Combinatorial discovery of Mo-based polyoxometalate clusters for tumor photothermal therapy and normal cell protection

Abstract

Nanomaterials with multiple functions such as precision diagnosis, therapeutic efficacy and biosafety are attractive for tumor treatment but remain a technical challenge. In this study, molybdenum (Mo)-based polyoxometalate clusters (Mo-POM) with considerable photothermal conversion efficiency (∼56.6%) and high stability (>30 days) were prepared through a modification of the Folin–Ciocalteu method. These synthetic particles accumulated at the target site, and induced thermal ablation of the tumor following near infrared (NIR) absorption. Furthermore, the Mo-POM effectively scavenged reactive oxygen species (ROS) through charge transfer between Mo(VI) and Mo(V) states, thereby avoiding off-target effects on normal cells and improving the therapeutic efficiency both in vitro and in vivo. Therefore, for the first time, we prepared Mo-POM having two key functions, i.e., photothermal therapy (PTT) for cancer cells and protection of normal cells. These exceptional features may open up the exploration of Mo-POM as new tools for PTT against tumors in clinical applications.