Ferroxidase-like activity of Au nanorod/Pt nanodot structures and implications for cellular oxidative stress

Jianbo Liu; Xiumei Jiang; Liming Wang; Zhijian Hu; Tao Wen; Wenqi Liu; Junjie Yin; Chunying Chen; Xiaochun Wu

doi:10.1007/s12274-015-0904-x

Nano Research 2015, 8(12): 4024-4037 https://doi.org/10.1007/s12274-015-0904-x

Research Article | Issue | Published: 05 November 2015

Ferroxidase-like activity of Au nanorod/Pt nanodot structures and implications for cellular oxidative stress

Show Author's Information Hide Author's Information Jianbo Liu^{¹^,²^,^§}, Xiumei Jiang^{³^,^§}, Liming Wang^³, Zhijian Hu^¹, Tao Wen^{¹^,⁴}, Wenqi Liu^¹, Junjie Yin^⁴(

), Chunying Chen^³(

), Xiaochun Wu^¹(

)

1CAS Key Laboratory of Standardization and Measurement for NanotechnologyNational Center for Nanoscience and TechnologyBeijing

100190

China

2College of Opto-electronic EngineeringZaozhuang UniversityZaozhuang

277100

China

3CAS Key Laboratory for Biological Effects of Nanomaterials & NanosafetyNational Center for Nanoscience and TechnologyBeijing

100190

China

4Division of Analytical ChemistryOffice of Regulatory ScienceCenter for Food Safety and Applied NutritionUS Food and Drug AdministrationCollege ParkMD

20740

USA

^§ These authors contributed equally to this work

Keywords:

peroxidase, Au@Pt nanostructure, ferroxidase, antioxidant activity, biological effect

Cite this article:

Liu J, Jiang X, Wang L, et al. Ferroxidase-like activity of Au nanorod/Pt nanodot structures and implications for cellular oxidative stress. Nano Research, 2015, 8(12): 4024-4037. https://doi.org/10.1007/s12274-015-0904-x

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Abstract Electronic supplementary material About this article

Abstract

Platinum nanoparticles (NPs) are reported to mimic various antioxidant enzymes and thus may produce a positive biological effect by reducing reactive oxygen species (ROS) levels. In this manuscript, we report Pt NPs as an enzyme mimic of ferroxidase by depositing platinum nanodots on gold nanorods (Au@Pt NDRs). Au@Pt NDRs show pH-dependent ferroxidase-like activity and have higher activity at neutral pH values. Cytotoxicity results with human cell lines (lung adenocarcinoma A549 and normal bronchial epithelial cell line HBE) show that Au@Pt NDRs are taken up into cells via endocytosis and translocate into the endosome/lysosome. Au@Pt NDRs have good biocompatibility at NDR particle concentrations lower than 0.15 nΜ. However, in the presence of H₂O₂, lysosomelocated NDRs exhibit peroxidase-like activity and therefore increase cytotoxicity. In the presence of Fe²⁺, the ferroxidase-like activity of the NDRs protects cells from oxidative stress by consuming H₂O₂. Thorough consideration should be given to this behavior when employing Au@Pt NDRs in biological systems.

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Acknowledgements

Publication history

Received: 16 July 2015

Revised: 09 September 2015

Accepted: 22 September 2015

Published: 05 November 2015

Issue date: December 2015

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Acknowledgements

The work was supported by the National Natural Science Foundation of China (Nos. 21173056 and 31070854) and the National Basic Research Program of China (Nos. 2012CB934001 and 2011CB933401). J. J. Y. acknowledged partial support from a regulatory science grant under the FDA Nanotechnology CORES Program. This article is not an official U.S. FDA guidance or policy statement. No official support or endorsement by the U.S. FDA is intended or should be inferred.