缺氧(环境)
化学
肿瘤微环境
重编程
癌症研究
细胞凋亡
免疫系统
肿瘤缺氧
体内
细胞生物学
细胞
癌细胞
串扰
光动力疗法
药物输送
紫杉醇
癌症治疗
功能(生物学)
免疫疗法
程序性细胞死亡
肿瘤消融
癌症治疗
PD-L1
细胞疗法
作者
Li Chen,Y. Li,Jingwen Yu,Shuqin Li,Pu Wang,Xiuhong Wang
标识
DOI:10.1186/s12951-026-04029-6
摘要
Triple-negative breast cancer (TNBC) remains a therapeutic challenge due to its immunosuppressive and hypoxic microenvironment. We developed NKAMP, a biomimetic nanoplatform that synergistically overcomes immune evasion and hypoxia resistance through three synergistic mechanisms: (1) intelligent dual-targeting (NK cell membrane CD226/NKG2D plus MUC1 aptamer) to ensure robust and redundant targeting, (2) drug release to inhibit HIF-1α function and disrupt hypoxia adaption, and (3) immune-compatible photodynamic therapy (PDT). This design allows NKAMP to overcome physical, immunological, and hypoxic barriers simultaneously, achieving 3.04-fold higher tumor accumulation and 71.88% HIF-1α suppression. The resulting hypoxia adaptation disruption created a self-reinforcing ROS amplification cycle (1.53-fold increase), inducing mitochondrial apoptosis and achieving complete tumor ablation in vivo (96.16% volume reduction) with 10.9 times efficacy improvement than PCN-224 alone. By reprogramming the tumor microenvironment through immune-compatible PDT, this platform establishes a new “immune-compatible PDT” paradigm that addresses TNBC’s intertwined challenges.
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