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Light‐Enhanced Hypoxia‐Responsive Gene Editing for Hypoxia‐Resistant Photodynamic and Immunotherapy

Suchen Qu, Yu Ji, Liansheng Fan, Tao Yan, Gaoshuang Zhu, Hongxiu Song, Kaiyong Yang, Xin Han

2023Advanced Healthcare Materials25 citationsDOI

Abstract

Hypoxia is a key hallmark of solid tumors and can cause resistance to various treatments such as photodynamics and immunotherapy. Microenvironment-responsive gene editing provides a powerful tool to overcome hypoxia resistance and remodel hypoxic microenvironments for enhanced tumor therapy. Here, a light-enhanced hypoxia-responsive multifunctional nanocarrier is developed to perform spatiotemporal specific dual gene editing for enhanced photodynamic and immunotherapy in breast cancer. As a gated molecule of nanocarrier, the degradation of azobenzene moieties under hypoxic conditions triggers controllable release of Cas9 ribonucleoprotein in hypoxic site of the tumor. Hyaluronic acid is conjugated with chloramine e6 to coat mesoporous silica nanoparticles for targeted delivery in tumors and generation of high levels of reactive oxygen species, which can result in increased hypoxia levels for effective cleavage of azobenzene bonds to improve gene editing efficiency and reduce toxic side effects with light irradiation. Moreover, dual targeting HIF-1α and PD-L1 in the anoxic microenvironments can overcome hypoxia resistance and remodel immune microenvironments, which reduces tumor plasticity and resistance to photodynamic and immunotherapy. In summary, a light-enhanced hypoxia responsive nanocomposite is developed for controllable gene editing which holds great promise for synergistic hypoxia-resistant photodynamic and immunotherapy.

Topics & Concepts

Hypoxia (environmental)Tumor microenvironmentTumor hypoxiaNanocarriersImmunotherapyCancer researchPhotodynamic therapyGenetic enhancementImmune systemBiologyChemistryMaterials scienceGeneDrug deliveryImmunologyNanotechnologyMedicineRadiation therapyBiochemistryOxygenTumor cellsInternal medicineOrganic chemistryNanoplatforms for cancer theranosticsVirus-based gene therapy researchCancer Research and Treatments