Title

Downregulation Of Tumor Growth And Invasion By Redox-Active Nanoparticles

Abstract

Aims: Melanoma is the most aggressive type of malignant skin cancer derived from uncontrolled proliferation of melanocytes. Melanoma cells possess a high potential to metastasize, and the prognosis for advanced melanoma is rather poor due to its strong resistance to conventional chemotherapeutics. Nanomaterials are at the cutting edge of the rapidly developing area of nanomedicine. The potential of nanoparticles for use as carrier in cancer drug delivery is infinite with novel applications constantly being tested. The noncarrier use of cerium oxide nanoparticles (CNPs) is a novel and promising approach, as those particles per se show an anticancer activity via their oxygen vacancy-mediated chemical reactivity. Results: In this study, the question was addressed of whether the use of CNPs might be a valuable tool to counteract the invasive capacity and metastasis of melanoma cells in the future. Therefore, the effect of those nanoparticles on human melanoma cells was investigated in vitro and in vivo. Concentrations of polymer-coated CNPs being nontoxic for stromal cells showed a cytotoxic, proapoptotic, and anti-invasive capacity on melanoma cells. In vivo xenograft studies with immunodeficient nude mice showed a decrease of tumor weight and volume after treatment with CNPs. Innovation: In summary, the redox-active CNPs have selective pro-oxidative and antioxidative properties, and this study is the first to show that CNPs prevent tumor growth in vivo. Conclusion: The application of redox-active CNPs may form the basis of new paradigms in the treatment and prevention of cancers. Antioxid. Redox Signal. 19, 765-778. © 2013, Mary Ann Liebert, Inc.

Publication Date

9-10-2013

Publication Title

Antioxidants and Redox Signaling

Volume

19

Issue

8

Number of Pages

765-778

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1089/ars.2012.4831

Socpus ID

84875114271 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84875114271

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