The effect of PEGylated hollow gold nanoparticles on stem cell migration: potential application in tissue regeneration

Maria del Mar Encabo-Berzosa; Maria Sancho-Albero; Alejandra Crespo; Vanesa Andreu; Victor Sebastian; Silvia Irusta; Manuel Arruebo; Pilar Martín-Duque; Jesus Santamaria

doi:10.1039/C7NR01853C

The effect of PEGylated hollow gold nanoparticles on stem cell migration: potential application in tissue regeneration†

Maria del Mar Encabo-Berzosa,^ab Maria Sancho-Albero,^ab Alejandra Crespo,^c Vanesa Andreu,^a Victor Sebastian,

^ab Silvia Irusta,

^ab Manuel Arruebo,

*^ab Pilar Martín-Duque*^c and Jesus Santamaria^ab

Author affiliations

* Corresponding authors

^a Department of Chemical Engineering, Aragon Institute of Nanoscience (INA), University of Zaragoza, Campus Río Ebro-Edificio I+D, C/Poeta Mariano Esquillor S/N, 50018-Zaragoza, Spain
E-mail: arruebom@unizar.es

^b Networking Research Center on Bioengineering, Biomaterials and Nanomedicine, CIBER-BBN, 28029-Madrid, Spain

^c Universidad Francisco de Vitoria, Facultad de Ciencias Biosanitarias, Carretera Pozuelo a Majadahonda, Km 1.800, 28223 Pozuelo de Alarcón, Madrid, Spain
E-mail: pmartin@ufv.es

Abstract

Mesenchymal stem cells (MSCs) not only can be differentiated into different cell types but also have tropism towards injured or inflamed tissues serving as repair cells. Here we have demonstrated that MSCs containing gold nanoparticles (GNPs) whose surface has been functionalized with PEG show accelerated cell migration, successful scaffold colonization and regeneration. We report the impact of GNPs on the migration (by the wound healing assay), and proliferation (by flow cytometry analysis and by the detection of metabolic mitochondrial activity) on the behaviour of different cell lines including MSCs, HeLa cells, and human dermal fibroblasts. We conclude that GNPs are easily internalized by MSCs causing an increase in their migration rate, mediated by actin and tubulin with a 4-fold increased expression level of those proteins. We also demonstrate that MSCs containing GNPs are able to successfully colonize fibrin and PCL-based scaffolds and that an enhanced osteoblastic differentiation is reached when using the nanoparticle-laden cells compared to untreated cells used as a control. These results highlight the potential use of MSCs as therapeutic nanoparticle-carriers in regenerative medicine.

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DOI: https://doi.org/10.1039/C7NR01853C
Article type: Paper
Submitted: 15 Mar 2017
Accepted: 31 May 2017
First published: 05 Jun 2017

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Nanoscale, 2017,9, 9848-9858

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The effect of PEGylated hollow gold nanoparticles on stem cell migration: potential application in tissue regeneration

M. D. M. Encabo-Berzosa, M. Sancho-Albero, A. Crespo, V. Andreu, V. Sebastian, S. Irusta, M. Arruebo, P. Martín-Duque and J. Santamaria, Nanoscale, 2017, 9, 9848 DOI: 10.1039/C7NR01853C

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The effect of PEGylated hollow gold nanoparticles on stem cell migration: potential application in tissue regeneration†

Abstract

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The effect of PEGylated hollow gold nanoparticles on stem cell migration: potential application in tissue regeneration

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