Abstract
Kinetic analysis of the estrogen receptor's cooperative equilibrium [3H]estradiol binding (Sasson, S., and Notides, A. C., (1982) J. Biol. Chem. 257, 11540-11545) provides a sensitive method for probing the binding of partial agonists to the estrogen receptor. We studied the effects of estriol and estrone on the positive cooperativity of [3H]estradiol binding to the partially purified, calf uterine estrogen receptor. The receptor was titrated with variable concentrations of [3H]estradiol in combination with estriol or estrone, while maintaining a constant molar ratio of the estriol or estrone to the [3H]estradiol. With either a 4-fold molar excess of estriol or a 25-fold molar excess of estrone above the [3H]estradiol concentrations, the receptor's positive cooperative [3H]estradiol binding was inhibited. The Scatchard plot showed a transition from a convex to a linear curve and a decrease in the Hill coefficient value from 1.61 +/- 0.02 (n = 7) in the absence of estriol or estrone to 1.04 +/- 0.04 (n = 4) in the presence of estriol and 0.99 +/- 0.03 (n = 4) in the presence of estrone. The inhibition of the positive cooperativity of [3H]estradiol binding by estriol or estrone was shown not to be due to isotope dilution of the specifically bound [3H]estradiol by the unlabeled estriol or estrone. These kinetic analyses demonstrate that the positively cooperative equilibrium binding of [3H]estradiol by the receptor, which is characteristic of the receptor's activation process, is eliminated by estriol and estrone and consistent with their partial agonist-antagonist activities observed in vivo.
Highlights
Kinetic analysis of the estrogen receptor's coopera- diol, estriol administered in a continuous manner, such as in tive equilibrium ['Hlestradiol binding(Sasson, S . , and a subcutaneouspellet, produces a full uterine growth response
In the to a linearcurve and a decreasein the Hill coefficient value from 1.61 2 0.02 ( n = 7) in the absenceof estriol or estrone to 1.04 f 0.04 ( n = 4) in the presence of estriol and 0.99 2 0.03 (n = 4) inthepresence of present study we use this competition binding assay to measure the effects of estriol and estrone on the cooperative [3H] estradiol-receptor equilibrium binding of the calf uterine estrogen receptor
Time to Reach Equilibrium Binding in the Presence of Estriol and Estrone-The presence of estriol at a 5- to 33-fold molar excess and estrone at a 15- to 100-fold molar excess
Summary
ESTRIOL AND ESTRONE-INDUCED INHIBITION OF THE COOPERATIVE BINDING OF [3H]ESTRADIOL TO THE ESTROGEN RECEPTOR*. Estradiol to the estrogen receptor and for the effects of a competitor upon the equilibrium binding of [3H]estradiol was measured by the method of Sasson and Notides [9].The competitor (estriol or estrone) was added in a fixed molar ratio relative to each [3H]estradiol concentration; for example, a 2-fold molar excess of estriol consists of 1. The nonspecific binding of [3H]estradiol was measured by a parallel incubation of the receptor sample containing a200-fold molar excess of unlabeled estradiol with or without the competitor. The radioactivity of the sample was determined in 3 ml of Liquiscint (National Diagnostics) with 40 to 45% efficiencyfor counting tritium
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
