Abstract

4-Hydroxytamoxifen (4-OHT), a metabolite of tamoxifen (TAM), the most widely used antiestrogen for the treatment of advanced breast cancer, binds the estrogen receptor (ER) with high affinity. 4-OHT-ER binds to specific DNA sequences called estrogen response elements (EREs), located near or in the coding regions of estrogen-regulated genes with an affinity comparable to estradiol (E2)-liganded ER. This interaction initiates a series of events that alter gene transcription. Differences in binding of E2-ER versus 4-OHT-ER to EREs were revealed by use of single and multiple tandem ERE constructs that were varied in composition, spacing and helical orientation. Of note was our finding that dissociation of one 4-OHT ligand molecule occurs when dimeric 4-OHT-ER binds to EREs. Similarly, EREs lacking an AT-rich flanking sequence promoted dissociation of one E2 ligand molecule from the E2-ER dimer. Thus, the composition of flanking regions facilitates conformational alterations in the ER that impact ligand binding stability and induction of responsive genes. Although ER does not bind an ERE half site, we discovered a protein that binds a half site ERE and that interacts with ER in a ligand-specific fashion. We will address the mechanisms behind these observations, using equilibrium ERE binding, gel shift, footprinting, and transfection assays to: 1) define the determinants and mechanism by which AT-rich sequences in the ERE flanking region and the length of the ERE inverted repeat influence ER conformation and ligand stability; 2) establish what structural features of tandem EREs account for functional synergy of reporter gene transactivation in vivo; 3) ascertain whether the dissociation of one 4-OHT ligand molecule from the ER is a more general feature of antiestrogen action by studying the ERE binding properties of raloxifene-liganded ER; and 4) determine the role of a newly identified ER-associated DNA binding protein on 4OHT- and E2-ER-ERE binding and on estrogen-regulated gene transcription. Results will define how antiestrogens, and the ERE and its flanking sequence, impact ER conformation, ERE binding affinity, and the role of an auxiliary protein on induction of gene expression.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD024459-10
Application #
2857425
Study Section
Reproductive Endocrinology Study Section (REN)
Program Officer
Rankin, Tracy L
Project Start
1990-01-01
Project End
2000-12-31
Budget Start
1999-01-01
Budget End
1999-12-31
Support Year
10
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
University of Rochester
Department
Biochemistry
Type
Schools of Dentistry
DUNS #
208469486
City
Rochester
State
NY
Country
United States
Zip Code
14627

  Publications

Huang, Jing; Li, Xiaodong; Maguire, Casey A et al. (2005) Binding of estrogen receptor beta to estrogen response element in situ is independent of estradiol and impaired by its amino terminus. Mol Endocrinol 19:2696-712
Huang, Jing; Li, Xiaodong; Yi, Ping et al. (2004) Targeting estrogen responsive elements (EREs): design of potent transactivators for ERE-containing genes. Mol Cell Endocrinol 218:65-78
Li, Xiaodong; Huang, Jing; Yi, Ping et al. (2004) Single-chain estrogen receptors (ERs) reveal that the ERalpha/beta heterodimer emulates functions of the ERalpha dimer in genomic estrogen signaling pathways. Mol Cell Biol 24:7681-94
Yi, Ping; Driscoll, Mark D; Huang, Jing et al. (2002) The effects of estrogen-responsive element- and ligand-induced structural changes on the recruitment of cofactors and transcriptional responses by ER alpha and ER beta. Mol Endocrinol 16:674-93
Yi, Ping; Bhagat, Sumedha; Hilf, Russell et al. (2002) Differences in the abilities of estrogen receptors to integrate activation functions are critical for subtype-specific transcriptional responses. Mol Endocrinol 16:1810-27
Sathya, Ganesan; Yi, Ping; Bhagat, Sumedha et al. (2002) Structural regions of ERalpha critical for synergistic transcriptional responses contain co-factor interacting surfaces. Mol Cell Endocrinol 192:171-85
Muyan, M; Yi, P; Sathya, G et al. (2001) Fusion estrogen receptor proteins: toward the development of receptor-based agonists and antagonists. Mol Cell Endocrinol 182:249-63
Klinge, C M (1999) Estrogen receptor binding to estrogen response elements slows ligand dissociation and synergistically activates reporter gene expression. Mol Cell Endocrinol 150:99-111
Driscoll, M D; Sathya, G; Saidi, L F et al. (1999) An explanation for observed estrogen receptor binding to single-stranded estrogen-responsive element DNA. Mol Endocrinol 13:958-68
Klinge, C M; Studinski-Jones, A L; Kulakosky, P C et al. (1998) Comparison of tamoxifen ligands on estrogen receptor interaction with estrogen response elements. Mol Cell Endocrinol 143:79-90

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