Royal jelly (RJ) has beneficial effects on human health, and some of these effects are reported to be the result of its estrogenic activity; however, chemicals with estrogenic activities may disrupt physiological estrogen signaling leading to adverse effects on human health. Thus, clarification of the mode of action of RJ is needed. Here, we investigated whether the estrogen-like actions of RJ are induced via estrogen receptors (ERs)-mediated genomic actions by using an in vitro reporter assay in human choriocarcinoma JEG3 cells and an estrogen-responsive reporter (E-Rep) mouse line that can be used to sensitively detect transactivation of ERs in multiple organs simultaneously. In the in vitro reporter assay, ERs-dependent transcriptional activity was significantly increased by 17β-estradiol (E2) treatment at concentrations of 1 nM and above, confirming that the assay was highly responsive to estrogen; however, RJ did not exhibit any agonist activity via either the α or β form of ER. Similarly, in E-Rep mice, E2 showed significant ERs-dependent genomic action in 17 tissue types including uterus and mammary gland, whereas RJ did not. Thus, unlike endocrine-disrupting chemicals, the estrogen-like activity of RJ is unlikely to be due to genomic actions via ERs.
Keywords: estrogen receptor; genomic action; in vitro reporter assay; reporter transgenic mouse; uterotrophic bioassay.