Self-Supplying O2 through the Catalase-Like Activity of Gold Nanoclusters for Photodynamic Therapy against Hypoxic Cancer Cells

Abstract

Photodynamic therapy (PDT) typically involves oxygen (O₂ ) consumption and therefore suffers from greatly limited anticancer therapeutic efficacy in tumor hypoxia. Here, it is reported for the first time that amine-terminated, PAMAM dendrimer-encapsulated gold nanoclusters (AuNCs-NH₂ ) can produce O₂ for PDT via their intrinsic catalase-like activity. The AuNCs-NH₂ not only show optimum H₂ O₂ consumption via the catalase-like activity over the physiological pH range (i.e., pH 4.8-7.4), but also extend such activity to acidic conditions. The possible mechanism is deduced from that the enriched tertiary amines of dendrimers are easily protonated in acidic solutions to facilitate the preadsorption of OH on the metal surface, thereby favorably triggering the catalase-like reaction. By taking advantage of the exciting feature on AuNCs-NH₂ , the possibility to supply O₂ via the catalase-like activity of AuNCs-NH₂ for PDT against hypoxia of cancer cells was further studied. This proof-of-concept study provides a simple way to combine current O₂ -dependent cancer therapy of PDT to overcome cancer cell hypoxia, thus achieving more effective anticancer treatments.

Keywords: catalase-like activity; dendrimers; gold nanoclusters; oxygen generation; photodynamic therapy.