期刊
NANOTOXICOLOGY
卷 10, 期 6, 页码 710-719出版社
TAYLOR & FRANCIS LTD
DOI: 10.3109/17435390.2015.1113321
关键词
Cellular uptake; confocal microscopy; ICP-MS; image analysis; nanosilver; transmission electron microscopy; silver ions; silver nanoparticles
资金
- U.S. Food and Drug Administration nanotechnology research funds
Cytotoxicity assessments of nanomaterials, such as silver nanoparticles, are challenging due to interferences with test reagents and indicators as well uncertainties in dosing as a result of the complex nature of nanoparticle intracellular accumulation. Furthermore, current theories suggest that silver nanoparticle cytotoxicity is a result of silver nanoparticle dissolution and subsequent ion release. This study introduces a novel technique, nanoparticle associated cytotoxicity microscopy analysis (NACMA), which combines fluorescence microscopy detection using ethidium homodimer-1, a cell permeability marker that binds to DNA after a cell membrane is compromised (a classical dead-cell indicator dye), with live cell time-lapse microscopy and image analysis to simultaneously investigate silver nanoparticle accumulation and cytotoxicity in L-929 fibroblast cells. Results of this method are consistent with traditional methods of assessing cytotoxicity and nanoparticle accumulation. Studies conducted on 10, 50, 100 and 200nm silver nanoparticles reveal size dependent cytotoxicity with particularly high cytotoxicity from 10nm particles. In addition, NACMA results, when combined with transmission electron microscopy imaging, reveal direct evidence of intracellular silver ion dissolution and possible nanoparticle reformation within cells for all silver nanoparticle sizes.
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