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Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm.

Publication ,  Journal Article
Xia, T; Kovochich, M; Brant, J; Hotze, M; Sempf, J; Oberley, T; Sioutas, C; Yeh, JI; Wiesner, MR; Nel, AE
Published in: Nano letters
August 2006

Nanomaterial properties differ from those bulk materials of the same composition, allowing them to execute novel activities. A possible downside of these capabilities is harmful interactions with biological systems, with the potential to generate toxicity. An approach to assess the safety of nanomaterials is urgently required. We compared the cellular effects of ambient ultrafine particles with manufactured titanium dioxide (TiO2), carbon black, fullerol, and polystyrene (PS) nanoparticles (NPs). The study was conducted in a phagocytic cell line (RAW 264.7) that is representative of a lung target for NPs. Physicochemical characterization of the NPs showed a dramatic change in their state of aggregation, dispersibility, and charge during transfer from a buffered aqueous solution to cell culture medium. Particles differed with respect to cellular uptake, subcellular localization, and ability to catalyze the production of reactive oxygen species (ROS) under biotic and abiotic conditions. Spontaneous ROS production was compared by using an ROS quencher (furfuryl alcohol) as well as an NADPH peroxidase bioelectrode platform. Among the particles tested, ambient ultrafine particles (UFPs) and cationic PS nanospheres were capable of inducing cellular ROS production, GSH depletion, and toxic oxidative stress. This toxicity involves mitochondrial injury through increased calcium uptake and structural organellar damage. Although active under abiotic conditions, TiO2 and fullerol did not induce toxic oxidative stress. While increased TNF-alpha production could be seen to accompany UFP-induced oxidant injury, cationic PS nanospheres induced mitochondrial damage and cell death without inflammation. In summary, we demonstrate that ROS generation and oxidative stress are a valid test paradigm to compare NP toxicity. Although not all materials have electronic configurations or surface properties to allow spontaneous ROS generation, particle interactions with cellular components are capable of generating oxidative stress.

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Published In

Nano letters

DOI

EISSN

1530-6992

ISSN

1530-6984

Publication Date

August 2006

Volume

6

Issue

8

Start / End Page

1794 / 1807

Related Subject Headings

  • Reactive Oxygen Species
  • Oxidative Stress
  • Nanostructures
  • Nanoscience & Nanotechnology
  • Mice
  • Materials Testing
  • Macrophages
  • Cell Line
  • Animals
 

Citation

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Xia, T., Kovochich, M., Brant, J., Hotze, M., Sempf, J., Oberley, T., … Nel, A. E. (2006). Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm. Nano Letters, 6(8), 1794–1807. https://doi.org/10.1021/nl061025k
Xia, Tian, Michael Kovochich, Jonathan Brant, Matt Hotze, Joan Sempf, Terry Oberley, Constantinos Sioutas, Joanne I. Yeh, Mark R. Wiesner, and Andre E. Nel. “Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm.Nano Letters 6, no. 8 (August 2006): 1794–1807. https://doi.org/10.1021/nl061025k.
Xia T, Kovochich M, Brant J, Hotze M, Sempf J, Oberley T, et al. Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm. Nano letters. 2006 Aug;6(8):1794–807.
Xia, Tian, et al. “Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm.Nano Letters, vol. 6, no. 8, Aug. 2006, pp. 1794–807. Epmc, doi:10.1021/nl061025k.
Xia T, Kovochich M, Brant J, Hotze M, Sempf J, Oberley T, Sioutas C, Yeh JI, Wiesner MR, Nel AE. Comparison of the abilities of ambient and manufactured nanoparticles to induce cellular toxicity according to an oxidative stress paradigm. Nano letters. 2006 Aug;6(8):1794–1807.
Journal cover image

Published In

Nano letters

DOI

EISSN

1530-6992

ISSN

1530-6984

Publication Date

August 2006

Volume

6

Issue

8

Start / End Page

1794 / 1807

Related Subject Headings

  • Reactive Oxygen Species
  • Oxidative Stress
  • Nanostructures
  • Nanoscience & Nanotechnology
  • Mice
  • Materials Testing
  • Macrophages
  • Cell Line
  • Animals