Hinkle P M, Lewis D G, Greer T L
Endocrinology. 1980 Mar;106(3):1000-5. doi: 10.1210/endo-106-3-1000.
The interaction between TRH and GH3 pituitary tumor cells was studied in monolayer cultures or membrane-containing fractions. In intact cells, the apparent dissociation constant (Kd) was approximately 10 nM, and the total number of binding sites was approximately 1.4 pmol/mg protein at temperatures of 0-37 C. In broken cell preparations, the number of sites occupied at saturating TRH concentrations was reduced by half when the temperature was increased from 0 to 30 C. Linear Scatchard plots were obtained under all conditions. The rate of dissociation of TRH was temperature dependent, and first order plots were nonlinear. The half-times for dissociation at 0 C were over 240 min in cells and membranes, while at 37 C, the half-time values were 24 min (cells) and less than 0.5 min (membranes). Identical dissociation kinetics were obtained by dilution alone or dilution with excess unlabeled hormone. When cultures which had been incubated with TRH were lightly fixed with glutaraldehyde, dissociation at 37 C became immeasurably slow. However, TRH dissociated immediately when sodium dodecyl sulfate, ethanol, or acetone was added, indicating that the tripeptide was not covalently coupled to cell proteins. The data indicate that binding of TRH to high affinity GH3 receptors is not cooperative, and that the majority of TRH bound after short incubations is dissociable.
在单层培养物或含膜组分中研究了促甲状腺激素释放激素(TRH)与GH3垂体肿瘤细胞之间的相互作用。在完整细胞中,表观解离常数(Kd)约为10 nM,在0-37℃温度下,结合位点总数约为1.4 pmol/mg蛋白质。在破碎细胞制剂中,当温度从0℃升高到30℃时,在饱和TRH浓度下占据的位点数量减少一半。在所有条件下均获得线性Scatchard图。TRH的解离速率取决于温度,一级图是非线性的。在0℃时,细胞和膜中的解离半衰期超过240分钟,而在37℃时,半衰期值分别为24分钟(细胞)和小于0.5分钟(膜)。单独稀释或用过量未标记激素稀释可获得相同的解离动力学。当用戊二醛对已与TRH孵育的培养物进行轻度固定时,37℃下的解离变得极其缓慢。然而,当加入十二烷基硫酸钠、乙醇或丙酮时,TRH立即解离,表明三肽不是共价偶联到细胞蛋白质上。数据表明,TRH与高亲和力GH3受体的结合不具有协同性,并且短时间孵育后结合的大多数TRH是可解离的。
