Enhancing anticancer treatment: Development of cRGD-Conjugated F-OH-Evo prodrugs for targeted delivery.

Small molecule drugs sourced from natural products are pivotal for novel therapeutic discoveries. However, their clinical deployment is often impeded by non-specific activity and severe adverse effects. This study focused on 3-fluoro-10-hydroxy-Evodiamine (F-OH-Evo), a potent derivative of Evodiamine, whose development is curtailed due to suboptimal tumor selectivity and heightened cytotoxicity. By harnessing the remarkable stability, specificity, and αβ integrin affinity of c(RGDFK), a novel prodrug by conjugating F-OH-Evo with cRGD was synthesized. This innovative prodrug substantially enhanced the tumor-specific targeting of F-OH-Evo and improved the anti-tumor activities. Among them, compound 3c demonstrated the best selective inhibitory activity toward U87 cancer cells in vitro. It selectively enterd U87 cells by binding to αβ integrin, releasing the parent molecule under the dual response of ROS and GSH to exert inhibitory activity on topo I. The results highlight the potential of cRGD-conjugated prodrugs in targeted cancer therapy. This approach signifies a significant advancement in developing safer and more effective chemotherapy drugs, emphasizing the role of prodrug strategies in overcoming the limitations of traditional cancer treatments.