Potentiating sorafenib efficacy against hepatocellular carcinoma via a carrier-free nanomedicine of artesunate prodrug

Q1 Engineering
Kun Liu , Kun Chen , Xueyang Zhang , Guang Li , Kangrui Yuan , Ling Lin , Dudu Wu , Jigang Wang , Zhiqiang Yu , Zhi Chen
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Abstract

Sorafenib is a first-line drug for liver cancer treatment, but its clinical efficacy is still limited by drawbacks such as drug tolerance, toxic effects, and low bioavailability. Therefore, it is urgent to find efficient ways to synergize sorafenib with other agents and increase its bioavailability in order to enhance its clinical efficacy. Herein, we report the successful development of a carrier-free nanoplatform of an artesunate prodrug to potentiate the efficacy of sorafenib against hepatocellular carcinoma. The artesunate prodrug was synthesized by conjugating artesunate and linoleic acid through a thioketone (TK) bond. This prodrug can self-assemble in an aqueous solution via a one-step precipitation method. Furthermore, the inclusion of sorafenib during the self-assembly process results in a carrier-free artesunate/sorafenib mixed nanomedicine (SA@NPs) with a uniform and stable particle size. In addition, SA@NPs possess ROS-responsive drug-releasing ability by breaking up thioketone bonds under high H2O2 levels in tumors. The synergistic anticancer effects of SA@NPs have been demonstrated both in vivo and in vitro. SA@NPs can achieve significantly enhanced synergetic ferroptosis of tumor cells and show potentiated sorafenib efficacy against hepatocellular carcinoma. Moreover, SA@NPs have a tumor inhibition rate of 84.2%, which is 1.63-, 4.22-, and 1.29-fold higher than that in the experimental groups treated with free sorafenib, artesunate, and the simplified combined medication of sorafenib/artesunate, respectively. Overall, this work presents a significant advancement in the clinical chemotherapy of liver cancer and may pave the way for promising developments in the compatibility and clinical combination application of traditional Chinese medicine.

通过青蒿琥酯前药的无载体纳米药物增强索拉非尼对肝细胞癌的疗效
索拉非尼是癌症治疗的一线药物,但其临床疗效仍然受到药物耐受性、毒性作用、生物利用度低等缺点的限制。因此,迫切需要找到有效的方法将索拉非尼与其他药物协同作用,提高其生物利用度,以提高其临床疗效。在此,我们报道了青蒿琥酯前药的无载体纳米平台的成功开发,以增强索拉非尼对肝细胞癌的疗效。青蒿琥酯前药是由青蒿琥酸酯和亚油酸通过硫代酮(TK)键偶联而成。这种前药可以通过一步沉淀法在水溶液中自组装。此外,索拉非尼在自组装过程中的加入导致了无载体的青蒿琥酯/索拉非尼混合纳米药物(SA@NPs)具有均匀且稳定的颗粒尺寸。此外SA@NPs在肿瘤中通过在高H2O2水平下破坏硫酮键而具有ROS响应性药物释放能力。SA@NPs已经在体内和体外得到证实。SA@NPs可以显著增强肿瘤细胞的协同脱铁作用,并显示出索拉非尼对肝细胞癌的增强疗效。此外SA@NPs具有84.2%的抑瘤率,分别是索拉非尼、青蒿琥酯和索拉非尼/青蒿琥酸酯简化联合用药实验组的1.63倍、4.22倍和1.29倍。总体而言,这项工作在癌症的临床化疗方面取得了重大进展,并可能为中药配伍和临床联合应用的发展铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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