纳米银复合材料与抗生素联合抑菌性能及机理研究

Wang Mengzhen, Sun Haoyu, Longchang Xi, Lin Zhifen
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引用次数: 1

摘要

抗生素的滥用导致细菌耐药问题日益严重,迫切需要开发新的抗菌药物来缓解这一问题。由单个纳米银合成的纳米银复合材料不仅克服了纳米银银离子释放速度快、理化性质不稳定等缺点,而且降低了细菌耐药性,被认为是一种具有广阔应用前景的新型抗菌剂。以往的研究表明,单纳米银与某些抗生素联合使用可表现出协同抗菌作用。然而,关于纳米银复合材料与抗生素联合使用的性能和作用机制的研究很少。本文合成了三种不同结构的纳米银复合材料:二氧化硅-聚多巴胺-纳米银(SiO2-PD-AgNPs), nanosilver@silica (AgNPs@SiO2)和nanosilver@silica-polydopamine-nanosilver (AgNPs@SiO2-PD-AgNPs)。随后,测定了纳米银复合材料对大肠杆菌(E. coli)和枯草芽孢杆菌(B. subtilis)的单毒性。结果表明,AgNPs@SiO2-PD-AgNPs对两种细菌的毒性均大于其他两种纳米银复合材料。因此,选择AgNPs@SiO2-PD-AgNPs作为代表,对其与KS(硫酸卡那霉素)/OH(盐酸土霉素)联合抑菌性能进行测定,发现AgNPs@SiO2-PD-AgNPs与KS联合对大肠杆菌/有协同作用。AgNPs@SiO2-PD-AgNPs释放的纳米银可以与KS反应形成KS-纳米银配合物,使得纳米银释放出大量Ag+。Ag+的增加增强了细胞膜的通透性,因此Ag+和KS进入细菌的量比单独作用时多,抗菌性能更强,具有协同作用。本研究在联合毒性实验的基础上,探索新型纳米银复合材料与特异性抗生素的最佳组合及其相关机制,将为新型抗菌材料的开发提供新的见解,并为药物的相关联合应用提供参考。
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Combined Antibacterial Property and Mechanism of Nanosilver Composites and Antibiotics against Bacteria
The abuse of antibiotics has caused increasingly serious problem of bacterial resistance, thus it is urgent to develop new antibacterial drugs to alleviate this problem. The nanosilver composites that was synthesized from single nanosilver can not only overcome the shortcomings of nanosilver, such as the rapid release rate of Ag+ and unstable physicochemical property, but also reduce the bacterial resistance, which are regarded as a new kind of antibacterial agents with broad application prospects. Previous studies have showed that the combination of single nanosilver and some antibiotics could exhibit the synergistic antibacterial effect. However, little information is available on the performance and mechanism of nanosilver composites combined with antibiotics. In this paper, three kinds of nanosilver composites with different structures were synthesized: silica-polydopamine-nanosilver (SiO2-PD-AgNPs), nanosilver@silica (AgNPs@SiO2) and nanosilver@silica-polydopamine-nanosilver (AgNPs@SiO2-PD-AgNPs). Subsequently, the single toxicity of nanosilver composites to Escherichia coli (E. coli) and Bacillus subtilis (B. subtilis) was determined. The results showed that the toxicity of AgNPs@SiO2-PD-AgNPs to the two kinds of bacteria were greater than that of the other two nanosilver composites. Therefore, AgNPs@SiO2-PD-AgNPs was selected as the representative to determine its combined antibacterial property with KS (kanamycin sulfate)/OH (oxytetracycline hydrochloride), and it was found that the combination of AgNPs@SiO2-PD-AgNPs and KS could display synergistic effect on E. coli/. The nanosilver released by AgNPs@SiO2-PD-AgNPs could react with KS to form the KS-nanosilver complex, resulting in a large amount of Ag+ released from nanosilver. The increase of Ag+ enhanced the permeability of cell membrane, so the amount of Ag+ and KS entering the bacteria were more than that of the antibacterial agents when acting alone, which resulted in greater antibacterial property and a synergistic effect. This study explores the optimal combination and related mechanism of new nanosilver composite and specific antibiotics based on the combined toxicity experiments, which will provide new insight into the development of new antibacterial materials and give a reference for the related combination application of drugs.
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