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Molecular Classification of Estrogens¹

Robert H. Lurie Comprehensive Cancer Center, Northwestern University Medical School, Chicago, Illinois 60611 [V. C. J., J. M. S., A. S. L., H. L., K. M. P., L. A. S.], and Signal Pharmaceuticals, San Diego, California 92121 [J. W. Z.]

Estrogens are involved in a multiplicity of programmed events in target tissues e.g.: uterus, breast, and pituitary gland, and hormone-responsive tumors occur at these target sites. We have addressed the possibility that all of the estrogens do not produce the same conformation of estrogen receptor (ER). A novel assay in vitro was used to activate the transforming growth factor (TGF-) gene in situ in MDA-MB-231 cells stably transfected with cDNA for D351 ER or D351G ER. Three estrogen types were used: estradiol, diethylstilbestrol, and a triphenylethylene (TPE) derivative of tamoxifen without the antiestrogenic side chain. Computer molecular modeling was used to interpret data. A flat estrogen such as estradiol or diethylstilbestrol can induce TGF- through a correctly positioned activating function 2 (AF2) and bind SRC-1. The TPE did not activate AF2 but activated the TGF- gene through AF2b. This was demonstrated because D351 but not D351G ER activated the TGF- gene with the TPE. We propose two classes of estrogens with different ER complexes that may incorporate different coactivators to function. Phytoestrogens and environmental xenoestrogens will fall into different classes based on structure and may exhibit selective actions and carcinogenic potential based on different ER conformations.

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