Quantitative Studies on the Uptake and Metabolism of Estrogens and Progesterone by Human Endometrium

Abstract

Rates of entry of estrone ( E₁, estradiol (E₂), progesterone (P), 20αdihydroprogesterone (20αDHP), estrone sulfate (E₁S) and estradiol-3-sulfate (E₂S) from buffer solutions into slices of human endometrium were measured in multiple-tracer continuous-flow incubations of the tissue. The fraction of perfused P entering the cells was found to be similar to that of E₁ and E₂. Increases in the concentrations of E₂ in the medium to 5 μg/ml did not alter the fraction of perfused E₁ and E₂ going into cells. Estrone sulfate and E₂S entered readily into endometrial cells and were completely converted to E₁ and E₂. Rates of interconversion between E_lS-E₂S, E₁-E₂ and P-20αDHP were measured. The conversion of E₁ to E₂ was relatively increased by the addition of E₂ to the medium. A large fraction of E₁ and P entering the tissue was released to the medium while E₂ and 20αDHP left the cells only after being converted to the corresponding ketonic steroids. Consequently, the net uptake of E₂ and 20αDHP was larger than the net uptake of E₁ and P. The intracellular concentration of E₁ was found to be proportional to the amount of the hormone appearing de novo in the tissue (production rate). The ratio of the production rate of the hormone per gram of tissue to its intracellular concentration was defined as the intracellular clearance of the hormone. Tissue concentrations of labeled and unlabeled steroids could be expressed in terms of intracellular clearances, production rates and rates of interconversion. (Endocrinology90: 390, 1972)