AI Article Synopsis
- Polydopamine nanoparticles (PD NPs) were created using oxidative polymerization of dopamine in five types of alcohol, affecting particle size and iron adsorption.
- The choice of alcohol and ammonium hydroxide concentration influence how well these nanoparticles can take up iron, which relates to their potential toxicity against cancer cells.
- Specifically, PD NPs made with 2-propanol were more effective at reducing breast cancer cell viability, indicating that these nanoparticles are more harmful to cancer cells than to normal cells, possibly due to the higher iron dependency of cancer cells.
Article Abstract
Polydopamine nanoparticles (PD NPs) have been synthesized in the present work through the oxidative polymerization of dopamine in aqueous media containing five different types of alcohol in a constant solvent volume ratio. We have shown that the type of alcohol, along with the ammonium hydroxide concentration used in the synthesis process, conditions particle size. Additionally, it has been found that the type of alcohol employed influences the well-known capacity of polydopamine nanoparticles to adsorb iron. As a consequence, since a ferroptosis-like mechanism may account for the cytotoxicity of these nanoparticles, the type of alcohol could also have a determining role in their antineoplastic activity. Here, the existence of a correlation between the ability of polydopamine nanoparticles to load Fe and their toxic effect on breast cancer cells has been proven. For instance, nanoparticles synthesized using 2-propanol adsorbed more Fe and had the greatest capacity to reduce breast tumor cell viability. Moreover, none of the nanoparticle synthesized with the different alcohols significantly decreased normal cell survival. Cancer cells present greater iron-dependence than healthy cells and this fact may explain why polydopamine nanoparticles toxicity, in which Fenton chemistry could be implicated, seems tumor-specific.
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| http://dx.doi.org/10.1016/j.colsurfb.2020.111506 | DOI Listing |
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