Synthesis, receptor binding and tissue distribution of 17α-E[125I]iodovinyl-11β-ethyl-estradiol

In this study we prepared and evaluated a derivative of estradiol with an ethyl group at the 11 beta-position and an E-iodovinyl group at the 17 alpha-position. This new ligand binds to the estrogen receptor with an affinity slightly less than estradiol (RBA = 43%) at 0 degree C but much greater (RBA = 890%) at 25 degrees C. The 125I-labeled derivative was obtained by radioiododestannylation of the tri-n-butylstannyl precursor in good radiochemical yield with a specific activity exceeding 1500 Ci/mmol. The tissue distribution in immature female rats was evaluated over a 48 h period to determine uterine uptake and selectivity. Peak uterine uptake at 2 h was 6% ID/g and was significantly greater than that of [3H]estradiol, 2.4% ID/g. Substantial uptake in the uterus was still present at 48 h (2.4% ID/g). Co-administration of estradiol reduced the uptake at 2 and 24 h by 85%. Uterus-to-plasma ratios increased with time, from about 25:1 at 2 h to nearly 90:1 at 48 h. The affinity, ease of radiosynthesis and tissue distribution of the 17 alpha-E-[125I]iodovinyl-11 beta-ethyl-estradiol suggest that further evaluation of this agent as an imaging agent for estrogen-receptor-positive breast cancer is warranted.