Enhanced Antitumoral Activity and Photoacoustic Imaging Properties of AuNP-Enriched Endothelial Colony Forming Cells on Melanoma

Paolo Armanetti; Anastasia Chillà; Francesca Margheri; Alessio Biagioni; Luca Menichetti; Giancarlo Margheri; Fulvio Ratto; Sonia Centi; Francesca Bianchini; Mirko Severi; Rita Traversi; Daniele Bani; Matteo Lulli; Tommaso Del Rosso; Alessandra Mocali; Elisabetta Rovida; Mario Del Rosso; Gabriella Fibbi; Anna Laurenzana

doi:10.1002/advs.202001175

Enhanced Antitumoral Activity and Photoacoustic Imaging Properties of AuNP-Enriched Endothelial Colony Forming Cells on Melanoma

Adv Sci (Weinh). 2020 Dec 21;8(4):2001175. doi: 10.1002/advs.202001175. eCollection 2021 Feb.

Authors

Paolo Armanetti¹, Anastasia Chillà², Francesca Margheri², Alessio Biagioni², Luca Menichetti¹, Giancarlo Margheri³, Fulvio Ratto⁴, Sonia Centi⁴, Francesca Bianchini², Mirko Severi⁵, Rita Traversi⁵, Daniele Bani⁶, Matteo Lulli², Tommaso Del Rosso⁷, Alessandra Mocali², Elisabetta Rovida², Mario Del Rosso², Gabriella Fibbi², Anna Laurenzana²

Affiliations

¹ Institute of Clinical Physiology (IFC) National Research Council Pisa 56124 Italy.
² Department of Experimental and Clinical Biomedical Sciences University of Florence Florence 50134 Italy.
³ Institute for Complex Systems National Research Council Sesto Fiorentino 50019 Italy.
⁴ Institute of Applied Physics "N. Carrara" National Research Council Sesto Fiorentino 50019 Italy.
⁵ Department of Chemistry "Ugo Schiff" University of Florence Sesto Fiorentino 50019 Italy.
⁶ Department of Clinical and Experimental Medicine University of Florence Florence 50134 Italy.
⁷ Department of Physics Pontifícia Universidade Católica do Rio de Janeiro Rio de Janeiro 22451-900 Brazil.

Abstract

Near infrared (NIR)-resonant gold nanoparticles (AuNPs) hold great promise in cancer diagnostics and treatment. However, translating the theranostic potential of AuNPs into clinical applications still remains a challenge due to the difficulty to improve the efficiency and specificity of tumor delivery in vivo as well as the clearance from liver and spleen to avoid off target toxicity. In this study, endothelial colony forming cells (ECFCs) are exploited as vehicles to deliver AuNPs to tumors. It is first demonstrated that ECFCs display a great capability to intake AuNPs without losing viability, and exert antitumor activity per se. Using a human melanoma xenograft mouse model, it is next demonstrated that AuNP-loaded ECFCs retain their capacity to migrate to tumor sites in vivo 1 day after injection and stay in the tumor mass for more than 1 week. In addition, it is demonstrated that ECFC-loaded AuNPs are efficiently cleared by the liver over time and do not elicit any sign of damage to healthy tissue.

Keywords: endothelial colony forming cells; gold nanoparticles; melanoma; nanomedicine; photoacoustic imaging.