Structure-based design of estrogen receptor-β selective ligands

Eric S. Manas; Rayomand J. Unwalla; Zhang B. Xu; Michael S. Malamas; Chris P. Miller; Heather A. Harris; Chulai Hsiao; Tatos Akopian; Wah Tung Hum; Karl Malakian; Scott Wolfrom; Ashok Bapat; Ramesh A. Bhat; Mark L. Stahl; William S. Somers; Juan C. Alvarez

Journal Article

Structure-based design of estrogen receptor-β selective ligands

Journal of the American Chemical Society (2004) 126(46) 15106-15119

DOI: 10.1021/ja047633o

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Abstract

We present the structure-based optimization of a series of estrogen receptor-β (ERβ) selective ligands. X-ray cocrystal structures of these ligands complexed to both ERα and ERβ are described. We also discuss how molecular modeling was used to take advantage of subtle differences between the two binding cavities in order to optimize selectivity for ERβ over ERα. Quantum chemical calculations are utilized to gain insight into the mechanism of selectivity enhancement. Despite only two relatively conservative residue substitutions in the ligand binding pocket, the most selective compounds have greater than 100-fold selectivity for ERβ relative to ERα when measured using a competitive radioligand binding assay.

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Manas, E. S., Unwalla, R. J., Xu, Z. B., Malamas, M. S., Miller, C. P., Harris, H. A., … Alvarez, J. C. (2004). Structure-based design of estrogen receptor-β selective ligands. Journal of the American Chemical Society, 126(46), 15106–15119. https://doi.org/10.1021/ja047633o

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Structure-based design of estrogen receptor-β selective ligands

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