光动力疗法
免疫疗法
癌症免疫疗法
癌症研究
癌细胞
癌症
免疫检查点
免疫系统
化学
生物
免疫学
遗传学
有机化学
作者
Xinyu Liu,Yali Fan,Xinyu Zhang,Lianyue Li,Chao Yang,Xiaoyan Ma,Guijie Bai,Dawei Sun,Yaxin Wang,Junyi Wang,Yong Li,Yanyan Shi,Jing Liu,Yingying Zhang,Hanjie Wang
摘要
Abstract Engineered bacteria‐based cancer therapy has increasingly been considered to be a promising therapeutic strategy due to the development of synthetic biology. Wherein, engineering bacteria‐mediated photodynamic therapy (PDT)‐immunotherapy shows greater advantages and potential in treatment efficiency than monotherapy. However, the unsustainable regeneration of photosensitizers (PSs) and weak immune responses limit the therapeutic efficiency. Herein, we developed an engineered bacteria‐based delivery system for sequential delivery of PSs and checkpoint inhibitors in cancer PDT‐immunotherapy. The biosynthetic pathway of 5‐aminolevulinic acid (5‐ALA) was introduced into Escherichia coli , yielding a supernatant concentration of 172.19 mg/L after 10 h of growth. And another strain was endowed with the light‐controllable releasement of anti‐programmed cell death‐ligand 1 nanobodies (anti‐PD‐L1). This system exhibited a collaborative effect, where PDT initiated tumor cell death and the released tumor cell fragments stimulated immunity, followed by the elimination of residual tumor cells. The tumor inhibition rate reached 74.97%, and the portion of activated T cells and inflammatory cytokines were reinforced. The results demonstrated that the engineered bacteria‐based collaborative system could sequentially deliver therapeutic substance and checkpoint inhibitors, and achieve good therapeutic therapy. This paper will provide a new perspective for the cancer PDT‐immunotherapy.
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