E. Palomino, Mary Jane Heef, J. Horwitz
Jul 1, 1994
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2
Influential Citations
16
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Journal
The Journal of Steroid Biochemistry and Molecular Biology
Abstract
The effect of the modification of the 9-11 positions on the skeletal conformation of estradiol (E2) has been analyzed by X-ray crystallography and MM2 molecular mechanics. The 11 beta-hydroxyl and 11-keto analogs of E2 maintained ring conformations which were similar to the natural hormone (E2). Introduction of a double bond at position 9-11 induced a flattening of the entire steroid molecule. An 11 alpha-hydroxyl group brought about significant changes in the alicyclic rings of E2. 9 beta-Estradiol and 11-keto-9 beta-estradiol formed ring conformations which were significantly bent from E2 (below the plane of the A-ring). Examination of the affinity of these C-ring analogs of E2 for the human estrogen receptor has shown extreme variations. A hydroxyl group placed either alpha or beta at the 11-position yielded ligands with vastly different and reduced affinities for the receptor. The low affinity of 11 alpha-hydroxyestradiol (1/300th of E2) may be due to the drastic structural change induced in the alicyclic portion of the molecule, as well as, to the steric or electrostatic effects of the alpha-hydroxyl group upon the receptor protein. An 11 beta-hydroxyl group diminished the receptor binding to 1/60th that of E2 without alicyclic ring distortions, whereas a 9-11 unsaturation reduced the binding to 1/5th although this steroid displayed a flattening of rings B, C, and D. The 11-keto function, which had little effect on the conformation of the estrogen nucleus, reduced the affinity of this ligand to 1/1000th that of E2. The negative bend at the C-ring of 11-keto-9 beta-estradiol and 9 beta-estradiol prevented these ligands from binding receptor. Some of the observed receptor interactions were related to structural alterations in the estrogen ring system induced by modifications on the 9-11 region.