4.7 Article

Oxidized-Multiwalled Carbon Nanotubes as Non-Toxic Nanocarriers for Hydroxytyrosol Delivery in Cells

Journal

NANOMATERIALS
Volume 13, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/nano13040714

Keywords

multi-walled carbon nanotubes; oxidation; hydroxytyrosol; cytotoxicity; antioxidant

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Carbon nanotubes (CNTs) are promising nanocarriers for drug delivery due to their excellent physicochemical and structural properties. In this study, hydroxytyrosol (HT) was immobilized on functionalized CNTs to enhance its oral absorption and stability. The effects of cellular oxidized multiwall carbon nanotubes (oxMWCNTs) as carriers for HT were investigated, revealing their biocompatibility and potential as nanocarriers for targeted drug delivery.
Carbon nanotubes (CNTs) possess excellent physicochemical and structural properties alongside their nano dimensions, constituting a medical platform for the delivery of different therapeutic molecules and drug systems. Hydroxytyrosol (HT) is a molecule with potent antioxidant properties that, however, is rapidly metabolized in the organism. HT immobilized on functionalized CNTs could improve its oral absorption and protect it against rapid degradation and elimination. This study investigated the effects of cellular oxidized multiwall carbon nanotubes (oxMWCNTs) as biocompatible carriers of HT. The oxidation of MWCNTs via H2SO4 and HNO3 has a double effect since it leads to increased hydrophilicity, while the introduced oxygen functionalities can contribute to the delivery of the drug. The in vitro effects of HT, oxMWCNTS, and oxMWCNTS functionalized with HT (oxMWCNTS_HT) were studied against two different cell lines (NIH/3T3 and Tg/Tg). We evaluated the toxicity (MTT and clonogenic assay), cell cycle arrest, and reactive oxygen species (ROS) formation. Both cell lines coped with oxMWCNTs even at high doses. oxMWCNTS_HT acted as pro-oxidants in Tg/Tg cells and as antioxidants in NIH/3T3 cells. These findings suggest that oxMWCNTs could evolve into a promising nanocarrier suitable for targeted drug delivery in the future.

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