Abstract
The transcriptional activity of estrogen receptors (ERs) can be regulated by ligands as well as agents such as dopamine, which stimulate intracellular signaling pathways able to communicate with these receptors. We examined the ability of SKF-82958 (SKF), a previously characterized full dopamine D1 receptor agonist, to stimulate the transcriptional activity of ERalpha and ERbeta. Treatment of HeLa cells with SKF-82958 stimulated robust ERalpha-dependent transcription from an estrogen-response element-E1b-CAT reporter in the absence of estrogen, and this was accompanied by increased receptor phosphorylation. However, induction of ERbeta-directed gene expression under the same conditions was negligible. In our cell model, SKF treatment did not elevate cAMP levels nor enhance transcription from a cAMP-response element-linked reporter. Control studies revealed that SKF-82958, but not dopamine, competes with 17beta-estradiol for binding to ERalpha or ERbeta with comparable relative binding affinities. Therefore, SKF-82958 is an ERalpha-selective agonist. Transcriptional activation of ERalpha by SKF was more potent than expected from its relative binding activity, and further examination revealed that this synthetic compound induced expression of an AP-1 target gene in a tetradecanoylphorbol-13-acetate-response element (TRE)-dependent manner. A putative TRE site upstream of the estrogen-response element and the amino-terminal domain of the receptor contributed to, but were not required for, SKF-induced expression of an ERalpha-dependent reporter gene. Overexpression of the AP-1 protein c-Jun, but not c-Fos, strongly enhanced SKF-induced ERalpha target gene expression but only when the TRE was present. These studies provide information on the ability of a ligand that weakly stimulates ERalpha to yield strong stimulation of ERalpha-dependent gene expression through cross-talk with other intracellular signaling pathways producing a robust combinatorial response within the cell.
Highlights
The effects of estrogens are mediated by the products of two separate genes, one for estrogen receptor-␣ (ER␣)1 and another
Dose-response studies indicated that half-maximal induction of estrogen receptors (ERs)-directed gene expression by SKF-82958 occurred at 2 M
These results suggest that SKF-82958 is not acting through stimulation of cAMP-dependent dopaminergic signaling in this system
Summary
ER␣, estrogen receptor-␣; ER, estrogen for ER. Both are members of the nuclear receptor superfamily of ligand-activated transcription factors. 82958 did not increase cAMP production, it did stimulate pathways leading to activation of AP-1, a transcription factor known to functionally interact with many steroid receptors [3], and we examined the contribution of AP-1 to SKFinduced ER␣ transcriptional activity. These studies provide novel information on the ability of a compound to stimulate simultaneously the activity of two transcription factors and in so doing produce robust stimulation of gene expression through a combinatorial response within the cell
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