Nanotoxicity of silver nanoparticles to red blood cells:size dependent adsoprtion, uptake, and hemol-云南大学国际河流与生态安全研究院

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科学研究

研究成果: Nanotoxicity of silver nanoparticles to red blood cells:size dependent adsoprtion, uptake, and hemol

更新时间: 2015-10-08 编辑:

Nanotoxicity of Silver Nanoparticles to Red Blood Cells: Size Dependent Adsorption, Uptake, and Hemolytic Activity

Li Qiang Chen *†, Li Fang †, Jian Ling ‡, Cheng Zhi Ding †, Bin Kang †, and Cheng Zhi Huang *§

Abstract
Silver nanoparticles (AgNPs) are increasingly being used as antimicrobial agents and drug carriers in biomedical fields. However, toxicological information on their effects on red blood cells (RBCs) and the mechanisms involved remain sparse. In this article, we examined the size dependent nanotoxicity of AgNPs using three different characteristic sizes of 15 nm (AgNPs15), 50 nm (AgNPs50), and 100 nm (AgNPs100) against fish RBCs. Optical microscopy and transmission electron microscopy observations showed that AgNPs exhibited a size effect on their adsorption and uptake by RBCs. The middle sized AgNPs50, compared with the smaller or bigger ones, showed the highest level of adsorption and uptake by the RBCs, suggesting an optimal size of ∼ 50 nm for passive uptake by RBCs. The toxic effects determined based on the hemolysis, membrane injury, lipid peroxidation, and antioxidant enzyme production were fairly size and dose dependent. In particular, the smallest sized AgNPs15 displayed a greater ability to induce hemolysis and membrane damage than AgNPs50 and AgNPs100. Such cytotoxicity induced by AgNPs should be attributed to the direct interaction of the nanoparticle with the RBCs, resulting in the production of oxidative stress, membrane injury, and subsequently hemolysis. Overall, the results suggest that particle size is a critical factor influencing the interaction between AgNPs and the RBCs.

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科学研究

研究成果

Nanotoxicity of silver nanoparticles to red blood cells:size dependent adsoprtion, uptake, and hemol

更新时间: 2015-10-08 编辑: