Effect of 17β‐estradiol and flavonoids on the regulation of expression of newly identified oestrogen responsive genes in a rat raphe nuclei‐derived cell line

Due to the health risks attributed to perimenopausal hormone therapy, phytoestrogens such as flavonoids are receiving widespread attention to help alleviate menopausal symptoms, including hormone‐driven mood disorders. Based on our previous reporter gene study regarding their transactivational activity in raphe nuclei cells from a brain region involved in regulation of mood disturbances, we herein study their effects on the regulation of expression of 17β‐estradiol (E2)‐regulated genes. DNA microarray was used to globally assess E2‐induced gene expression in RNDA cells, a rat raphe nuclei‐derived cellular model expressing oestrogen receptor β. Out of 212 regulated genes, six were selected for verification and as endpoints for the effect of flavonoids on the regulation of mRNA expression in proliferating as well as differentiating RNDA cells. Under proliferative conditions, E2 up‐regulated mRNA expression of Cml‐5 , Sox‐18 and Krt‐19 . Similar effects were observed in response to 8‐prenylnaringenin (8‐PN), genistein (GEN), daidzein (DAI) and equol (EQ). In line with E2, mRNA expression of Nefm and Zdhhc‐2 was down‐regulated following 8‐PN, GEN, DAI, EQ and naringenin treatment. No regulation was observed on Slc6a4 mRNA expression in response to E2 or the flavonoids in proliferating RNDA cells. When cells were shifted to conditions promoting differentiation, changes in cell morphology, in mRNA expression levels and in responsiveness towards E2 and the tested flavonoids were noticed. These expression studies additionally highlighted some of the genes as markers for RNDA cellular differentiation. RNDA cells should prove useful to elucidate molecular and cellular mechanisms of exogenous oestrogen receptor ligands with neural cell populations. J. Cell. Physiol. 227: 3434–3445, 2012. © 2011 Wiley Periodicals, Inc.