Estradiol-Testosterone Binding Interactions and Free Plasma Estradiol under Physiological Conditions*

Abstract

We have employed a flow dialysis technique (FDT) to describe the interactions of estradiol (E₂), testosterone (T), testosterone-estradiol-binding globulin (TEBG), and albumin in undiluted, 37 C plasma with negligible disturbance of the equilibrium. The percentages of free E₂ and free T were measured simultaneously, both with and without the addition of exogenous E₂ and T, and were found to correlate closely in a rectangular hyperbolic relationship which closely approximated linearity in the normal range. A physical chemical model was developed to fit these data. Under these physiological conditions, we found that E₂ and T binding are related in a fashion consistent with a model in which they compete for TEBG-binding sites and in which albumin is a source of unsaturable low affinity binding sites. The experimentally derived value of the TEBG association constant for E₂ (K_tE = 5.0 × 10⁸ M^-1) is 50% that for T (K_tT = 9.8 × 10⁸ M^-1). The albumin apparent association constants for E₂ and T are comparable (3.5–3.6 × 10⁴ M^-1). T binding to TEBG was also evaluated by a modification of our previously described charcoal adsorption assay (CA). The relationship between T binding assessed by the modified CA assay and that assessed by FDT was then determined. Subsequently, E₂ binding as well as T binding under physiological conditions could be calculated from assay of T binding by the CA method, since E₂ and T compete for TEBG-binding sites. Using this approach, the plasma free E₂ and T levels of normal women, hirsute women, and normal men were computed after determination of total plasma E₂ and T concentrations. The free E₂ concentrations of normal follicular phase females, hirsute follicular phase or anovulatory females, and normal males averaged 1.9 ± 1.3, 1.4 ± 0.6, and 0.76 ± 0.24 (SD) pg⁄ml, respectively; the total E₂ levels in these groups were 80 ± 57, 45 ± 21, and 23 ± 5 pg⁄ml. The differences between these values for normal and hirsute women were not significant. The free T levels of these groups averaged 7.4 ± 2.6, 22 ± 9, and 220 ± 82 pg⁄ml. Our data show that the imbalance between plasma free T and E₂ in hirsutism is due solely to the increase in free T. However, hirsute women who have anovulatory cycles tend to have an E₂ deficit which is the consequence of failure of the late follicular and luteal E₂ surges to occur.