Novel 4β-anilino-podophyllotoxin derivatives: design synthesis and biological evaluation as potent DNA-topoisomerase II poisons and anti-MDR agents

Abstract

A new series of 4β-anilino-podophyllotoxin analogs have been designed, synthesized and evaluated their bioactivities as novel DNA-topoisomerase II poisons as well as P-glycoprotein (P-gp)-dependent multidrug resistance (MDR) inhibitors. The new compounds show improved potency and efficacy with respect to the parent molecule etoposide (VP-16), one of the semisynthetic derivatives of podophyllotoxin. The treatment of 5k–n in KB/VCR cells caused G₂/M phase arrest and finally induced apoptosis. Furthermore, molecular docking is applied to testify that 5k–n could not be the substrates of P-gp, which is consistent with the result of MDR1 and P-glycoprotein express tests. The most potent compound 5n is chosen for in vivo studies, the administration of 5n was effective in treatment of cancer with a lower dose than VP-16 in drug-sensitive xenograft model and drug-resistant xenograft model. Compound 5n is a potential drug candidate for anticancer chemotherapy.