Superior Performance of Iron-Coated Silver Nanoparticles and Cefoxitin as an Antibiotic Composite Against Methicillin-Resistant  Staphylococcus aureus (MRSA): A Population Study.

IF 2.4 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Biotechnology Pub Date : 2024-12-01 Epub Date: 2023-11-13 DOI:10.1007/s12033-023-00957-y
Nahal Hadi, Sedigheh Nakhaeitazreji, Farshad Kakian, Zahra Hashemizadeh, Alireza Ebrahiminezhad, Jun Wei Roy Chong, Aydin Berenjian, Pau Loke Show
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Abstract

The synergistic effects of antimicrobial nanostructures with antibiotics present a promising solution for overcoming resistance in methicillin-resistant Staphylococcus aureus (MRSA). Previous studies have introduced iron as a novel coating for silver nanoparticles (AgNPs) to enhance both economic efficiency and potency against S. aureus. However, there are currently no available data on the potential of these novel nanostructures to reverse MRSA resistance. To address this gap, a population study was conducted within the MRSA community, collecting a total of 48 S. aureus isolates from skin lesions. Among these, 21 isolates (43.75%) exhibited cefoxitin resistance as determined by agar disk diffusion assay. Subsequently, a PCR test confirmed the presence of the mecA gene in 20 isolates, verifying them as MRSA. These results highlight the cefoxitin disk diffusion susceptibility test as an accurate screening method for predicting mecA-mediated resistance in MRSA. Synergy tests were performed on cefoxitin, serving as a marker antibiotic, and iron-coated AgNPs (Fe@AgNPs) in a combination study using the checkerboard assay. The average minimal inhibitory concentration (MIC) and fractional inhibitory concentration (FIC) of cefoxitin were calculated as 11.55 mg/mL and 3.61 mg/mL, respectively. The findings indicated a synergistic effect (FIC index < 0.5) between Fe@AgNPs and cefoxitin against 90% of MRSA infections, while an additive effect (0.5 ≤ FIC index ≤ 1) could be expected in 10% of infections. These results suggest that Fe@AgNPs could serve as an economically viable candidate for co-administration with antibiotics to reverse resistance in MRSA infections within skin lesions. Such findings may pave the way for the development of future treatment strategies against MRSA infections.

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铁包覆银纳米颗粒和头孢西丁作为抗耐甲氧西林金黄色葡萄球菌(MRSA)复合抗生素的优越性能:群体研究。
抗菌纳米结构与抗生素的协同作用为克服耐甲氧西林金黄色葡萄球菌(MRSA)的耐药性提供了一个有希望的解决方案。以前的研究已经引入铁作为银纳米颗粒(AgNPs)的新型涂层,以提高经济效率和抗金黄色葡萄球菌的效力。然而,目前还没有关于这些新型纳米结构逆转MRSA耐药性的潜力的可用数据。为了解决这一差距,在MRSA群体中进行了一项人口研究,从皮肤病变中收集了总共48株金黄色葡萄球菌。琼脂扩散法检测21株头孢西丁耐药,占43.75%。随后,PCR检测证实在20株分离株中存在mecA基因,证实它们为MRSA。这些结果表明头孢西丁片扩散药敏试验是预测甲氧甲嘧啶介导的MRSA耐药的准确筛选方法。在一项使用棋盘法的联合研究中,对作为标记抗生素的头孢西丁和铁包覆AgNPs (Fe@AgNPs)进行协同试验。计算头孢西丁的平均最小抑制浓度(MIC)和分数抑制浓度(FIC)分别为11.55 mg/mL和3.61 mg/mL。结果显示协同效应(FIC指数)
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来源期刊
Molecular Biotechnology
Molecular Biotechnology 医学-生化与分子生物学
CiteScore
4.10
自引率
3.80%
发文量
165
审稿时长
6 months
期刊介绍: Molecular Biotechnology publishes original research papers on the application of molecular biology to both basic and applied research in the field of biotechnology. Particular areas of interest include the following: stability and expression of cloned gene products, cell transformation, gene cloning systems and the production of recombinant proteins, protein purification and analysis, transgenic species, developmental biology, mutation analysis, the applications of DNA fingerprinting, RNA interference, and PCR technology, microarray technology, proteomics, mass spectrometry, bioinformatics, plant molecular biology, microbial genetics, gene probes and the diagnosis of disease, pharmaceutical and health care products, therapeutic agents, vaccines, gene targeting, gene therapy, stem cell technology and tissue engineering, antisense technology, protein engineering and enzyme technology, monoclonal antibodies, glycobiology and glycomics, and agricultural biotechnology.
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