Snochowski M, Dahlberg E, Gustafsson J A
Eur J Biochem. 1980 Oct;111(2):603-16. doi: 10.1111/j.1432-1033.1980.tb04977.x.
The binding of the radioactive synthetic hormonal steroids [3H]dexamethasone (9 alpha-fluoro-11 beta, 17 alpha, 21-trihydroxy-16 alpha-methyl-1,4-pregnadiene-3,20-dione) and [3H]methyltrienolone (17 beta-hydroxy-17 alpha-methyl-4,9,11-estratien-3-one) to cytosol from rat skeletal muscle was studied using dextran-coated charcoal to separate unbound and receptor-bound steroid. The rates of association, dissociation, and degradation of the complexes of dexamethasone and methyltrienolone with receptor were highly dependent on temperature. The temperature dependence of association was greater for dexamethasone, and that of degradation was greater for methyltrienolone. Dissociation rates were insignificant for both steroid-receptor complexes compared to association and degradation rates. The apparent equilibrium dissociation constants for the binding of dexamethasone and methyltrienolone to their receptor binding sites were about 7 and 0.3 nM, respectively, regardless of temperature (0. 15 or 23 degrees C). The lack of influence of temperature on the equilibrium constants indicate that the binding was of hydrophobic character, and the corresponding free energy changes upon binding of dexamethasone and methyltrienolone to their respective binding sites were -41 and -49 kJ mol-1 under equilibrium conditions at 0 degrees C. The apparent maximum number of binding sites determined from Scatchard plots under these conditions was about 1900 fmol/g of tissue, 3500 fmol/mg of DNA or 30 fmol/mg of protein in the case of the dexamethasone receptor, and the corresponding figures for the methyltrienolone were about 100 fmol/g of tissue, 200 fmol/mg of DNA or 2 fmol/mg of protein. The ligand specificities of the binding sites for dexamethasone and methyltrienolone were typical of a glucocorticoid and an androgen receptor, respectively. Both steroid-receptor complexes were retained on DNA-cellulose columns, and were eluted by NaCl at an ionic strength of 0.1. The DNA-cellulose step purified about 20 times, and was used to allow gel exclusion chromatography and electrofocusing. Both steroid-receptor complexes were excluded from a column of Sephadex G-150. Electrofocusing in preparative columns gave reproducible patterns consisting of three peaks for each receptor. The apparent isoelectric points were 5.4, 5.6 and 6.2 for the glucocorticoid receptor, and 5.9, 6.2 and 8.5 for the androgen receptor.
利用葡聚糖包被活性炭分离未结合和受体结合的类固醇,研究了放射性合成激素类固醇[3H]地塞米松(9α-氟-11β,17α,21-三羟基-16α-甲基-1,4-孕二烯-3,20-二酮)和[3H]甲基三烯醇酮(17β-羟基-17α-甲基-4,9,11-雌三烯-3-酮)与大鼠骨骼肌胞质溶胶的结合。地塞米松和甲基三烯醇酮与受体复合物的结合、解离和降解速率高度依赖于温度。地塞米松结合的温度依赖性更大,而甲基三烯醇酮降解的温度依赖性更大。与结合和解离速率相比,两种类固醇-受体复合物的解离速率都微不足道。无论温度(0.15或23℃)如何,地塞米松和甲基三烯醇酮与其受体结合位点结合的表观平衡解离常数分别约为7和0.3 nM。温度对平衡常数缺乏影响表明结合具有疏水性质,在0℃平衡条件下地塞米松和甲基三烯醇酮与其各自结合位点结合时相应的自由能变化分别为-41和-49 kJ/mol。在这些条件下,根据Scatchard图确定的地塞米松受体结合位点的表观最大数量约为1900 fmol/g组织、3500 fmol/mg DNA或30 fmol/mg蛋白质,甲基三烯醇酮的相应数字约为100 fmol/g组织、200 fmol/mg DNA或2 fmol/mg蛋白质。地塞米松和甲基三烯醇酮结合位点的配体特异性分别典型地代表糖皮质激素受体和雄激素受体。两种类固醇-受体复合物都保留在DNA-纤维素柱上,并在离子强度为0.1的NaCl中洗脱。DNA-纤维素步骤纯化了约20倍,并用于进行凝胶排阻色谱和等电聚焦。两种类固醇-受体复合物都被Sephadex G-150柱排除。在制备柱中进行等电聚焦,每个受体产生由三个峰组成的可重复图谱。糖皮质激素受体的表观等电点为5.4、5.6和6.2,雄激素受体的表观等电点为5.9、6.2和8.5。
