唾液酸
化学
癌症研究
肝癌
药品
药物输送
药理学
肝细胞癌
去唾液酸糖蛋白受体
体外
促炎细胞因子
体内
背景(考古学)
癌细胞
细胞
肝功能
癌症
靶向给药
细胞毒性
多酚
右旋糖酐
毒品携带者
作用机理
联合疗法
控制释放
治疗效果
作者
Weiqiang Hao,Hyeon Ji Kim,Jumi Kang,Bongkyun Kang,S H Park,Y. K. Kim,Eunjeong Kim,Kyueui Lee
标识
DOI:10.1016/j.mtbio.2026.102784
摘要
Efficient delivery of plant-derived polyphenolic drugs to tumor sites in hepatocellular carcinoma (HCC) is challenging due to their rapid metabolism and the limited tumor-targeting capacity of current therapeutic strategies. To overcome these limitations, we developed a pH-responsive hydrogel-based drug delivery system (PA-CB) composed of a chitosan backbone functionalized with boronobenzoic acid (CB) and crosslinked with protocatechualdehyde (PA). Within this scaffold, protocatechuic acid (PCA) was incorporated as a model therapeutic agent to demonstrate the platform's ability to achieve controlled, pH-responsive release and to impart anticancer, anti-inflammatory, and antifibrotic effects through the action of the drug. The hydrogel, stabilized via boronate ester and Schiff-base linkages, maintained integrity under physiological conditions while enabling drug markedly enhanced anticancer efficacy in vitro compared to free PCA, including a near-complete reduction of HepG2 cell viability, migration, and colony formation, along with increased apoptosis. This enhanced antitumor efficacy was due to CB-mediated recognition of sialic acid residues on HCC cells, which facilitated tumor-selective accumulation and sustained drug release. Intraperitoneal administration of the hydrogel in an HCC mouse model significantly reduced tumor burden, hepatic inflammation, and fibrosis, while improving liver function markers. Histological assessments confirmed alleviation of liver injury, and quantitative polymerase chain reaction analyses revealed decreased expression of proinflammatory cytokines. Collectively, these results highlight this hydrogel platform as a robust strategy to stabilize phenolic drugs, achieve tumor-targeted delivery, and enable controlled release. These findings highlight its potential as an advanced therapeutic approach for HCC and a versatile framework applicable to other polyphenolic agents in oncology.
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