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用于远程载入脂质体并改善治疗效果的紫杉醇简单弱酸衍生物。

Simple weak-acid derivatives of paclitaxel for remote loading into liposomes and improved therapeutic effects.

作者信息

Yu Jiang, Zhou Shuang, Li Jinbo, Wang Yingli, Su Yujiao, Chi Dongxu, Wang Jiamei, Wang Xue, He Zhonggui, Lin Guimei, Liu Dan, Wang Yongjun

机构信息

Wuya College of Innovation, Shenyang Pharmaceutical University Shenyang Liaoning 110016 P. R. China

Department of Pharmaceutics, Shenyang Pharmaceutical University Shenyang Liaoning 110016 P. R. China.

出版信息

RSC Adv. 2020 Jul 24;10(46):27676-27687. doi: 10.1039/d0ra03190a. eCollection 2020 Jul 21.

DOI:10.1039/d0ra03190a
PMID:35516912
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9055615/
Abstract

Liposomes are among the most successful nanocarriers; several products have been marketed, all of which were prepared by active loading methods. However, poorly water-soluble drugs without ionizable groups are usually incorporated into the lipid bi-layer of liposomes by passive loading methods, with serious drug leakage during blood circulation. Furthermore, there have been few improvements in their anti-cancer activity and safety. Herein, we designed and synthesized three weak-acid modified paclitaxel (PTX) derivatives with a one-step reaction for the remote loading of liposomal formulations. By comparison, PTX-succinic acid liposomes (PTX-SA LPs) exhibited the highest encapsulation efficiency (97.2 ± 1.8%) and drug loading (8.84 ± 0.16%); meanwhile, there was almost no change in their particle size or zeta potential within one month. Furthermore, compared with Taxol®, the PTX-SA LPs showed a 4.35-fold prolonged half-time, enhanced tumor accumulation, and an increased maximum tolerated dose (MTD) of more than 30 mg kg. As a result, the PTX-SA LPs displayed significantly improved anti-cancer efficacy in comparison with Taxol®. Therefore, weak-acid modification is proved to be a simple and effective method to achieve remote loading and high encapsulation efficiency of poorly soluble drugs, showing great potential for clinical application.

摘要

脂质体是最成功的纳米载体之一;已有多种产品上市,所有这些产品均通过主动载药方法制备。然而,没有可电离基团的难溶性药物通常通过被动载药方法掺入脂质体的脂质双分子层中,在血液循环过程中会出现严重的药物泄漏。此外,它们的抗癌活性和安全性几乎没有改善。在此,我们设计并合成了三种通过一步反应制备的弱酸性修饰紫杉醇(PTX)衍生物,用于脂质体制剂的远程载药。相比之下,紫杉醇-琥珀酸脂质体(PTX-SA LPs)表现出最高的包封率(97.2±1.8%)和载药量(8.84±0.16%);同时,其粒径和zeta电位在一个月内几乎没有变化。此外,与紫杉醇相比,PTX-SA LPs的半衰期延长了4.35倍,肿瘤蓄积增强,最大耐受剂量(MTD)增加至超过30 mg/kg。因此,与紫杉醇相比,PTX-SA LPs显示出显著提高的抗癌疗效。因此,弱酸性修饰被证明是一种实现难溶性药物远程载药和高包封率的简单有效方法,具有巨大的临床应用潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b972/9055615/e52e4ac65dcc/d0ra03190a-f8.jpg
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