Metallo-Dye-Based Supramolecular Nanoassembly for NIR-II Cancer Theranostics
Shan Lei, Feng Zhao, Jing Zhang, Nicholas Thomas Blum, Ting He, Junle Qu, Peng Huang, Jing Lin
Abstract
Retaining intrinsic photophysical performance and efficient therapeutic efficacy of cyanine dyes in the second near-infrared (NIR-II) biowindow are challenges in the biomedical field. Herein, we develop a metal ion-assisted NIR-II fluorophore assembly strategy to modulate molecular arrangement behavior, thus overcoming the drawbacks and retaining the photophysical performance of cyanine dyes in aqueous media for cancer phototheranostics. By screening a series of metal ion-assisted fluorophore assemblies, we remarkably found gadolinium-based metallo-dye-supramolecular nanoassembly (denoted as Gd@IR1064) with the intrinsic optical properties of NIR-II cyanine dye (IR1064). Most intriguingly, the as-prepared Gd@IR1064 not only exhibits deep-tissue-penetrating NIR-II photoacoustic, fluorescence, and magnetic resonance imaging ability but also possesses enhanced photothermal conversion performance-induced hyperthermia, achieving a significant tumor elimination effect. Our study provides a promising guide for modulating dye arrangement with unique photophysical performance for biomedical applications.