The Testicular Estrogen Receptor System in Two Strains of Mice Differing in Susceptibility to Estrogen-Induced Ley dig Cell Tumors*

Abstract

Cytosol obtained from cryptorchid testes of tumor- susceptible BALB/c and resistant CMHBI (Z) mice both bound 17β-estradiol (E₂) and diethylstilbestrol (DES) specifically. The dissociation constant (K_d) of this binding component (RE) for E₂ was determined to approximate 5 × 10^-9 M. Gel filtration of cytosols resulted in a significant increase in the binding constant (K_d 3 × 10^-10 M) with the majority of the complex migrating in the 7–8S area after sucrose gradient centrifugation. Incubation of either untreated or gel-filtered cytosol with [³H]DES resulted in considerable nonspecific binding appearing in the 4S region in a low salt sucrose gradient. This 4S binding of [³H]DES was not inhibited by the addition to the incubation mixtures of a 100-fold excess of either E₂ or DES, while the lesser peak at 7–8S as well as the major 7–8S peak formed with E₂ were inhibited by both. In vitro translocation of the cytosol RE to the nucleus was demonstrated in both mouse strains using either estrogen. Quantitation of the in vivo translocation, employing the exchange method after a single injection of 2.5 µg E₂/mouse, revealed a rapid decrease in cytoplasmic receptor content accompanied by a concomitant increase in nuclear receptor content. Greater nuclear receptor content was identified in nuclei from BALB/c mice than in those from Z animals 45 min after injection of E₂ The binding behavior of E₂-RE complexes to nuclei was studied by the KC1 extraction method. The percent extracted from the nuclei in the Z strain was significantly greater than that in the BALB/c at all concentrations of KC1 tested. Essentially 100% of the RE was extracted from nuclei of Z animals at 0.4 M KC1, while nuclei of BALB/c mice retained 35–40% even in 2 M KC1. Cross-over experiments in a cell-free system suggested that the difference in binding was due to differences in chromatins rather than in nuclear estrogen-receptor complexes. The greater nuclear receptor content and stronger binding of nuclear receptor to chromatin might explain why estrogen-induced phenomena, including neoplastic transformation, occur to a much greater degree in the BALB/c strain than in the Z strain of mouse.