Approximately 77.4% of uterine leiomyomas carry MED12 gene mutations (mut-MED12), which are specifically associated with strikingly upregulated expression and activity of the tryptophan 2,3-dioxygenase (TDO2) enzyme, leading to increased conversion of tryptophan to kynureine. Kynurenine increases leiomyoma cell survival by activating the aryl hydrocarbon receptor (AHR). We used a leiomyoma-relevant model, in which a MED12 Gly44 mutation was knocked in by CRISPR in a human uterine myometrial smooth muscle (UtSM) cell line, in addition to primary leiomyoma cells from 26 patients to ascertain the mechanisms responsible for therapeutic effects of apigenin, a natural compound. Apigenin treatment significantly decreased cell viability, inhibited cell cycle progression, and induced apoptosis preferentially in mut-MED12 versus wild-type primary leiomyoma and UtSM cells. Apigenin not only blocked AHR action but also decreased TDO2 expression and kynurenine production, preferentially in mut-MED12 cells. Apigenin did not alter TDO2 enzyme activity. TNF and IL-1β, cytokines upregulated in leiomyoma, strikingly induced TDO2 expression levels via activating the NF-κB and JNK pathways, which were abolished by apigenin. Apigenin or a TDO2 inhibitor decreased UtSM cell viability induced by TNF/IL-1β. We provide proof-of-principle evidence that apigenin is a potential therapeutic agent for mut-MED12 leiomyomas.