Inhibitors of mitosis are used extensively in studies of cell biology and as chemotherapy agents in clinical settings. Such inhibitors may be present in certain East Asian herbal medicines that have been administered as anticancer treatments. In this study, we screened compounds that were discovered in herbal medicines and we identified evodiamine as a new anticancer drug candidate. The cytotoxic effects of evodiamine were observed only in proliferating cells, which is an excellent property for an anticancer drug candidate. As a negative control, cells were treated with rutaecarpine, an alkaloid with a similar structure to evodiamine; however, rutaecarpine did not show any cytotoxicity up to 10 μM. To understand the molecular action of evodiamine, chromosome segregation during mitosis was analyzed. First, cells were treated with a low concentration of evodiamine (1 μM) or with 10 μM rutaecarpine for 16 h. In evodiamine-treated metaphase cells, several chromatids were prematurely distributed to both poles without sister chromatid separation. In contrast, cells treated with rutaecarpine did not show this abnormality. Cells treated with evodiamine also displayed micronucleus formation but this was not observed in cells treated with rutaecarpine. Cells treated with a higher concentration of evodiamine (5 μM) showed a higher rate of prophase arrest. Based on these results, we suggest that evodiamine induces chromosomal segregation abnormalities, which are thought to cause cell death exclusively in proliferating cells.
Keywords: Abnormal metaphase; Chromosomal abnormality; Double-strand DNA breaks; Micronuclei; Mitotic poison.
Copyright © 2026 Elsevier Inc. All rights reserved.