The Construction of Polyphotocage Platform for Anticancer Photochemotherapy

Abstract

AbstractPhotocages enable the precise activation of molecular function with light in many research fields, such as anticancer treatment, where remote spatiotemporal control over the release of an active drug is needed. However, the poor physiological stability and tumor accumulation of conventional small molecular photocages are significant obstacles to developing efficient therapy in vivo. In this study, a new concept of “polyphotocage” is proposed through photocage–polymer hybrid macromolecular engineering. Photoresponsive Ru complex photocage is designed and fused with PEGylated polycarbonates, resulting in the polyphotocage. Various anticancer drugs can be readily conjugated to the polyphotocage via coordination linkage, which can be cut off to release drugs by red light. The polyphotocages can self‐assemble into nanoparticles, which enhances the stability of the Ru photocage and demonstrates the efficient accumulation in different‐sized tumorswith a high signal‐to‐background ratio. Furthermore, rapid cellular internalization and mitochondrial anchoring capability allowed the polyphotocages to deliver drugs into the mitochondria, which induces mitochondrial dysfunction and cell death. These properties ensure the effective delivery of anticancer drugs to solid tumors and multiple tiny tumors, ultimately inhibiting tumor proliferation. This strategy of polyphotocages provides a new platform for the future design of drug‐delivery systems for cancer photochemotherapy.