肝细胞癌
癌症研究
射频消融术
免疫原性细胞死亡
自噬
转移
肿瘤消融
肽
免疫疗法
降级(电信)
医学
原发性肿瘤
免疫系统
肿瘤细胞
程序性细胞死亡
肿瘤进展
材料科学
免疫检查点
抗体
蛋白质降解
病态的
细胞
PD-L1
焊剂(冶金)
肿瘤微环境
生物
顺铂
作者
Yiqiao Wang,Zhihua Wang,Yilin Yang,Mingda Han,Ying Yan,Xiaocheng Li,Qiannan Miao,Xuefeng Li,Jingying Wang,Zhan Shi,Xinlun Dai,Fei Yan,Shouhua Feng
标识
DOI:10.1002/adma.202513577
摘要
Abstract Incomplete RFA (iRFA) often leads to local tumor recurrence and metastasis in hepatocellular carcinoma (HCC). The m 6 A reader protein YTHDF1 plays an important role in this process. However, there are currently no effective YTHDF1‐specific inhibitors capable of overcoming tumor relapse following iRFA. This study successfully develops a “dual‐stage cumulative activation” autophagic degradation system based on a gallium MOF scaffold. The MOF are cloaked with HCC‐derived membranes, and a YTHDF1‐specific small molecule binder Y040 and the autophagy‐activating peptide Beclin‐1 are assembled through metabolic glycan engineering combined with click chemistry. GaMOF@M‐Beclin‐Y040 increases autophagic flux in the HCC cells by 7.1‐fold, and selectively degrades YTHDF1 with an efficiency of up to 92%. This in turn reduces m 6 A‐mediated transcript stability of EGFR and protein translation. Moreover, GaMOF@M‐Beclin‐Y040 could trigger immunogenic cell death of HCC cells. Across three distinct HCC tumor models, GaMOF@M‐Beclin‐Y040 effectively prevent local tumor recurrence post‐iRFA with an inhibition rate of 93.4%, synergized with anti‐PD‐1 antibody to suppress metastatic tumor growth by 96.6% after iRFA relapse, and induced durable immune memory that reduced the recurrence rate to 7.5%. This novel protein degradation platform can address tumor recurrence after iRFA, and potentially be applied to other oncogenic targets. Furthermore, it offers a conceptual framework for treating tumors harboring traditionally “undruggable” targets.
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