Artemisinin derivatives inhibit epithelial ovarian cancer cells via autophagy-mediated cell cycle arrest.

Epithelial ovarian cancer (EOC) is the most fatal gynecologic malignancy due to its late diagnosis and lack of curative therapy. The antimalaria compound artemisinin and its derivatives, such as artesunate (ART) and dihydroartemisinin (DHA), have proven to be potent anticancer drugs and act through various anticancer mechanisms. To identify novel targets of artemisinin derivatives in EOC cells, we investigated the effects of ART and DHA on SKOV3 and primary EOC cell growth via CCK-8 assay. Both ART and DHA inhibited EOC cell growth. A cell cycle distribution analysis showed that ART and DHA caused G2/M cell cycle arrest. Moreover, ART and DHA induced autophagy in EOC cells, whereas autophagy inhibitors reversed the cell growth inhibition and cell cycle arrest induced by ART and DHA. Western blot analysis showed that ART and DHA also suppressed the cell cycle-related NF-κB-signaling pathway in EOC cells. These data suggest that artemisinin derivatives induce autophagy, block the cell cycle, and inhibit cell growth in EOC cells. Our research provides new targets for artemisinin derivatives for EOC treatment.