前药
化学
药代动力学
结合
药理学
毒性
药品
细胞毒性
化疗
治疗指标
代谢稳定性
生物活性
放射治疗
体外
细胞毒性T细胞
癌症研究
联合疗法
人血清白蛋白
活性代谢物
全身循环
组合化学
阿霉素
肿瘤细胞
全身给药
药物发现
体内
毒品携带者
作者
Siyong Shen,Qunfeng Fu,Yuchen Hu,Dongfan Song,Zhi Gu,Yongqi Wan,Shuren Zhang,Zhibin Guo,Zijian Guo,Zhibo Liu
标识
DOI:10.1021/acs.jmedchem.6c00006
摘要
Platinum-based combination chemotherapy is a standard first-line treatment for major cancers. However, its dose-limiting toxicity significantly compromises the clinical utility. Here, we established a radiotherapy-activated platinum(IV) prodrug platform for selective activation in tumors, thereby reducing the systemic toxicity in concurrent chemoradiotherapy. A library of Pt(IV) prodrugs functionalized with amino-, hydroxyl-, and carboxyl-containing moieties via carbamate, carbonate, and ester linkages was synthesized and screened for favorable stability and radiation-triggered reactivity in biological environments. The optimized platform was then extended to incorporate bioactive ligands that release cytotoxic agents upon irradiation. Critically, a human serum albumin (HSA)-binding motif was integrated to prolong the systemic circulation time and enhance tumor accumulation. In summary, we established a chemical platform that leverages the radiation-induced reduction of Pt(IV) to enable platinum-based combinational therapy, achieved by selectively releasing two bioactive agents in tumors. This system also exploits albumin-mediated transport to improve pharmacokinetic profiles, facilitate selective drug activation, and enhance antitumor efficacy.
科研通智能强力驱动
Strongly Powered by AbleSci AI