化学
癌症治疗
纳米技术
肿瘤微环境
免疫系统
体内
癌症免疫疗法
唾液酸
体外
生物物理学
细胞生物学
癌症研究
免疫疗法
计算生物学
免疫检查点
蛋白质工程
印记(心理学)
小分子
分子印迹
生物化学
癌症
肽
封锁
调解人
癌症治疗
唾液酸酶
肿瘤细胞
酶
糖蛋白
抗原
作者
Peixin Guan,Shangfei Li,Song Gao,Haohao Song,A Zhang,Weiwei Liu,Zhen Liu
摘要
Aberrant sialoglycan-Siglec interactions constitute an emerging glycoimmune checkpoint driving tumor immune evasion, yet selective intervention remains challenging for current cancer immunotherapies. Existing strategies, including Siglec blockade and sialidase treatment, are constrained by instability, immunogenicity, and limited tumor targeting. Here we report a molecularly imprinted nanobiomimetic enzyme (MINBE) that integrates a template-defined catalytic pocket with a pH-responsive protective inorganic-polymer architecture, enabling selective editing of tumor-associated sialic acids and immune modulation. MINBE is engineered utilizing a sialic acid-containing disaccharide template to encode an imprinted catalytic nanocore, while inorganic scaffolds and polymer shielding enhance stability during systemic circulation. In the acidic tumor microenvironment, the pH-responsive inorganic layer dissociates to expose its hydrolytic core for desialylation, thereby disrupting sialoglycan-Siglec signaling. Concomitantly, this activation is accompanied by the release of Mn ions, which promote dendriticcell activation. Both in vitro assays and in vivo studies in tumor-bearing mice showed efficient tumor desialylation and pronounced tumor growth inhibition. This molecular imprinting encoded design provides a generalizable strategy for programmable sialoglycan editing, with potential applicability to modulate glyco-immune checkpoints across tumor types and other glycan-driven processes beyond cancer.
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