Toxicity of Metal Oxide Nanoparticles in Escherichia coli Correlates with Conduction Band and Hydration Energies

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• 作者：Chitrada Kaweeteerawat ; Angela Ivask ; Rong Liu ; Haiyuan Zhang ; Chong Hyun Chang ; Cecile Low-Kam ; Heidi Fischer ; Zhaoxia Ji ; Suman Pokhrel ; Yoram Cohen ; Donatello Telesca ; Jeffrey Zink ; Lutz M盲dler ; Patricia A. Holden ; Andre Nel ; Hilary Godwin
• 刊名：Environmental Science & Technology
• 出版年：2015
• 出版时间：January 20, 2015
• 年：2015
• 卷：49
• 期：2
• 页码：1105-1112
• 全文大小：336K
• ISSN：1520-5851

文摘

Metal oxide nanoparticles (MO_x NPs) are used for a host of applications, such as electronics, cosmetics, construction, and medicine, and as a result, the safety of these materials to humans and the environment is of considerable interest. A prior study of 24 MO_x NPs in mammalian cells revealed that some of these materials show hazard potential. Here, we report the growth inhibitory effects of the same series of MO_x NPs in the bacterium Escherichia coli and show that toxicity trends observed in E. coli parallel those seen previously in mammalian cells. Of the 24 materials studied, only ZnO, CuO, CoO, Mn₂O₃, Co₃O₄, Ni₂O₃, and Cr₂O₃ were found to exert significant growth inhibitory effects; these effects were found to relate to membrane damage and oxidative stress responses in minimal trophic media. A correlation of the toxicological data with physicochemical parameters of MO_x NPs revealed that the probability of a MO_x NP being toxic increases as the hydration enthalpy becomes less negative and as the conduction band energy approaches those of biological molecules. These observations are consistent with prior results observed in mammalian cells, revealing that mechanisms of toxicity of MO_x NPs are consistent across two very different taxa. These results suggest that studying nanotoxicity in E. coli may help to predict toxicity patterns in higher organisms.