Abstract
Binding of estradiol (E2), estriol (E3), RU16117, and moxestrol to testis cytosol from adult male rats was investigated. High-affinity binding sites were identified in the 8–9S region of sucrose density gradients; a second, high-capacity binding component in the 4S region was probably due to contamination with serum. Thermodynamic properties of the testicular estrogen binding site were quite similar to those of the uterine receptor. E2 had the highest affinity for testicular cytosol binding sites (Ka: E2 ⪢ moxestrol > E3 > RU16117). Comparison of association rate (E2 > E3 > moxestrol = RU16117) and dissociation rate constants (E3 = RU16117 > E2 ⪢ moxestrol) as well as studies in vivo revealed moxestrol as a long-acting and RU16117 as a short-acting compound. This difference may be useful for evaluation of the mediation of estrogen effects in the rat testis.
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