenicity and the outcome of infections. In addition, the interplay between a pathogen and its host cell has become increasingly important to understand and interfere with diseases caused by microbial pathogens. IJMM meets these needs by focussing on genome and proteome analyses, studies dealing with the molecular mechanisms of pathogenicity and the evolution of pathogenic agents, the interactions between pathogens and host cells ("cellular microbiology"), and molecular epidemiology. To help the reader keeping up with the rapidly evolving new findings in the field of medical microbiology, IJMM publishes original articles, case studies and topical, state-of-the-art mini-reviews in a well balanced fashion. All articles are strictly peer-reviewed. Important topics are reinforced by 2 special issues per year dedicated to a particular theme. Finally, at irregular intervals, current opinions on recent or future developments in medical microbiology are presented in an editorial section.
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