前药
化学
结合
药品
两亲性
药物输送
伊立替康
喜树碱
药理学
内化
体内
毒品携带者
癌细胞
癌症
组合化学
生物化学
有机化学
结直肠癌
医学
共聚物
聚合物
生物技术
细胞
数学分析
内科学
生物
数学
作者
Ping Huang,Dali Wang,Yue Su,Wei Huang,Yongfeng Zhou,Daxiang Cui,Xinyuan Zhu,Deyue Yan
摘要
All drugs for cancer therapy face several transportation barriers on their tortuous journey to the action sites. To overcome these barriers, an effective drug delivery system for cancer therapy is imperative. Here, we develop a drug self-delivery system for cancer therapy, in which anticancer drugs can be delivered by themselves without any carriers. To demonstrate this unique approach, an amphiphilic drug-drug conjugate (ADDC) has been synthesized from the hydrophilic anticancer drug irinotecan (Ir) and the hydrophobic anticancer drug chlorambucil (Cb) via a hydrolyzable ester linkage. The amphiphilic Ir-Cb conjugate self-assembles into nanoparticles in water and exhibits longer blood retention half-life compared with the free drugs, which facilitates the accumulation of drugs in tumor tissues and promotes their cellular uptake. A benefit of the nanoscale characteristics of the Ir-Cb ADDC nanoparticles is that the multidrug resistance (MDR) of tumor cells can be overcome efficiently. After cellular internalization, the ester bond between hydrophilic and hydrophobic drugs undergoes hydrolysis to release free Ir and Cb, resulting in an excellent anticancer activity in vitro and in vivo.
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