顺铂
端粒酶
DNA
铂金
化学
DNA损伤
纳米技术
分子生物学
癌症研究
材料科学
生物
生物化学
遗传学
基因
化疗
催化作用
作者
Yi Ma,Zhaohui Wang,Yuxuan Ma,Zhihao Han,Min Zhang,Haiyan Chen,Yueqing Gu
标识
DOI:10.1002/anie.201801195
摘要
Abstract A telomerase‐responsive DNA icosahedron was designed to precisely release caged platinum nanodrugs into cisplatin‐resistance tumor cells for effective therapy. This DNA icosahedron was constructed from two pyramidal DNA cages connected with telomerase primers and telomeric repeats, and platinum nanodrugs were then encapsulated into the DNA structure. In the presence of telomerase, the primers are extended, leading to inner‐chain substitution of the DNA icosahedron and subsequent release of the caged nanodrugs. This DNA icosahedron can precisely release caged nanodrugs in response to telomerase in tumor cells, giving enhanced anticancer efficacy in drug‐resistant carcinoma and with reduced toxicity to normal tissues. We speculate that this precisely designed, well controlled DNA cage could be generalized to diverse anticancer drugs.
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