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The Department of Physiology University of Wisconsin-Madison Madison, Wisconsin 53706
Regulation of estrogen receptor (ER) concentration is a key component in limiting estrogen responsiveness in target cells. Yet the mechanisms governing ER concentration in the lactotrope cells of the anterior pituitary, a major site of estrogen action, are undetermined. In this study, we used a lactotrope cell line, PR1, to explore regulation of ER protein by estrogen. Estrogen treatment resulted in an approximate 60% decrease in ER steady state protein levels. Suprisingly, the decline in ER protein was apparent within 1 h of estrogen treatment and occurred in the absence of protein synthesis and transcription. Direct regulation of ER protein was further confirmed by pulse chase analysis, which showed that ER protein half-life was shortened from greater than 3 h to 1 h in the presence of estrogen. The estrogen-induced degradation of ER protein could be prevented by pretreatment with peptide aldehyde inhibitors of pro-teasome protease whereas inhibitors of calpain and lysosomal proteases were ineffective. Inhibition of proteasome activity maintained ER protein at a level equivalent to control cells not stimulated with estrogen but increased estrogen-binding activity by 1.75-fold. Proteolytic regulation of ER by the proteasome is not limited to pituitary lactotrope cells but is also operational in MCF-7 breast cancer cells, suggesting that this may be a common regulatory pathway used by estrogen. These studies describe a nongenomic action of estrogen that involves nuclear ER: rapid proteolysis of ER protein via a proteasome-mediated pathway.
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