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Fos and Jun Inhibit Estrogen-Induced Transcription of the Human Progesterone Receptor Gene through an Activator Protein-1 Site

2003; Oxford University Press; Volume: 18; Issue: 3 Linguagem: Inglês

10.1210/me.2003-0105

1944-9917

Larry N. Petz, Yvonne Ziegler, Jennifer R. Schultz, Ann M. Nardulli,

Inflammatory mediators and NSAID effects

The progesterone receptor (PR) gene is activated by estrogen in normal reproductive tissues and in MCF-7 human breast cancer cells. Although it is typically thought that estrogen responsiveness is mediated through estrogen response elements (EREs), the human PR gene lacks a palindromic ERE sequence. We have identified an activating protein-1 (AP-1) site at +745 in the human PR gene that bound purified Fos and Jun and formed a complex with Fos/Jun heterodimers present in MCF-7 nuclear extracts. Surprisingly, mutating the +745 AP-1 site in the context of a 1.5-kb region of the PR gene significantly enhanced estrogen receptor (ER) alpha-mediated transactivation, suggesting that the wild-type +745 AP-1 site plays a role in inhibiting PR gene expression in the presence of hormone. In support of this idea, transient transfection assays demonstrated that increasing levels of Fos and Jun repressed transcription of a reporter plasmid containing the +745 AP-1 site. Fos levels were transiently increased, ERalpha levels were decreased, and Jun was dephosphorylated after MCF-7 cells were treated with estrogen. Chromatin immunoprecipitation assays demonstrated that Jun was associated with the +745 AP-1 site in the endogenous PR gene in the presence and in the absence of estrogen, but that ERalpha and Fos were only associated with the +745 AP-1 site after estrogen treatment of MCF-7 cells. Our studies suggest that the human PR gene is regulated by multiple transcription factors and that the differential binding of these dynamically regulated trans-acting factors influences gene expression.