Estrone and Dehydroepiandrosterone Sulfatase Activities in Normal and Pathological Human Endometrium Biopsies

Abstract

The properties of estrone (E₁) and dehydroepiandrosterone (DHEA) sulfatase activities are reported. Endometrial biopsy specimens were obtained using a Novak curette. Cycle stage was assessed from histological dating of endometrium, plasma estradiol and progesterone levels, and patient history. Both sulfatases are membrane-bound enzymes. The optimum pHs in Tris-HCl buffer were 6.5 for E₁ sulfatase and 7.3 for DHEA sulfatase. Lowest activities and different optimum pHs were obtained with imidazole, maleate, or acetate buffers. DHEA sulfatase is more sensitive to thermal inactivation than E₁ sulfatase. From kinetic studies, apparent K_m values of 3.1 μM for E₁ sulfatase and 5.7 μM for DHEA sulfatase were calculated. Noncompetitive inhibition of E₁ sulfatase by DHEA sulfate and of DHEA sulfatase by E₁ sulfate were demonstrated. The effects of inorganic ions and unconjugated steroids were also tested. These results are consistent with two different activities hydrolyzing E₁ or DHEA sulfates. Neither activity varies during normal menstrual cycles nor is not correlated to plasma progesterone or 17β-estradiol levels. An isolated increase in E₁ sulfatase occurred in the proliferative phase of irregular menstrual cycles, postantibiotic-treated salpingitis, or hyperplastic endometrium. (J Clin Endocrinol Metab56: 653, 1983)