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Title:
Effects of the Presence or Absence of a Protein Corona on Silica Nanoparticle Uptake and Impact on Cells
Date:
7/2012
Link to Journal Abstract
Abstract:
Nanoparticles enter cells through active processes, thanks to their capability of interacting with the cellular machinery. The protein layer (corona) that forms on their surface once nanoparticles are in contact with biological fluids, such as the cell serum, mediates the interactions with cells in situ. As a consequence of this, here we show that the same nanomaterial can lead to very different biological outcomes, when exposed to cells in the presence or absence of a preformed corona. In particular, silica nanoparticles exposed to cells in the absence of serum have a stronger adhesion to the cell membrane and higher internalization efficiency, in comparison to what is observed in medium containing serum, when a preformed corona is present on their surface. The different exposure conditions not only affect the uptake levels but also result in differences in the intracellular nanoparticle location and impact on cells. Interestingly, we also show that after only one hour of exposure, a corona of very different nature forms on the nanoparticles exposed to cells in the absence of serum. Evidence suggests that these different outcomes can all be connected to the different adhesion and surface properties in the two conditions.
Non-technical Summary:
This study was undertaken to show that the same nanomaterial can lead to very different biological outcomes, when exposed to cells in the presence or absence of a preformed corona.
Content Emphasis
Peer Reviewed Journal Article
Exposure Or Hazard Target
Mammalian
Exposure Pathway
Other/Unspecified
Method Of Study
In Vitro
Paper Type
Hazard
Particle Type
Other/Unspecified
Production Method
Engineered
Risk Exposure Group
General Population
Target Audience
Technical Research
Citation:
ACS Nano, 2012, 6(7): 5845–5857
Publication:
ACS Nano
Author:
Lesniak A, Fenaroli F, Monopoli MP, Aberg C, Dawson KA, Salvati A
Volume:
6
Number:
7
Pages:
5845–5857
Last updated on July 24, 2012
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This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
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