Specific binding of [3H] 5alpha-dihydrotestosterone (DHT) and [3H] estradiol by cytoplasmic extracts from whole brain of castrated male, female, and androgen-insensitive, testicular feminized (tfm/y male-female), mice has been investigated using glycerol gradient centrifugation and charcoal assay. Mouse brain cytosol contains macromolecules with the characteristics of steroid hormone receptors, binding preferentially with high-affinity androgens or estrogens. Both DHT- and estradiol-receptor complexes migrate at 8-9 S in gradients at low ionic strength and at 4-5 S in gradients containing 0.5M KCl. KD's (mean +/- SE) for DHT binding by brain cytosol from castrated males, females, and tfm/y male-female are 1.1 +/- 0.4, 0.9 +/- 0.4, and 0.8 +/- 0.1 X 10(-9)M, respectively. DHT binding activity in brain cytosol from tfm/y male-female mice is reduced to about 20-30% of that from their normal littermates, as is the case for tfm/y male-female kidney cytosol. The residual androgen receptor in tfm/y male-female brain cytosol has normal sedimentation properties. Unlike the situation for androgen binding, the number of estradiol binding sites is comparable in brain cytosol from male, female, and tfm/y male-female mice. KD's (mean +/- SE) for estradiol binding are 1.6 +/- 0.5 X 10(-10)M for castrated males, 2.4 +/- 0.4 X 10(-10)M for females, and 1.8 +/- 0.4 X 10(-10)M for tfm/y male-female. Cross-competition experiments with unlabeled estradiol, DHT, or testosterone, have shown a difference in the degree of specificity of the androgen and estrogen receptors, the estrogen receptor having considerably more specificity. For the interaction of estradiol with the androgen receptor, the Ki is 8-9 X 10(-9)M. The decrease in the number of DHT binding sites in the brain of tfm/y male-female mice without a concomitant decrease in estradiol binding sites, and the different specificities of the two sites, point to the existence of distinct androgen and estrogen receptor molecules in mouse brain cytosol.
Several studies conducted by the authors' group have shown that urinary steroid measurements are a valuable aid in differentiating the normal aging process, the pronounced aging associated with increased risk to coronary heart disease, and the deviations associated with myocardial infarction. Data are presented on 428 men in the age range of 30-70 years. The study design most effective in elucidating aging and disease patterns involves selection of subjects from a wide age range. Data on persons identified as clinically normal can be used to describe physiologic aging. Once this is determined, data on persons with disease can be used to identify abnormalities of aging associated with the clinical conditions studied. This approach offers a potential method for differentiating between aging effects and disease effects. The foregoing findings led to the development of an Index of Aging in males, based on combined serum lipid and urinary steroid values. This Index may be a means of differentiating between normal aging and the deviations seen in atherosclerosis and myocardial infarction. Current studies are directed toward extending these observations.
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