The aging Leydig cell: VII. Cytoplasmic estradiol receptors

Presence of two types of estrogen binding sites in mouse testis

The characteristics of cytosol estrogen binding sites in BALB/c mouse testis were investigated. The cytosol prepared from the whole testis contained two classes of the specific estrogen binding sites by Scatchard and Rosenthal plot analyses. The first binding site (first binder) had high affinity for 17 beta-estradiol (E2; Kd = 4.9 X 10(-9) M) and binding specificity as observed in the typical estrogen receptor. The second binding site (second binder) had lower affinity for E2 (Kd = 4.8 X 10(-8) M) and the binding was inhibited less vividly by diethylstilbestrol (DES) and antiestrogens in comparison with that for the first binder. Postlabeled sucrose density gradient analysis in a low salt medium revealed that the major radioactive peak of the first binder appeared at 7S region, while that of the second binder sedimented at 4S region. The 7S component showed an appreciable binding to the nuclei, while the 4S component did not show a significant binding ability to the nuclei. Much higher concentrations of the first and the second binders were found in Leydig cells preparations. These results demonstrate the presence of two types of the specific estrogen binding sites in the mouse testis especially in Leydig cells.

Isolated uterine nuclei and cytosol receptors of aged rats exhibit impaired estrogenic stimulation of RNA polymerase II

An in vitro cell-free system of uterine nuclei and cytosol receptors has been used to analyze the effects of aging on estrogen stimulation of RNA polymerase II activity. By using fixed concentrations of nuclei and cytoplasmic receptor--estrogen complexes (R-E2), it was found that mature nuclei are 3 times more efficient (155% vs. 57%) than old ones for stimulation of polymerase activity by mature R-E2. Meanwhile, mature R-E2 are 5 times more efficient (155% vs. 31%) than old ones in supporting such stimulation in mature nuclei. Stimulation by old cytosol R-E2 is so poor that it is essentially unaffected by nuclear age (31% with both mature and old nuclei). Finally, equimolar mixtures of mature and old cytosol R-E2 stimulate polymerase II activity in mature nuclei by 77%, a value intermediate between mature and old cytosols used separately. These results indicate that both nuclei and cytosol from old uteri are deficient in their ability to support estrogenic stimulation of RNA polymerase II.

Changes in the mechanisms of hormone and neurotransmitter action during aging: current status of the role of receptor and post-receptor alterations. A review

Alterations in responsiveness to hormones and neurotransmitters during aging appear to be due to changes at both the receptor and post-receptor levels. Although many such observations have now been independently confirmed, disagreement over the extent and/or importance of receptor alterations exists in a number of cases. Receptors do not appear to change with age in certain systems, but only a few reports have actually been able to localize particular post-receptor alterations responsible for changes in response. This review attempts to catalogue studies in these areas which have been carried out to date, and discusses possible reasons for discrepancies as well as future research directions.

Estradiol receptors of two distinct populations of Leydig cells

The optimal concentrations of molybdate (Mo) to prevent thermal inactivation of estrogen receptor (ER) were found to be 5-20 mM. Using metrizamide density centrifugation, interstitial cells of adult Sprague-Dawley rat testes (2-3 months of age) can be separated into 5 distinct bands. Band 2 (B2) and 3 (B3) cells represented functionally different Leydig cells. For measurement of cytosolic ER, purified Leydig cells (B2 and B3 cells) were homogenized in 10 mM Tris-EDTA buffer with 5 mM of Mo (pH 7.4) and centrifuged at 105,000xg for 60 min. Cytosols were used immediately for ER determination. ER of B2 cells was 24.0 +/- 3.1 fmol/mg protein (mean +/- SE, n = 7), which was significantly higher than that of B3 cells, 18.6 +/- 3.2 fmol/mg protein (n = 7), p less than 0.005. The association constants of these two populations of Leydig cells for E2 receptor were comparable, 5.1 X 10(10)M-1 for B2 cells and 4.2 x 10(10)M-1 for B3 cells. In response to hCG 100 IU s.c., ER of B2 cells was reduced to 2.0 +/- 0.38 fmol/mg protein (n = 5), which was 8.4% of the control B2 cells. ER of B3 cells was almost completely depleted by the same dose of hCG, to 0.70 +/- 0.38 fmol/mg protein, 3.7% of the control B3 cells.

IN CONCLUSION

B2 cells contained higher amounts of ER under basal conditions than B3 cells, and hCG-induced desensitization caused depletion of ER of both B2 and B3 cells.