Synthesis, biological evaluation and mechanism study of a novel indole-pyridine chalcone derivative as antiproliferative agent against tumor cells through dual targeting tubulin and HK2

Chalcones have the characteristics of simple structure, easy synthesis and potent anti-tumor activity. Herein, a small library of fifty-five novel indole-chalcone derivatives were rationally designed and facilely synthesized. Consequently, their antiproliferative activity was systematically evaluated. Among which, compound 26 exhibited the most potent antiproliferative activity, with IC₅₀ value of 0.764 μM against MD-MBA-231 cells. Moreover, it displayed a 5-fold selectivity compared with normal human cells. Further investigation revealed that compound 26 bound at the colchicine binding site of tubulin, disrupted their fibrous structure, thereby blocking the progression of the cell cycle and inducing Apoptosis. Molecular docking and cellular thermal shift assay (CETSA) experiments further demonstrated that compound 26 could specifically bind to Hexokinase 2 (HK2) and inhibit its activity, leading to impaired mitochondrial function and hindered mitochondrial respiration. Based on the quantitative structure-activity relationship study, further structure modifications were performed. Employing biotin probe pull-down assays, we demonstrated that compound 26 exerted its antiproliferative activity through a dual targeting mechanism, which simultaneously disrupted microtubule function and inhibited HK2 activity. Taken together, these results highlighted that compound 26 might be a promising antiproliferative agent for human Cancer therapy.

Antiproliferative activity; Dual targeting inhibitor; Hexokinase 2; Indole-pyridine chalcone; Tubulin.