Abstract
E 2 (1 nM) stimulated the synthesis of PRL in GH 3 cells. OH TAM (100 nM) did not affect basal PRL synthesis, but completely inhibited the increase produced by 1 nM E 2. [ 3H]E 2 and [ 3H]OH TAM both bound to the cytosolic 8S ER and these were split into 4S subunits on sucrose gradients containing 0.4 M KCl. By comparison, ER complexes extracted from nuclei of GH 3 cells cultured in media containing [ 3H]E 2 or [ 3H]OH TAM both sedimented at 5S on sucrose gradients containing 0.4 M KCl. Both 4S and 5S ER complexes were recognized by the monoclonal antibody D547 which increased their sedimentation coefficients to 8–9S. In contrast, a polyclonal antibody raised to calf uterine ER in the goat, interacted with the cytosolic ER so that the binding of [ 3H]E 2 was inhibited but the binding of [ 3]OH TAM was only slightly reduced. A molecular model is proposed to describe the binding of E 2 and OH TAM to the ER that might contribute to an understanding of estrogen and antiestrogen action.
Published Version
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