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功能化阳极氧化铝作为一种杀菌剂。

Functionalised Anodised Aluminium Oxide as a Biocidal Agent.

机构信息

Institute of Nuclear Physics, Polish Academy of Sciences, PL-31342 Krakow, Poland.

Department of Animal Nutrition, The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, PL-05110 Jabłonna, Poland.

出版信息

Int J Mol Sci. 2022 Jul 28;23(15):8327. doi: 10.3390/ijms23158327.

DOI:10.3390/ijms23158327
PMID:35955460
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9369004/
Abstract

In this article, we describe the antimicrobial properties of a new composite based on anodic aluminium oxide (AAO) membranes containing propyl-copper-phosphonate units arranged at a predetermined density inside the AAO channels. The samples were prepared with four concentrations of copper ions and tested as antimicrobial drug on four different strains of (K12, R2, R3 and R4). For comparison, the same strains were tested with three types of antibiotics using the minimal inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) tests. Moreover, DNA was isolated from the analysed bacteria which was additionally digested with formamidopyrimidine-DNA glycosylase (Fpg) protein from the group of repair glycosases. These enzymes are markers of modified oxidised bases in nucleic acids produced during oxidative stress in cells. Preliminary cellular studies, MIC and MBC tests and digestion with Fpg protein after modification of bacterial DNA suggest that these compounds may have greater potential as antibacterial agents than antibiotics such as ciprofloxacin, bleomycin and cloxacillin. The described composites are highly specific for the analysed model strains and may be used in the future as new substitutes for commonly used antibiotics in clinical and nosocomial infections in the progressing pandemic era. The results show much stronger antibacterial properties of the functionalised membranes on the action of bacterial membranes in comparison to the antibiotics in the Fpg digestion experiment. This is most likely due to the strong induction of oxidative stress in the cell through the breakdown of the analysed bacterial DNA. We have also observed that the intermolecular distances between the functional units play an important role for the antimicrobial properties of the used material. Hence, we utilised the idea of the 2D solvent to tailor them.

摘要

在本文中,我们描述了一种新型复合材料的抗菌性能,该复合材料基于含有丙基-铜-膦酸酯单元的阳极氧化铝 (AAO) 膜,这些单元以预定的密度排列在 AAO 通道内。我们用四种浓度的铜离子制备了样品,并将其作为抗菌药物对四种不同的菌株(K12、R2、R3 和 R4)进行了测试。为了进行比较,我们使用最小抑菌浓度 (MIC) 和最小杀菌浓度 (MBC) 测试,用三种类型的抗生素对相同的菌株进行了测试。此外,我们从分析的细菌中提取了 DNA,并进一步用修复糖苷酶组中的 formamidopyrimidine-DNA glycosylase (Fpg) 蛋白进行消化。这些酶是细胞氧化应激过程中产生的核酸中修饰氧化碱基的标志物。初步细胞研究、MIC 和 MBC 测试以及 Fpg 蛋白消化后细菌 DNA 的修饰表明,与环丙沙星、博来霉素和氯唑西林等抗生素相比,这些化合物可能具有更大的抗菌潜力。所描述的复合材料对分析的模式菌株具有高度特异性,并且可能在未来作为临床和医院感染中常用抗生素的替代品在不断发展的大流行时代使用。结果表明,与 Fpg 消化实验中的抗生素相比,功能化膜对细菌膜的作用具有更强的抗菌性能。这很可能是由于分析的细菌 DNA 的破坏导致细胞中产生强烈的氧化应激。我们还观察到,功能单元之间的分子间距离对所用材料的抗菌性能起着重要作用。因此,我们利用二维溶剂的概念对它们进行了调整。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/298e/9369004/ef96cb8984f6/ijms-23-08327-g009.jpg
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