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Biological Evaluation in Resistant Cancer Cells and Study of Mechanism of Action of Arylvinyl-1,2,4-Trioxanes

Jerome P. L. Ng, Mohit K. Tiwari, Ali Adnan Nasim, Rui Long Zhang, Yuan Qing Qu, Richa Sharma, Betty Yuen Kwan Law, Dharmendra Kumar Yadav, Sandeep Chaudhary, Paolo Coghi, Vincent Kam Wai Wong

2022Pharmaceuticals13 citationsDOIOpen Access PDF

Abstract

1,2,4-trioxane is a pharmacophore, which possesses a wide spectrum of biological activities, including anticancer effects. In this study, the cytotoxic effect and anticancer mechanism of action of a set of 10 selected peroxides were investigated on five phenotypically different cancer cell lines (A549, A2780, HCT8, MCF7, and SGC7901) and their corresponding drug-resistant cancer cell lines. Among all peroxides, only 7 and 8 showed a better P-glycoprotein (P-gp) inhibitory effect at a concentration of 100 nM. These in vitro results were further validated by in silico docking and molecular dynamic (MD) studies, where compounds 7 and 8 exhibited docking scores of −7.089 and −8.196 kcal/mol, respectively, and remained generally stable in 100 ns during MD simulation. Further experiments revealed that peroxides 7 and 8 showed no significant effect on ROS accumulations and caspase-3 activity in A549 cells. Peroxides 7 and 8 were also found to decrease cell membrane potential. In addition, peroxides 7 and 8 were demonstrated to oxidize a flavin cofactor, possibly elucidating its mechanism of action. In conclusion, apoptosis induced by 1,2,4-trioxane was shown to undergo via a ROS- and caspase-3-independent pathway with hyperpolarization of cell membrane potential.

Topics & Concepts

ChemistryPharmacophoreTrioxaneMechanism of actionApoptosisCancer cellIn silicoDocking (animal)Cell cultureIn vitroA549 cellCytotoxicityStereochemistryBiochemistryPharmacologyCancerBiologyGeneGeneticsNursingPolymerCopolymerMedicineOrganic chemistryMolecular Sensors and Ion DetectionFree Radicals and AntioxidantsEicosanoids and Hypertension Pharmacology