Progesterone induces progesterone receptor gene (PGR) expression via rapid activation of protein kinase pathways required for cooperative estrogen receptor alpha (ER) and progesterone receptor (PR) genomic action at ER/PR target genes

•Progestin (R5020) upregulates endogenous PR expression in ER+/PR+ cells.•R5020-dependent upregulation of PR levels are dependent on PR and ER activities.•ER and PR are recruited to the same region of the PGR gene promoter with R5020 treatment.•R5020 rapidly activates phosphorylation of ERα Ser118.•...

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Bibliographic Details
Published in:Steroids 2016-10, Vol.114, p.48-58
Main Authors: Diep, Caroline H., Ahrendt, Hannah, Lange, Carol A.
Format: Article
Language:English
Subjects:
Butadienes - pharmacology
Cell Line, Tumor
Chromatin - metabolism
Chromatin Immunoprecipitation
Chromones
Estrogen receptor
Estrogen Receptor alpha - metabolism
Female
Humans
Morpholines
Nitriles - pharmacology
Phosphorylation
Phosphorylation - drug effects
Progesterone - pharmacology
Progesterone receptor
Progestin
Progestins - pharmacology
Protein Binding - drug effects
Protein kinase
Receptors, Progesterone - metabolism
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Summary:•Progestin (R5020) upregulates endogenous PR expression in ER+/PR+ cells.•R5020-dependent upregulation of PR levels are dependent on PR and ER activities.•ER and PR are recruited to the same region of the PGR gene promoter with R5020 treatment.•R5020 rapidly activates phosphorylation of ERα Ser118.•R5020-dependent recruitment of ER/PR and regulation of PR mRNA levels is kinase-dependent. Progesterone Receptors (PRs) are critical effectors of estrogen receptor (ER) signaling required for mammary gland development and reproductive proficiency. In breast and reproductive tract malignancies, PR expression is a clinical prognostic marker of ER action. While estrogens primarily regulate PR expression, other factors likely contribute to a dynamic range of receptor expression across diverse tissues. In this study, we identified estrogen-independent but progestin (R5020)-dependent regulation of ER target genes including PGR in ER+/PR+ cancer cell lines. R5020 (10nM–10μM range) induced dose-dependent PR mRNA and protein expression in the absence of estrogen but required both PR and ERα. Antagonists of either PR (RU486, onapristone) or ERα (ICI 182,780) attenuated R5020 induction of TFF1, CTSD, and PGR. Chromatin immunoprecipitation (ChIP) assays performed on ER+/PR+ cells demonstrated that both ERα and PR were recruited to the same ERE/Sp1 site-containing region of the PGR proximal promoter in response to high dose progestin (10μM). Recruitment of ERα and PR to chromatin and subsequent PR mRNA induction were dependent upon rapid activation of MAPK/ERK and AKT; inhibition of these kinase pathways via U0126 or LY294002 blocked these events. Overall, we have identified a novel mechanism of ERα activation initiated by rapid PR-dependent kinase pathway activation and associated with phosphorylation of ERα Ser118 for estrogen-independent but progestin-dependent ER/PR cross talk. These studies may provide insight into mechanisms of persistent ER-target gene expression during periods of hormone (i.e. estrogen) ablation and suggest caution following prolonged treatment with aromatase or CYP17 inhibitors (i.e. contexts when progesterone levels may be abnormally elevated).
ISSN:0039-128X
1878-5867
DOI:10.1016/j.steroids.2016.09.004