Interconversion of estrone and estradiol-17β in lung slices of the adult human

Abstract

The metabolism of tritium-labeled estrone and estradiol-17β in slices of lung tissue obtained from an adult human was studied: estrone was identified as the only metabolite of estradiol-17β and estradiol-17β as the exclusive product of estrone metabolism. Product formation remained linear as a function of time of incubation up to 3 h and of wet lung tissue mass up to 300 mg/ml. At equimolar substrate concentrations, the rates of estrone formation were at least 2-fold greater than those of estradiol-17β. The apparent K M of 17β-hydroxysteroid oxidoreductase for estrone was 11 μM and that for estradiol-17β was 10 μM. These results are suggestive that the human lung enzyme binds estrone and estradiol-17β with similar affinities; however, the oxidative pathway is favored as indicated by the greater V max attained in the formation of estrone. It is possible that, in vivo, the human lung constitutes a site for estradiol-17β inactivation to estrone as well as a site for the conversion of estrone to estradiol-17β. This last process may become particularly important in instances in which the ovaries have ceased to function and secrete estradiol-17β, e.g. the postmenopausal women.