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Novel Indole–Chalcone Derivative-Ligated Platinum(IV) Prodrugs Attenuate Cisplatin Resistance in Lung Cancer through ROS/ER Stress and Mitochondrial Dysfunction

Zhikun Liu, Meng Wang, Ri-Zhen Huang, Tianhui Hu, Jing Yi, Xiaochao Huang, Weiwei Hu, Guoxiu Cao, Heng‐Shan Wang

2023Journal of Medicinal Chemistry40 citationsDOI

Abstract

Developing multifunctional platinum(IV) prodrugs via integrating bioactive pharmacophores into one entity is an attractive strategy to ameliorate the defects of platinum(II) drugs. Herein, a series of indole–chalcone derivative-ligated platinum(IV) complexes were synthesized and evaluated for their anticancer activities. Among them, optimal complex 17a exerted superior activity compared to that of cisplatin (CDDP) against the tested cells but showed lower cytotoxicity toward human normal lung cells. Detailed mechanisms demonstrated that 17a significantly enhanced intracellular accumulation, induced DNA damage, and inhibited migration in A549/CDDP cells. Furthermore, 17a efficiently disturbed the tubulin–microtubule system, initiated reactive oxygen species (ROS)-mediated endoplasmic reticulum stress, and activated a mitochondrion-dependent apoptosis signaling pathway. Besides, 17a was superior to free drugs or their combination in inhibiting cancer growth in A549/CDDP xenografts without inducing obvious side effects. The physical mixture of 16a and CDDP was almost identical to 17a but showed apparent systematic side effects. In summary, our studies may provide an efficient treatment regimen for CDDP resistance.

Topics & Concepts

ChemistryCisplatinChalconeReactive oxygen speciesProdrugCytotoxicityApoptosisPharmacologyCancer cellUnfolded protein responseCancer researchBiochemistryCancerStereochemistryChemotherapyBiologyInternal medicineMedicineIn vitroMetal complexes synthesis and propertiesFerrocene Chemistry and ApplicationsSynthesis and Biological Evaluation
Novel Indole–Chalcone Derivative-Ligated Platinum(IV) Prodrugs Attenuate Cisplatin Resistance in Lung Cancer through ROS/ER Stress and Mitochondrial Dysfunction | Litcius