2-Iodoestradiol binds with high affinity to human sex hormone binding globulin (SHBG)

Abstract

Human sex hormone binding globulin (SHBG) binds a set of steroids that differ slightly from each other in structure. Dihydrotestosterone and testosterone are bound with high affinity by SHBG whereas estradiol is bound with a lower affinity. In this work we have studied the binding to human SHBG of the derivatives obtained by substituting iodine in the aromatic A-ring of estradiol. Three A-ring iodinated estradiol derivatives, 2-iodoestradiol, 4-iodoestradiol and 2,4-diiodoestradiol, were obtained by treating 17β-estradiol with NaI and Chloramine T and separating the reaction products by HPLC. Their structures were confirmed by mass spectrometry and 1H-NMR. The corresponding radioactive compounds were obtained with use of Na[ 125I] in the same synthesizing procedure. Incubation of whole serum, serum albumin and purified SHBG with each of the three [ 125I]iodoestradiols followed by agarose gel electrophoresis showed only 2-iodoestradiol to have a strong binding to SHBG. This steroid was also bound to albumin, but with a lower affinity. Besides SHBG and albumin, there were no other binders of 2-iodoestradiol in human serum. The affinity constant for the binding of 2-iodoestradiol to purified human SHBG at 37°C and physiological pH was determined by a dextran-coated charcoal method to be 2.4 × 10 9 M −1 (i.e. exceeding that of dihydrotestosterone). It was found that 0.9 mol of 2-iodoestradiol was bound per mol of SHBG dimer (93 kDa) at saturation, and that 2-iodoestradiol competed with dihydrotestosterone for the same binding site of SHBG. It was concluded that 2-iodoestradiol has a remarkably high affinity for human SHBG, and that its γ-emitting 125I-analog is useful for binding studies of human SHBG.