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Literature DB >> 34452998

Dual-mechanism estrogen receptor inhibitors.

Jian Min^1,2, Jerome C Nwachukwu³, Charles K Min³, Jacqline W Njeri³, Sathish Srinivasan³, Erumbi S Rangarajan³, Charles C Nettles³, Valeria Sanabria Guillen⁴, Yvonne Ziegler⁴, Shunchao Yan^4,5, Kathryn E Carlson², Yingwei Hou², Sung Hoon Kim², Scott Novick⁶, Bruce D Pascal⁷, Rene Houtman⁸, Patrick R Griffin^3,6, Tina Izard³, Benita S Katzenellenbogen⁴, John A Katzenellenbogen⁹, Kendall W Nettles¹⁰.

Abstract

Efforts to improve estrogen receptor-α (ER)-targeted therapies in breast cancer have relied upon a single mechanism, with ligands having a single side chain on the ligand core that extends outward to determine antagonism of breast cancer growth. Here, we describe inhibitors with two ER-targeting moieties, one of which uses an alternate structural mechanism to generate full antagonism, freeing the side chain to independently determine other critical properties of the ligands. By combining two molecular targeting approaches into a single ER ligand, we have generated antiestrogens that function through new mechanisms and structural paradigms to achieve antagonism. These dual-mechanism ER inhibitors (DMERIs) cause alternate, noncanonical structural perturbations of the receptor ligand-binding domain (LBD) to antagonize proliferation in ER-positive breast cancer cells and in allele-specific resistance models. Our structural analyses with DMERIs highlight marked differences from current standard-of-care, single-mechanism antiestrogens. These findings uncover an enhanced flexibility of the ER LBD through which it can access nonconsensus conformational modes in response to DMERI binding, broadly and effectively suppressing ER activity.

Entities: Chemical

Keywords: SERM; X-ray crystallography; breast cancer; cancer therapy; estrogen receptor

Mesh：

Substances：

Year: 2021 PMID： 34452998 PMCID： PMC8536401 DOI： 10.1073/pnas.2101657118

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

53 in total

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Journal: J Biol Chem Date: 2002-12-13 Impact factor: 5.157

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Authors: Konstantinos Tryfonidis; Dimitrios Zardavas; Benita S Katzenellenbogen; Martine Piccart
Journal: Cancer Treat Rev Date: 2016-09-07 Impact factor: 12.111

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Journal: Science Date: 1999-07-30 Impact factor: 47.728

4. Elevated nuclear expression of the SMRT corepressor in breast cancer is associated with earlier tumor recurrence.

Authors: Carolyn L Smith; Ilenia Migliaccio; Vaishali Chaubal; Meng-Fen Wu; Margaret C Pace; Ryan Hartmaier; Shiming Jiang; Dean P Edwards; M Carolina Gutiérrez; Susan G Hilsenbeck; Steffi Oesterreich
Journal: Breast Cancer Res Treat Date: 2012-09-27 Impact factor: 4.872

5. Prediction of the tissue-specificity of selective estrogen receptor modulators by using a single biochemical method.

Authors: Susie Y Dai; Michael J Chalmers; John Bruning; Kelli S Bramlett; Harold E Osborne; Chahrzad Montrose-Rafizadeh; Robert J Barr; Yong Wang; Minmin Wang; Thomas P Burris; Jeffrey A Dodge; Patrick R Griffin
Journal: Proc Natl Acad Sci U S A Date: 2008-05-12 Impact factor: 11.205

6. Optimization of a Novel Binding Motif to (E)-3-(3,5-Difluoro-4-((1R,3R)-2-(2-fluoro-2-methylpropyl)-3-methyl-2,3,4,9-tetrahydro-1H-pyrido[3,4-b]indol-1-yl)phenyl)acrylic Acid (AZD9496), a Potent and Orally Bioavailable Selective Estrogen Receptor Downregulator and Antagonist.

Authors: Chris De Savi; Robert H Bradbury; Alfred A Rabow; Richard A Norman; Camila de Almeida; David M Andrews; Peter Ballard; David Buttar; Rowena J Callis; Gordon S Currie; Jon O Curwen; Chris D Davies; Craig S Donald; Lyman J L Feron; Helen Gingell; Steven C Glossop; Barry R Hayter; Syeed Hussain; Galith Karoutchi; Scott G Lamont; Philip MacFaul; Thomas A Moss; Stuart E Pearson; Michael Tonge; Graeme E Walker; Hazel M Weir; Zena Wilson
Journal: J Med Chem Date: 2015-10-07 Impact factor: 7.446

7. The SMRT coregulator enhances growth of estrogen receptor-α-positive breast cancer cells by promotion of cell cycle progression and inhibition of apoptosis.

Authors: Julia K Blackmore; Sudipan Karmakar; Guowei Gu; Vaishali Chaubal; Liguo Wang; Wei Li; Carolyn L Smith
Journal: Endocrinology Date: 2014-06-27 Impact factor: 4.736

8. Data processing and analysis with the autoPROC toolbox.

Authors: Clemens Vonrhein; Claus Flensburg; Peter Keller; Andrew Sharff; Oliver Smart; Wlodek Paciorek; Thomas Womack; Gérard Bricogne
Journal: Acta Crystallogr D Biol Crystallogr Date: 2011-03-18

9. Predictive features of ligand-specific signaling through the estrogen receptor.

Authors: Jerome C Nwachukwu; Sathish Srinivasan; Yangfan Zheng; Song Wang; Jian Min; Chune Dong; Zongquan Liao; Jason Nowak; Nicholas J Wright; René Houtman; Kathryn E Carlson; Jatinder S Josan; Olivier Elemento; John A Katzenellenbogen; Hai-Bing Zhou; Kendall W Nettles
Journal: Mol Syst Biol Date: 2016-04-22 Impact factor: 11.429

10. Specific stereochemistry of OP-1074 disrupts estrogen receptor alpha helix 12 and confers pure antiestrogenic activity.

Authors: S W Fanning; L Hodges-Gallagher; D C Myles; R Sun; C E Fowler; I N Plant; B D Green; C L Harmon; G L Greene; P J Kushner
Journal: Nat Commun Date: 2018-06-18 Impact factor: 14.919

2 in total

1. ER/AR Multi-Conformational Docking Server: A Tool for Discovering and Studying Estrogen and Androgen Receptor Modulators.

Authors: Feng Wang; Shuai Hu; De-Qing Ma; Qiuye Li; Hong-Cheng Li; Jia-Yi Liang; Shan Chang; Ren Kong
Journal: Front Pharmacol Date: 2022-01-24 Impact factor: 5.810

2. Ligand-induced shifts in conformational ensembles that describe transcriptional activation.

Authors: Sabab Hasan Khan; Sean M Braet; Stephen John Koehler; Elizabeth Elacqua; Ganesh Srinivasan Anand; C Denise Okafor
Journal: Elife Date: 2022-10-12 Impact factor: 8.713

2 in total