刺
规范化(社会学)
免疫
化学
医学
免疫学
免疫系统
工程类
社会学
人类学
航空航天工程
作者
Duo Wang,Xiujiao Deng,Jinghao Wang,Shuang Che,Xiaocong Ma,Shouxin Zhang,Qiu Dong,Cuiqing Huang,Jifeng Chen,Changzheng Shi,Ming-Rong Zhang,Kuan Hu,Liangping Luo,Zeyu Xiao
标识
DOI:10.1016/j.jconrel.2024.06.052
摘要
The immunosuppressive microenvironment of malignant tumors severely hampers the effectiveness of anti-tumor therapy. Moreover, abnormal tumor vasculature interacts with immune cells, forming a vicious cycle that further interferes with anti-tumor immunity and promotes tumor progression. Our pre-basic found excellent anti-tumor effects of c-di-AMP and RRx-001, respectively, and we further explored whether they could be combined synergistically for anti-tumor immunotherapy. We chose to load these two drugs on PVA-TSPBA hydrogel scaffolds that expressly release drugs within the tumor microenvironment by in situ injection. Studies have shown that c-di-AMP activates the STING pathway, enhances immune cell infiltration, and reverses tumor immunosuppression. Meanwhile, RRx-001 releases nitric oxide, which increases oxidative stress injury in tumor cells and promotes apoptosis. Moreover, the combination of the two presented more powerful pro-vascular normalization and reversed tumor immunosuppression than the drug alone. This study demonstrates a new design option for anti-tumor combination therapy and the potential of tumor environmentally responsive hydrogel scaffolds in combination with anti-tumor immunotherapy.
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