胰腺癌
纳米载体
遗传增强
癌症研究
胰腺肿瘤
寡核苷酸
透明质酸
牛胰核糖核酸酶
基因传递
DNA
细胞外基质
材料科学
基质
裸DNA
胰腺
生物
体内
小RNA
化学
分子生物学
基因沉默
细胞生物学
光热治疗
作者
Xun You,R. X. Zhang,Qingxuan Zeng,Tianshuang Xia,Nachuan Song,Mingxing Liu,Xiaocui Guo,C. Yao,Dayong Yang
标识
DOI:10.1002/adfm.202531547
摘要
ABSTRACT The dense stroma barrier of pancreatic tumors significantly impedes the delivery of therapeutic agents, presenting major challenges to effective gene therapy in pancreatic cancer. Herein, we introduce a strategy to overcome this limitation by using the pancreatic tumor extracellular matrix component hyaluronic acid (HA) to coat dual‐enzyme responsive DNA nanoflowers as a smart nanocarrier capable of responding to multiple tumor‐associated endogenous nucleases, which is designed for the co‐delivery of Cas9/sgRNA ribonucleoproteins (RNPs) and antisense oligonucleotides (ASOs) into deep pancreatic tumors, enabling efficient synergistic gene therapy for pancreatic cancer. The DNA nanoflowers, assembled from ultralong single‐stranded DNA with multiple sgRNA recognition sequences, efficiently load and deliver Cas9/sgRNA RNPs and ASOs. HA coating significantly enhances the penetration of DNA nanoflowers into pancreatic tumors by approximately 5‐fold, and improves their accumulation in cancer cells by approximately 15.8‐fold. In pancreatic cancer cells, overexpressed ribonuclease H and flap structure‐specific endonuclease 1, respectively, trigger the release of Cas9/sgRNA RNPs and ASOs, facilitating precise and effective gene editing and silencing. In vivo studies in a pancreatic cancer mouse model demonstrate the remarkable therapeutic efficacy with a tumor inhibition rate of approximately 91.9%, highlighting the potential of HA‐coated DNA nanoflowers as a promising treatment strategy for pancreatic cancer.
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