A. Sood
Signalling of DNA damage and cytokines across cell barriers exposed to nanoparticles depends on barrier thickness
Sood, A.; Salih, S.; Roh, D.; Lacharme-Lora, L.; Parry, M.; Hardiman, B.; Keehan, R.; Grummer, R.; Winterhager, E.; Gokhale, P. J.; Andrews, P. W.; Abbott, C.; Forbes, K.; Westwood, M.; Aplin, J. D.; Ingham, E.; Papageorgiou, I.; Berry, M.; Liu, J.; Dick, A. D.; Garland, R. J.; Williams, N.; Singh, R.; Simon, A. K.; Lewis, M.; Ham, J.; Roger, L.; Baird, D. M.; Crompton, L. A.; Caldwell, M. A.; Swalwell, H.; Birch-Machin, M.; Lopez-Castejon, G.; Randall, A.; Lin, H.; Suleiman, M. S.; Evans, W. H.; Newson, R.; Case, C. P.
Authors
S. Salih
D. Roh
L. Lacharme-Lora
M. Parry
B. Hardiman
R. Keehan
R. Grummer
E. Winterhager
P. J. Gokhale
P. W. Andrews
C. Abbott
K. Forbes
M. Westwood
J. D. Aplin
E. Ingham
I. Papageorgiou
M. Berry
J. Liu
A. D. Dick
R. J. Garland
Nigel Williams Nigel3.Williams@uwe.ac.uk
Associate Lecturer - CHSS - DSS - UPSY0001
R. Singh
A. K. Simon
M. Lewis
J. Ham
L. Roger
D. M. Baird
Dr Lucy Crompton Lucy.Crompton@uwe.ac.uk
Senior Lecturer in Neuroscience
M. A. Caldwell
H. Swalwell
M. Birch-Machin
G. Lopez-Castejon
A. Randall
H. Lin
M. S. Suleiman
W. H. Evans
R. Newson
C. P. Case
Abstract
The use of nanoparticles in medicine is ever increasing, and it is important to understand their targeted and non-targeted effects. We have previously shown that nanoparticles can cause DNA damage to cells cultured below a cellular barrier without crossing this barrier. Here, we show that this indirect DNA damage depends on the thickness of the cellular barrier, and it is mediated by signalling through gap junction proteins following the generation of mitochondrial free radicals. Indirect damage was seen across both trophoblast and corneal barriers. Signalling, including cytokine release, occurred only across bilayer and multilayer barriers, but not across monolayer barriers. Indirect toxicity was also observed in mice and using ex vivo explants of the human placenta. If the importance of barrier thickness in signalling is a general feature for all types of barriers, our results may offer a principle with which to limit the adverse effects of nanoparticle exposure and offer new therapeutic approaches. © 2011 Macmillan Publishers Limited. All rights reserved.
| Journal Article Type | Article |
|---|---|
| Acceptance Date | Sep 28, 2011 |
| Online Publication Date | Nov 6, 2011 |
| Publication Date | 2011-12 |
| Deposit Date | Jan 6, 2023 |
| Journal | Nature Nanotechnology |
| Print ISSN | 1748-3387 |
| Electronic ISSN | 1748-3395 |
| Publisher | Nature Research |
| Peer Reviewed | Peer Reviewed |
| Volume | 6 |
| Issue | 12 |
| Pages | 824-833 |
| DOI | https://doi.org/10.1038/nnano.2011.188 |
| Keywords | Electrical and Electronic Engineering; Condensed Matter Physics; General Materials Science; Biomedical Engineering; Atomic and Molecular Physics, and Optics; Bioengineering; Cell–particle interactions; Environmental, health and safety issues; Nanom |
| Public URL | https://uwe-repository.worktribe.com/output/10290952 |
| Publisher URL | https://www.nature.com/articles/nnano.2011.188 |
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