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Novel NF-κB Inhibitor-Conjugated Pt(IV) Prodrug to Enable Cancer Therapy through ROS/ER Stress and Mitochondrial Dysfunction and Overcome Multidrug Resistance

Meng Wang, Guimei Li, Guiyang Jiang, Jinyuan Cai, Zhikun Liu, Ri-Zhen Huang, Xiaochao Huang, Heng‐Shan Wang

2024Journal of Medicinal Chemistry19 citationsDOI

Abstract

Although cisplatin has been widely used for clinical purposes, its application is limited due to its obvious side effects. To mitigate the defects of cisplatin, here, six “multitarget prodrugs” were synthesized by linking cisplatin and NF-κB inhibitors. Notably, complex 9 demonstrated a 63-fold enhancement in the activity against A549/CDDP cells with lower toxicity toward normal LO2 cells compared to cisplatin. Additionally, complex 9 could effectively cause DNA damage, induce mitochondrial dysfunction, generate reactive oxygen species, and induce cell apoptosis through the mitochondrial pathway and ER stress. Remarkably, complex 9 effectively inhibited the NF-κB/MAPK signaling pathway and disrupted the PI3K/AKT signaling transduction. Importantly, complex 9 showed superior in vivo antitumor efficiency compared to cisplatin or the combination of cisplatin/ 4, without obvious systemic toxicity in A549 or A549/CDDP xenograft models. Our results demonstrated that the dual-acting mechanism endowed the complexes with high efficiency and low toxicity, which may represent an efficient strategy for cancer therapy.

Topics & Concepts

CisplatinChemistryProdrugReactive oxygen speciesPharmacologyApoptosisPI3K/AKT/mTOR pathwayProtein kinase BCancer researchA549 cellSignal transductionCancer cellToxicityCancerBiochemistryChemotherapyBiologyMedicineInternal medicineOrganic chemistryMetal complexes synthesis and propertiesSynthesis and biological activitySynthesis of Tetrazole Derivatives
Novel NF-κB Inhibitor-Conjugated Pt(IV) Prodrug to Enable Cancer Therapy through ROS/ER Stress and Mitochondrial Dysfunction and Overcome Multidrug Resistance | Litcius