Differential regulation of estrogen receptor subtypes α and β in human aortic smooth muscle cells by oligonucleotides and estradiol

We investigated the mechanisms regulating estrogen receptor ( ER) expression in human aortic smooth muscle cells (HASMCs) and the mechanisms by which estradiol inhibits HASMC growth. The autologous down-regulation pathway involves binding of liganded ER to the ER gene, thus suppressing transcription. Blockade of this pathway with sense and AS-OLIGOs to ERs up-regulated the expression of ERalpha but not ERbeta. Activation of the autologous down-regulation pathway with ER agonists down-regulated the expression of ERalpha but not ERbeta. The proteasomal degradation pathway entails ubiquination of liganded ER, followed by proteasome-mediated degradation. Blockade of the proteasomal degradation pathway increased the expression of ERbeta. Up-regulation of ERalpha by AS-OLIGOs did not increase the antimitogenic effects of estradiol on HASMCs; the estradiol metabolites 2-hydroxyestradiol and 2-methoxyestradiol were more potent inhibitors of HASMC growth, compared with estradiol; and blockade of metabolism of estradiol to hydroxyestradiols and methoxyestradiols abrogated the inhibitory effects of estradiol on HASMC growth. We conclude that, in HASMCs: 1) the expression of ERalpha is regulated by the autologous downregulation pathway; 2) the expression of ERbeta is governed by the proteasomal degradation pathway; and 3) the antigrowth effects of estradiol are not mediated by ERalpha, but rather by metabolism of estradiol to methoxyestradiols.