Bhalla V K, Haskell J, Grier H, Mahesh V B
J Biol Chem. 1976 Aug 25;251(16):4947-57.
Factor(s) that bind gonadotropins have been extracted from rat testis by 30% ethanol (v/v) in water and their interaction with human lutropin (hLH) and human follitropin (hFSH) have been investigated by a new assay using dextran-coated charcoal. These studies reveal that: 1. Maximal binding of gonadotropin with soluble factors was observed over a broad range of pH from 6.0 to 8.0 with a relative decline in binding at extremes of pH. The binding was independent of the ionic strength of the buffer and reached equilibrium within 5 min at 4 degrees, 27 degrees, and 37 degrees. 2. The soluble factors have marked thermostability, a point of distinction from detergent-solubilized receptors. 3. The equilibrium dissociation constant (Kd) of 125I-hFSH binding to the soluble factor was 6.0 +/- 0.58 X 10(-10) M, consistent with the values obtained from the membrane binding studies. Similarly, the Kd value for 125I-hLH to the soluble factor(s) was 3.33 +/- 0.3 X 10(-9) M, comparable to the values obtained from the membrane binding studies. Hill plots demonstrated a lack of a cooperative relationship with an apparent Hill coefficient of 1.071 for hLH and 0.909 for hFSH. Furthermore, two classes of binding sites for 125I-human choriogonadotropin (hCG) were clearly discernible by both Lineweaver-Burk and Hill plots with an equilibrium dissociation constant of 2.4 +/- 0.5 X 10(-11) M and 1.35 +/- 1.2 X 10(-9) M. The apparent Hill coefficient of interaction of 125I-hCG with the soluble factors was found to be 0.923 for high affinity and 1.09 for low affinity binding sites. 4. The binding of 125I-hLH and 125I-hFSH with respect to concentrations of soluble factor(s) was found to be a saturable process, yielding an expected 4.4-fold higher Kd for hLH (294 +/- 13.8 mug/ml) compared to hFSH (66.6 +/- 4 mug/ml). These findings are comparable with the equilibrium dissociation constants, thus confirming a 5-fold higher affinity of hFSH as compared to hLH for the soluble factors, i.e. the ratio of 3.0 X 10(-9) M to 6.0 X 10(-10) M versus the ratio of 294 mug/ml to 66.6 mug/ml. 5. The hormone specificity of the interaction has been studied by using radiolabeled hFSH, hLH, hCG, prolactin, growth hormone, and bovine serum albumin. The binding of FSH at low factor concentrations was found to be 5- to 10-fold greater than prolactin, growth hormone, and albumin. 6. The soluble factors are found in higher concentration in testis compared to liver, kidney, and blood. 7. The effect of ethanol upon solubilization of the factor(s) has been investigated. The factor(s) can be extracted with buffer or water alone. However, 10 to 25% of ethanol (v/v) facilitates the process of solubilization. The treatment with 70% ethanol (v/v) or more did not extract any factor activity from testes. The factor(s) were insoluble in petroleum ether, chloroform, absolute ethanol, methanol, or lipid solvent. 8. Finally the effect of soluble factors on classical membrane binding was investigated...
已通过在水中的30%乙醇(体积/体积)从大鼠睾丸中提取了与促性腺激素结合的因子,并使用葡聚糖包被的活性炭通过一种新的测定方法研究了它们与人类促黄体生成素(hLH)和人类促卵泡生成素(hFSH)的相互作用。这些研究表明:1. 在pH值从6.0到8.0的广泛范围内观察到促性腺激素与可溶性因子的最大结合,在pH值极端情况下结合相对下降。结合与缓冲液的离子强度无关,在4℃、27℃和37℃下5分钟内达到平衡。2. 可溶性因子具有显著的热稳定性,这是与去污剂溶解的受体的一个区别点。3. 125I-hFSH与可溶性因子结合的平衡解离常数(Kd)为6.0±0.58×10^(-10)M,与从膜结合研究中获得的值一致。同样,125I-hLH与可溶性因子的Kd值为3.33±0.3×10^(-9)M,与从膜结合研究中获得的值相当。希尔图显示缺乏协同关系,hLH的表观希尔系数为1.071,hFSH的为0.909。此外,通过Lineweaver-Burk和希尔图都清楚地辨别出125I-人绒毛膜促性腺激素(hCG)的两类结合位点,平衡解离常数分别为2.4±0.5×10^(-11)M和1.35±1.2×10^(-9)M。发现125I-hCG与可溶性因子相互作用的表观希尔系数对于高亲和力结合位点为0.923,对于低亲和力结合位点为1.09。4. 发现125I-hLH和125I-hFSH与可溶性因子浓度的结合是一个可饱和过程,与hFSH(66.6±4μg/ml)相比,hLH的预期Kd高4.4倍(294±13.8μg/ml)。这些发现与平衡解离常数相当,从而证实hFSH与可溶性因子的亲和力比hLH高5倍,即3.0×10^(-9)M与6.0×10^(-10)M的比值相对于与294μg/ml与66.6μg/ml的比值。5. 通过使用放射性标记的hFSH、hLH、hCG、催乳素、生长激素和牛血清白蛋白研究了相互作用的激素特异性。发现在低因子浓度下FSH的结合比催乳素、生长激素和白蛋白大5至10倍。6. 与肝脏、肾脏和血液相比,在睾丸中发现可溶性因子的浓度更高。7. 研究了乙醇对因子溶解的影响。因子可以单独用缓冲液或水提取。然而,10%至25%的乙醇(体积/体积)促进溶解过程。用70%乙醇(体积/体积)或更高浓度处理未从睾丸中提取任何因子活性。因子不溶于石油醚、氯仿、无水乙醇、甲醇或脂质溶剂。8. 最后研究了可溶性因子对经典膜结合的影响……
