Artemisinin (ART) and dihydroartemisinin (DHA) are anti-malaria drugs but also exhibit huge anticancer potential based on ferroptosis driven by iron-dependent lipid peroxidation. This study was conducted on primary (SW480), metastatic (SW620) colon cancer, and noncancerous HaCaT cells at pharmacologically relevant drug concentrations (1-8 µM) and in the presence of holotransferrin (TRFi 50 µM) and linoleic acid (LA 20, 40 µM) at physiological levels. ART and DHA showed the growth inhibitory potency which was significantly increased in the presence of LA or/and TRFi. The IC50 for ART or DHA, LA40 and TRFi combination in both cancer cell lines ranged 0.14-0.69 µM whereas no cytotoxic effect was observed for HaCaT cells (SI = 202-480). Almost all experimental settings revealed late apoptosis in both cancer cell lines, but not in normal cells. The percentage of late apoptotic cells increased with LA concentrations and was intensified after TRFi addition. The strongest pro-apoptic effect was exhibited by ART or DHA, LA40, and TRFi combination. More interestingly, we found a stimulatory effect of TRFi on IL-6 synthesis. The present study using LA and TRFi which are inherent blood components revealed high antitumor artemisinin activity in concentrations achievable after drug administration to cancer patients without toxic effects on normal cells.
Keywords: artemisinin; colorectal cancer; dihydroartemisinin; ferroptosis; holotransferrin; interleukin-6; linoleic acid.