Jennifer R. Schultz-Norton scite author profile

The effects of the steroid hormone 17beta-estradiol are mediated through its interaction with the nuclear estrogen receptor (ER). Upon binding 17beta-estradiol, the ER initiates changes in gene expression through its interaction with specific DNA sequences, estrogen response elements (EREs), and recruits coregulatory proteins that influence gene expression. To better understand how estrogen-responsive genes are regulated, we have isolated and identified proteins associated with ERalpha when it is bound to the consensus ERE. One of these proteins, protein disulfide isomerase (PDI), has two distinct functions: acting as a molecular chaperone to maintain properly folded proteins and regulating the redox state of proteins by catalyzing the thiol-disulfide exchange reaction through two thioredoxin-like domains. Using a battery of biochemical and molecular techniques, we have demonstrated that PDI colocalizes with ERalpha in MCF-7 nuclei, alters ERalpha conformation, enhances the ERalpha-ERE interaction in the absence and presence of an oxidizing agent, influences the ability of ERalpha to mediate changes in gene expression, and associates with promoter regions of two endogenous estrogen-responsive genes. Our studies suggest that PDI plays a critical role in estrogen responsiveness by functioning as a molecular chaperone and assisting the receptor in differentially regulating target gene expression.

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The Deoxyribonucleic Acid Repair Protein Flap Endonuclease-1 Modulates Estrogen-Responsive Gene Expression

Schultz-Norton

Walt

Ziegler

et al. 2007

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The ligand-occupied estrogen receptor alpha (ERalpha) initiates changes in gene expression through its interaction with target DNA. The capacity of ERalpha to modulate gene expression is influenced by the association of the receptor with a variety of coregulatory proteins. To further understand the role of these coregulatory proteins in ERalpha-mediated transcription, we have isolated and identified proteins associated with ERalpha when it is bound to the consensus estrogen response element. One of the proteins identified in this complex, flap endonuclease-1 (FEN-1), is required for DNA replication and repair. We show that FEN-1 interacts directly with ERalpha and enhances the interaction of ERalpha with estrogen response element-containing DNA. More importantly, chromatin immunoprecipitation and RNA interference assays demonstrate that endogenously expressed FEN-1 associates with the native pS2 gene in MCF-7 cells and influences estrogen-responsive gene expression. Interestingly, estrogen differentially regulates expression of FEN-1 in mouse uterine epithelial, stromal, and myometrial cells. Together, our studies help to elucidate the functional consequence of the ERalpha-FEN-1 interaction and increase our understanding of the elaborate regulatory mechanisms that drive estrogen-responsive gene expression and DNA repair.

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Jennifer R. Schultz-Norton

Histone H1 phosphorylation is associated with transcription by RNA polymerases I and II

Protein Disulfide Isomerase Serves as a Molecular Chaperone to Maintain Estrogen Receptor α Structure and Function

The Deoxyribonucleic Acid Repair Protein Flap Endonuclease-1 Modulates Estrogen-Responsive Gene Expression

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