S. Ulisse et Jr. Tata, THYROID-HORMONE AND GLUCOCORTICOID INDEPENDENTLY REGULATE THE EXPRESSION OF ESTROGEN-RECEPTOR IN MALE XENOPUS LIVER-CELLS, Molecular and cellular endocrinology, 105(1), 1994, pp. 45-53
Earlier studies from our laboratory had shown that triiodothyronine (T
-3) strongly potentiates the activation by estradiol (E(2)) of silent
vitellogenin (Vit) genes and the autoinduction of estrogen receptor (E
R) mRNA in primary cultures of male Xenopus hepatocytes (Rabelo and Ta
ta, 1993). It was, however, not known if T-3, or other hormones, could
up-regulate ER mRNA in the absence of exogenous E(2). We now show tha
t T-3 and dexamethasone (Dex), but not progesterone and testosterone,
directly induce ER mRNA within 4 h by separate pathways, at doses comp
atible with the K-d values of their receptors. This induction of ER mR
NA is accompanied by a marked enhancement of the activation of the sil
ent Vit B1 gene if E(2) is added by 12 h after T-3 and Dex, thus sugge
sting an elevated level of functional ER induced by the two hormones.
This conclusion was supported by a higher rate of transcription from a
n estrogen response element (ERE)-tk-CAT construct transfected into cu
ltured hepatocytes pre-treated with T-3 and Dex before incubation with
estrogen. Our findings emphasize the importance of hormonal interplay
via auto- and cross-regulation of nuclear hormone receptors.