Hollow metal-organic framework-based, stimulator of interferon genes pathway-activating nanovaccines for tumor immunotherapy.
Yilei ZhaoRuinan SongZhen ZhangHouyang HuWenli NingXiuying DuanJianwei JiaoXiao FuGuiqiang ZhangPublished in: Nanoscale advances (2023)
Nanovaccines have emerged as promising agents for cancer therapy because of their ability to induce specific immune responses without off-target effects. However, inadequate cytotoxic T lymphocyte response and low antigen/adjuvant encapsulation remain major obstacles to vaccinating against cancer. Herein, we designed a stimulator of interferon genes (STING) pathway-activating nanovaccine based on hollow metal-organic frameworks (MOFs) for tumor treatment. The nanovaccine (OVA@HZIF-Mn) was constructed by encapsulating a model antigen ovalbumin (OVA) into zeolitic imidazolate framework-8, followed by etching with tannic acid and functionalizing with manganese ions. Studies have shown that the nanovaccine can effectively enhance antigen uptake, STING pathway activation and dendritic cell maturation, triggering a robust immune response to inhibit tumor growth. In addition, no infection or pathological signs were observed in mice organs after multiple administrations. This study combines a simple assembly approach and superior therapeutic effect, providing a promising strategy for engineering effective nanovaccines.