研究用甘草酸和细胞穿透肽 TAT 共同修饰的多柔比星和索拉非尼双载脂质体

Houlin Su, Zhiqiang Tu, Lin Jing, Yanling Huang, Xu Liu, Mingqing Yuan
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引用次数: 0

摘要

背景:多柔比星(DOX)与索拉非尼(SF)联用是一种治疗肝细胞癌(HCC)的有效策略。然而,这两种药物都需要严格的剂量控制,而且缺乏靶向选择性:本研究旨在开发一种新型纳米给药系统,用于联合使用 DOX 和 SF,以减少各自的剂量、提高疗效并改善靶点选择性:方法:采用薄膜水合法制备 DOX/SF 共载脂质体(LPs)。脂质体用 1,2-二硬脂酰-sn-甘油-3-磷酸乙醇胺(DSPE)-聚乙二醇(PEG2000)、DSPE-PEG1000-细胞穿透肽 TAT 和甘草次酸(GA)修饰。对脂质体的基本特性进行了表征。使用 HepG2、MHCC97-H 和 PLC 细胞模型进行了 CCK-8 细胞活力测定,并使用 HepG2 细胞进行了细胞凋亡实验,以确定这种递送系统是否能减少 DOX 和 SF 的各自剂量并增强 HCC 细胞毒性。此外,还利用 HepG2 细胞进行了脂质体摄取实验,以验证这种递送系统的靶向选择性:结果:成功构建了GA/TAT-DOX/SF-LP脂质体纳米药物递送系统,其粒径为150 nm,zeta电位为-7.9 mV,DOX包封效率为92%,SF包封效率为88.7%。细胞实验表明,这种递送系统减少了 DOX 和 SF 的所需剂量,对肝癌细胞具有更强的细胞毒性,并显示出更好的靶向选择性:结论:研究人员开发出了一种简单、可参考的脂质体纳米给药系统,用于联合应用 DOX 和 SF 治疗肝癌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Dual-Loaded Doxorubicin and Sorafenib Liposomes Co-Modified with Glycyrrhetinic Acid and Cell-Penetrating Peptide TAT.

Background: Combining Doxorubicin (DOX) with sorafenib (SF) is a promising strategy for treating Hepatocellular Carcinoma (HCC). However, strict dosage control is required for both drugs, and there is a lack of target selectivity.

Objective: This study aims to develop a novel nano-drug delivery system for the combined use of DOX and SF, aiming to reduce their respective dosages, enhance therapeutic efficacy, and improve target selectivity.

Methods: DOX/SF co-loaded liposomes (LPs) were prepared using the thin-film hydration method. The liposomes were modified with 1,2-distearoyl-sn-glycero-3-phospho-ethanolamine (DSPE)- polyethylene glycol (PEG2000), DSPE-PEG1000-cell penetrating peptide TAT, and Glycyrrhetinic Acid (GA). The basic properties of the liposomes were characterized. CCK-8 cell viability assays were conducted using HepG2, MHCC97-H, and PLC cell models, and apoptosis experiments were performed using HepG2 cells to determine if this delivery system could reduce the respective dosages of DOX and SF and enhance HCC cytotoxicity. Liposome uptake experiments were performed using HepG2 cells to validate the target selectivity of this delivery system.

Results: A GA/TAT-DOX/SF-LP liposomal nano drug delivery system was successfully constructed, with a particle size of 150 nm, a zeta potential of -7.9 mV, a DOX encapsulation efficiency of 92%, and an SF encapsulation efficiency of 88.7%. Cellular experiments demonstrated that this delivery system reduced the required dosages of DOX and SF, exhibited stronger cytotoxicity against liver cancer cells, and showed better target selectivity.

Conclusion: A simple and referenceable liposomal nano drug delivery system has been developed for the combined application of DOX and SF in hepatocellular carcinoma treatment.

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