Evaluation of the effect of silver nanoparticles onOLN-93 oligodendroglial cells

IF 0.3 Q4 PHYSIOLOGY Physiology and Pharmacology Pub Date : 2021-12-01 DOI:10.52547/phypha.25.4.7
S. Nadjafi, Roshanak Ghods, M. Noori, V. Pirhajati Mahabadi, Nasrin Hosseini
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Abstract

Introduction: Metals such as silver have special merit in medicine. Recently, it has been shown that silver nanoparticles (Ag-NPs) can present some properties that could be valuable for researchers because of their dual neuroprotective and neurotoxic behaviors. The present study was planned to evaluate the effect of silver nanoparticles on OLN-93 oligodendrocytes through chemical hypoxic situation. Methods: AOLN-93 cell line was selected as an oligodendroglial cell model. The stock of the tested solution contained Ag-NPs with an average size of 40nm and concentration of 20.4 ppm. Chemical hypoxic-ischemic condition was induced by sodium azide (NaN3). After a three-hour pretreatment of OLN-93 cells with Ag-NPs (0.001ppm), the cells were incubated in glucose-free medium with sodium azide (100mM and 1M) and Ag-NPs (0.001ppm) for 15min. Then, the reperfusion condition was set by returning the medium to DMEM with 10% FBS along with Ag-NPs (0.001ppm) for 24h. Next, the viability of the cells was assessed by MTT method. Also, Transmission electron microscopy images were used to evaluate the morphology of the cells. Results: Our results showed that Ag-NPs with a concentration of 0.001 ppm could significantly increase ONL-93 cells survival through the 15min hypoxic-ischemia condition induced by NaN3 (100mM) followed by reperfusion (93.02±2.83). However, Ag-NPs (0.001ppm) could not protect the cells from hypoxic-ischemic injury induced by NaN3 (1M) through the same procedure. Conclusion: Although the neurotoxic effects of Ag-NPs have been documented in many studies, the Ag-NPs solution, which was used in this study, could show protective effects on oligodendroglial cells in concentration of 0.001 ppm during the planned model of chemical ischemia. Hence, more investigation is suggested to clarify the protective effect of Ag-NPs (average size of 40 nm) on oligodendrocytes.
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银纳米颗粒对oln -93少突胶质细胞作用的评价
像银这样的金属在医学上有特殊的价值。最近,研究表明银纳米颗粒(Ag-NPs)具有神经保护和神经毒性双重特性,对研究人员有价值。本研究拟通过化学缺氧的方式评价纳米银对OLN-93少突胶质细胞的影响。方法:选择AOLN-93细胞系作为少突胶质细胞模型。测试液中含有Ag-NPs,平均尺寸为40nm,浓度为20.4 ppm。叠氮化钠(NaN3)诱导化学缺氧缺血。用Ag-NPs (0.001ppm)预处理OLN-93细胞3小时后,细胞在无葡萄糖的叠氮化钠(100mM和1M)和Ag-NPs (0.001ppm)培养基中孵育15min。然后,将培养基返回到含有10% FBS的DMEM中,并加入Ag-NPs (0.001ppm) 24h,设定再灌注条件。然后用MTT法测定细胞活力。同时用透射电镜观察细胞形态。结果:0.001 ppm Ag-NPs能显著提高ONL-93细胞在NaN3 (100mM)诱导下缺氧缺血15min后再灌注后的存活率(93.02±2.83)。Ag-NPs (0.001ppm)不能通过相同的方法保护细胞免受NaN3 (1M)引起的缺氧缺血性损伤。结论:虽然Ag-NPs的神经毒性作用在许多研究中都有记载,但本研究中使用的Ag-NPs溶液在0.001 ppm浓度下对化学缺血计划模型中的少突胶质细胞具有保护作用。因此,建议进一步研究Ag-NPs(平均尺寸为40 nm)对少突胶质细胞的保护作用。
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来源期刊
CiteScore
0.70
自引率
0.00%
发文量
4
期刊介绍: Physiology and Pharmacology is the official English publication of the Iranian Society of Physiology and Pharmacology. The journal publishes Review articles, Full-length original articles, Letter to editor and Short communications in physiology, pharmacology and related subjects. The aim of this journal is to provide a medium of scientific communication for investigators in the field of Physiology and Pharmacology. The editors will welcome original basic and applied research articles from Physiologists and Pharmacologists. Articles should be in English language. The papers submitted to this journal must not be Published or under consideration for publication elsewhere. Physiology and Pharmacology is an open access journal which means that all contents is freely available without charge to the user or his/her institution. Users are allowed to read, download, copy, distribute, print, search or link to the full text of the articles in this journal without asking prior permission from the publisher or the author.
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