Antioxidant Activity of Silver-containing Bionanocompositions Based on Humic Substances in Cell Culture

Q3 Pharmacology, Toxicology and Pharmaceutics Drug Development and Registration Pub Date : 2021-11-25 DOI:10.33380/2305-2066-2021-10-4-46-53
E. Buyko, M. V. Zykova, V. V. Ivanov, K. A. Bratishko, A. A. Ufandeev, I. O. Grigorieva, A. V. Tsupko, D. A. Mikhalyov, I. Perminova, M. Belousov
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引用次数: 2

Abstract

Introduction. Silver nanoparticles are promising agents for suppressing resistant strains of microorganisms and accelerating the purulent wounds healing. Oxidative stress disrupts normal wound healing processes, which leads to the formation of chronic non-healing wounds. Therefore, the determination of the ability of new wound healing agents to decrease the production of reactive oxygen species is a relevant task.Aim. The aim of the current study was to investigate the effect of silver-containing bionanocompositions based on humic substances on the basal and tert-butyl hydroperoxide-stimulated production of reactive oxygen species at the normal fibroblasts 3T3-L1 cell culture in vitro.Materials and methods. The study was carried out on 7 samples of initial humic substances and biomaterials with silver nanoparticles synthesized in the Laboratory of Natural Humic Systems, Faculty of Chemistry, Moscow State University named after M. V. Lomonosov. The intracellular production of reactive oxygen species was assessed using a 2,7-dichlorodihydrofluorescein diacetate fluorescent probe. Cells were cultured with samples for 24 h; tret-butyl hydroperoxide was used to stimulate the production of reactive oxygen species. Detection was performed fluorometrically using a microplate reader.Results and discussion. The most pronounced antioxidant activity was demonstrated by three samples of biomaterials with silver nanoparticles ultradispersed in humic substances matrices (CHS-AgNPs, CHP-AgNPs and CHE-AgNPs), which allows us to consider them as the most promising pharmaceutical agents for the treatment of purulent-inflammatory processes. The most probable mechanism of the high antioxidant activity of the studied biomaterials in relation to intracellular reactive oxygen species is the intrinsic activity of humic substances to bind reactive oxygen species, while silver nanoparticles in biomaterials catalyze the reduction processes of their interaction with reactive oxygen species.Conclusion. For the studied samples of biomaterials with silver nanoparticles ultradispersed in matrices of humic substances pronounced antioxidant activity was shown. Together with antibacterial properties, it makes it possible to consider them as potential agents for purulent wounds healing accelerating.
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基于腐殖物质的含银生物纳米组合物在细胞培养中的抗氧化活性
介绍。银纳米颗粒是抑制耐药微生物菌株和加速化脓性伤口愈合的有前途的药物。氧化应激破坏正常的伤口愈合过程,导致慢性不愈合伤口的形成。因此,确定新型创面愈合剂减少活性氧产生的能力是一项相关的任务。本研究的目的是研究基于腐殖质物质的含银生物纳米组合物对体外培养的正常成纤维细胞3T3-L1细胞中基础和叔丁基过氧化氢刺激下活性氧产生的影响。材料和方法。该研究是在莫斯科国立大学化学系天然腐殖质系统实验室以m.v.罗蒙诺索夫命名的合成的7个初始腐殖质和生物材料样品中进行的。使用2,7-二氯二氢荧光素双醋酸酯荧光探针评估细胞内活性氧的产生。细胞与样品一起培养24 h;过氧化叔丁基被用来刺激活性氧的产生。使用微孔板阅读器进行荧光检测。结果和讨论。最显著的抗氧化活性被证明是由三种生物材料样品与超分散在腐殖质基质(CHS-AgNPs, CHP-AgNPs和CHE-AgNPs),这使我们认为它们是最有希望的药物制剂用于治疗化脓性炎症过程。所研究的生物材料与细胞内活性氧具有较高的抗氧化活性,最可能的机制是腐殖质结合活性氧的内在活性,而生物材料中的银纳米粒子催化了它们与活性氧相互作用的还原过程。纳米银纳米颗粒超分散于腐殖质基质中的生物材料样品显示出明显的抗氧化活性。再加上抗菌的特性,它可以被认为是化脓性伤口加速愈合的潜在药物。
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来源期刊
Drug Development and Registration
Drug Development and Registration Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
1.20
自引率
0.00%
发文量
61
审稿时长
8 weeks
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