The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells

High-dose synthetic estrogen therapy was the standard treatment of advanced breast cancer for three decades until the discovery of tamoxifen. A range of substituted triphenylethylene synthetic estrogens and diethylstilbestrol were used. It is now known that low doses of estrogens can cause apoptosis...

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Autores principales: Maximov, Philipp Y., Abderrahman, Balkees, Hawsawi, Yousef M., Chen, Yue, Foulds, Charles E., Jain, Antrix, Malovannaya, Anna, Fan, Ping, Curpan, Ramona F., Han, Ross, Fanning, Sean W., Broom, Bradley M., Quintana Rincon, Daniela M., Greenland, Jeffery A., Greene, Geoffrey L., Jordan, V. Craig
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The American Society for Pharmacology and Experimental Therapeutics 2020
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7294906/
https://www.ncbi.nlm.nih.gov/pubmed/32362585
http://dx.doi.org/10.1124/mol.120.119776
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author Maximov, Philipp Y.
Abderrahman, Balkees
Hawsawi, Yousef M.
Chen, Yue
Foulds, Charles E.
Jain, Antrix
Malovannaya, Anna
Fan, Ping
Curpan, Ramona F.
Han, Ross
Fanning, Sean W.
Broom, Bradley M.
Quintana Rincon, Daniela M.
Greenland, Jeffery A.
Greene, Geoffrey L.
Jordan, V. Craig
author_facet Maximov, Philipp Y.
Abderrahman, Balkees
Hawsawi, Yousef M.
Chen, Yue
Foulds, Charles E.
Jain, Antrix
Malovannaya, Anna
Fan, Ping
Curpan, Ramona F.
Han, Ross
Fanning, Sean W.
Broom, Bradley M.
Quintana Rincon, Daniela M.
Greenland, Jeffery A.
Greene, Geoffrey L.
Jordan, V. Craig
author_sort Maximov, Philipp Y.
collection PubMed
description High-dose synthetic estrogen therapy was the standard treatment of advanced breast cancer for three decades until the discovery of tamoxifen. A range of substituted triphenylethylene synthetic estrogens and diethylstilbestrol were used. It is now known that low doses of estrogens can cause apoptosis in long-term estrogen deprived (LTED) breast cancer cells resistant to antiestrogens. This action of estrogen can explain the reduced breast cancer incidence in postmenopausal women over 60 who are taking conjugated equine estrogens and the beneficial effect of low-dose estrogen treatment of patients with acquired aromatase inhibitor resistance in clinical trials. To decipher the molecular mechanism of estrogens at the estrogen receptor (ER) complex by different types of estrogens—planar [17β-estradiol (E(2))] and angular triphenylethylene (TPE) derivatives—we have synthesized a small series of compounds with either no substitutions on the TPE phenyl ring containing the antiestrogenic side chain of endoxifen or a free hydroxyl. In the first week of treatment with E(2) the LTED cells undergo apoptosis completely. By contrast, the test TPE derivatives act as antiestrogens with a free para-hydroxyl on the phenyl ring that contains an antiestrogenic side chain in endoxifen. This inhibits early E(2)-induced apoptosis if a free hydroxyl is present. No substitution at the site occupied by the antiestrogenic side chain of endoxifen results in early apoptosis similar to planar E(2). The TPE compounds recruit coregulators to the ER differentially and predictably, leading to delayed apoptosis in these cells. SIGNIFICANCE STATEMENT: In this paper we investigate the role of the structure-function relationship of a panel of synthetic triphenylethylene (TPE) derivatives and a novel mechanism of estrogen-induced cell death in breast cancer, which is now clinically relevant. Our study indicates that these TPE derivatives, depending on the positioning of the hydroxyl groups, induce various conformations of the estrogen receptor’s ligand-binding domain, which in turn produces differential recruitment of coregulators and subsequently different apoptotic effects on the antiestrogen-resistant breast cancer cells.
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spelling pubmed-72949062020-07-01 The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells Maximov, Philipp Y. Abderrahman, Balkees Hawsawi, Yousef M. Chen, Yue Foulds, Charles E. Jain, Antrix Malovannaya, Anna Fan, Ping Curpan, Ramona F. Han, Ross Fanning, Sean W. Broom, Bradley M. Quintana Rincon, Daniela M. Greenland, Jeffery A. Greene, Geoffrey L. Jordan, V. Craig Mol Pharmacol Articles High-dose synthetic estrogen therapy was the standard treatment of advanced breast cancer for three decades until the discovery of tamoxifen. A range of substituted triphenylethylene synthetic estrogens and diethylstilbestrol were used. It is now known that low doses of estrogens can cause apoptosis in long-term estrogen deprived (LTED) breast cancer cells resistant to antiestrogens. This action of estrogen can explain the reduced breast cancer incidence in postmenopausal women over 60 who are taking conjugated equine estrogens and the beneficial effect of low-dose estrogen treatment of patients with acquired aromatase inhibitor resistance in clinical trials. To decipher the molecular mechanism of estrogens at the estrogen receptor (ER) complex by different types of estrogens—planar [17β-estradiol (E(2))] and angular triphenylethylene (TPE) derivatives—we have synthesized a small series of compounds with either no substitutions on the TPE phenyl ring containing the antiestrogenic side chain of endoxifen or a free hydroxyl. In the first week of treatment with E(2) the LTED cells undergo apoptosis completely. By contrast, the test TPE derivatives act as antiestrogens with a free para-hydroxyl on the phenyl ring that contains an antiestrogenic side chain in endoxifen. This inhibits early E(2)-induced apoptosis if a free hydroxyl is present. No substitution at the site occupied by the antiestrogenic side chain of endoxifen results in early apoptosis similar to planar E(2). The TPE compounds recruit coregulators to the ER differentially and predictably, leading to delayed apoptosis in these cells. SIGNIFICANCE STATEMENT: In this paper we investigate the role of the structure-function relationship of a panel of synthetic triphenylethylene (TPE) derivatives and a novel mechanism of estrogen-induced cell death in breast cancer, which is now clinically relevant. Our study indicates that these TPE derivatives, depending on the positioning of the hydroxyl groups, induce various conformations of the estrogen receptor’s ligand-binding domain, which in turn produces differential recruitment of coregulators and subsequently different apoptotic effects on the antiestrogen-resistant breast cancer cells. The American Society for Pharmacology and Experimental Therapeutics 2020-07 2020-07 /pmc/articles/PMC7294906/ /pubmed/32362585 http://dx.doi.org/10.1124/mol.120.119776 Text en Copyright © 2020 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the CC BY Attribution 4.0 International license (http://creativecommons.org/licenses/by/4.0/) .
spellingShingle Articles
Maximov, Philipp Y.
Abderrahman, Balkees
Hawsawi, Yousef M.
Chen, Yue
Foulds, Charles E.
Jain, Antrix
Malovannaya, Anna
Fan, Ping
Curpan, Ramona F.
Han, Ross
Fanning, Sean W.
Broom, Bradley M.
Quintana Rincon, Daniela M.
Greenland, Jeffery A.
Greene, Geoffrey L.
Jordan, V. Craig
The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title_full The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title_fullStr The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title_full_unstemmed The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title_short The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells
title_sort structure-function relationship of angular estrogens and estrogen receptor alpha to initiate estrogen-induced apoptosis in breast cancer cells
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7294906/
https://www.ncbi.nlm.nih.gov/pubmed/32362585
http://dx.doi.org/10.1124/mol.120.119776
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