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微调三元模块化卡巴他赛前药的激活行为以实现高效且靶向的口服抗癌治疗。

Fine-tuning the activation behaviors of ternary modular cabazitaxel prodrugs for efficient and on-target oral anti-cancer therapy.

作者信息

Zhang Mingyang, Miao Yifan, Zhao Can, Liu Tong, Wang Xiyan, Wang Zixuan, Zhong Wenxin, He Zhonggui, Tian Chutong, Sun Jin

机构信息

Department of Pharmaceutics, Wuya College of Innovation, Shenyang Pharmaceutical University, Shenyang 110016, China.

Liaoning Provincial Institute of Drug Inspection and Testing, Shenyang 110036, China.

出版信息

Asian J Pharm Sci. 2024 Apr;19(2):100908. doi: 10.1016/j.ajps.2024.100908. Epub 2024 Mar 30.

DOI:10.1016/j.ajps.2024.100908
PMID:38623486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11017284/
Abstract

The disulfide bond plays a crucial role in the design of anti-tumor prodrugs due to its exceptional tumor-specific redox responsiveness. However, premature breaking of disulfide bonds is triggered by small amounts of reducing substances (, ascorbic acid, glutathione, uric acid and tea polyphenols) in the systemic circulation. This may lead to toxicity, particularly in oral prodrugs that require more frequent and high-dose treatments. Fine-tuning the activation kinetics of these prodrugs is a promising prospect for more efficient on-target cancer therapies. In this study, disulfide, steric disulfide, and ester bonds were used to bridge cabazitaxel (CTX) to an intestinal lymph vessel-directed triglyceride (TG) module. Then, synthetic prodrugs were efficiently incorporated into self-nanoemulsifying drug delivery system (corn oil and Maisine CC were used as the oil phase and Cremophor EL as the surfactant). All three prodrugs had excellent gastric stability and intestinal permeability. The oral bioavailability of the disulfide bond-based prodrugs (CTX-(C)S-(C)S-TG and CTX-S-S-TG) was 11.5- and 19.1-fold higher than that of the CTX solution, respectively, demonstrating good oral delivery efficiency. However, the excessive reduction sensitivity of the disulfide bond resulted in lower plasma stability and safety of CTX-S-S-TG than that of CTX-(C)S-(C)S-TG. Moreover, introducing steric hindrance into disulfide bonds could also modulate drug release and cytotoxicity, significantly improving the anti-tumor activity even compared to that of intravenous CTX solution at half dosage while minimizing off-target adverse effects. Our findings provide insights into the design and fine-tuning of different disulfide bond-based linkers, which may help identify oral prodrugs with more potent therapeutic efficacy and safety for cancer therapy.

摘要

由于其二硫键具有特殊的肿瘤特异性氧化还原响应性,二硫键在抗肿瘤前药设计中起着至关重要的作用。然而,全身循环中少量的还原物质(如抗坏血酸、谷胱甘肽、尿酸和茶多酚)会引发二硫键的过早断裂。这可能导致毒性,尤其是在需要更频繁和高剂量治疗的口服前药中。微调这些前药的活化动力学是实现更高效的靶向癌症治疗的一个有前景的方向。在本研究中,二硫键、空间位阻二硫键和酯键被用于将卡巴他赛(CTX)与肠道淋巴管靶向的甘油三酯(TG)模块连接。然后,将合成的前药有效地纳入自纳米乳化药物递送系统(玉米油和Maisine CC用作油相,聚氧乙烯蓖麻油EL用作表面活性剂)。所有三种前药都具有优异的胃稳定性和肠道渗透性。基于二硫键的前药(CTX-(C)S-(C)S-TG和CTX-S-S-TG)的口服生物利用度分别比CTX溶液高11.5倍和19.1倍,显示出良好的口服递送效率。然而,二硫键过高的还原敏感性导致CTX-S-S-TG的血浆稳定性和安全性低于CTX-(C)S-(C)S-TG。此外,在二硫键中引入空间位阻也可以调节药物释放和细胞毒性,与静脉注射半剂量的CTX溶液相比,显著提高了抗肿瘤活性,同时将脱靶副作用降至最低。我们的研究结果为不同的基于二硫键的连接子的设计和微调提供了见解,这可能有助于确定具有更强治疗效果和安全性的口服前药用于癌症治疗。

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本文引用的文献

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Nano Lett. 2023 Apr 26;23(8):3549-3557. doi: 10.1021/acs.nanolett.3c00704. Epub 2023 Apr 13.
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Enhancing Oral Performance of Paclitaxel Lipid-Mimic Prodrug via Modulating Type of Fatty Acids.通过调节脂肪酸类型来增强紫杉醇脂质模拟前药的口服性能。
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Current development of cabazitaxel drug delivery systems.
卡巴他赛药物传递系统的最新发展。
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Bispecific prodrug nanoparticles circumventing multiple immune resistance mechanisms for promoting cancer immunotherapy.双特异性前药纳米颗粒可规避多种免疫抗性机制以促进癌症免疫治疗。
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Investigating the crucial roles of aliphatic tails in disulfide bond-linked docetaxel prodrug nanoassemblies.研究脂肪族链在二硫键连接的多西他赛前药纳米组装体中的关键作用。
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