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Flexocatalysis Enhances Tumor Photodynamic Therapy

Anshuo Li, Liuyang Xu, Yanmin Jia, Meng Yuan, Jinhui Zhang, H. F. Liu, Shiqi Liu, Yuhui Zhu, Xindi Wei, Wenkang Tu, Yuchu He, Song Ni, Xinquan Jiang, Xuwu Zhang

2024Small14 citationsDOI

Abstract

Abstract Photodynamic therapy (PDT) is long‐standing suffered from elevated tumor interstitial fluid pressure (TIFP) and prevalent hypoxic microenvironment within the solid malignancies. Herein, sound‐activated flexocatalysis is developed to overcome the dilemma of PDT through both enhancing tumor penetration of photosensitizers by reducing TIFP and establishing an oxygen‐rich microenvironment. In detail, a Schottky junction is constructed by flexocatalyst MoSe 2 nanoflowers and Pt. Subsequently, the Schottky junction is loaded with the photosensitizer indocyanine green (ICG) and encapsulated within tumor cytomembrane to constitute a bionic‐flexocatalytic nanomedicine (MPI@M). After targeting the tumor, MPI@M orchestrates flexocatalytic water splitting in tumor interstitial fluid under acoustic stimulation to lower TIFP, which boosted the tumor penetration of ICG. Concurrently, the oxygen released from the flexocatalytic water splitting overcomes the limitation of hypoxia against PDT. Furthermore, superfluous singlet oxygen generated by PDT can induce mitochondrial dysfunction for further tumor cell apoptosis. After 60 min of flexocatalysis, both the 30% decrease of TIFP and the relieved tumor hypoxia are observed, significantly promoting the therapeutic effect of PDT. Consequently, MoSe 2 /Pt junction nanoflowers, with the excellent flexocatalytic performance, hold significant potential for future applications in biocatalytic cancer therapies.

Topics & Concepts

Photodynamic therapyPhotosensitizerTumor microenvironmentTumor hypoxiaSinglet oxygenCancer researchHypoxia (environmental)Materials scienceNanomedicineOxygenNanotechnologyChemistryTumor cellsNanoparticleMedicineRadiation therapyPhotochemistryInternal medicineOrganic chemistryNanoplatforms for cancer theranosticsPhotodynamic Therapy Research StudiesCancer, Hypoxia, and Metabolism
Flexocatalysis Enhances Tumor Photodynamic Therapy | Litcius