Tissue Distribution and Specific Binding of Tritiated Dexamethasone in Vivo: Autoradiographic and Cell Fractionation Studies in the Mouse*

Abstract

The mouse has not been studied extensively in terms of its glucocorticoid receptor profile, with the exception of cells of the immune system. Adrenalectomized mice (C57/B strain) were injected i.v. with 5 .times. 10-10 mol tritiated dexamethasone ([3H]DM), either alone or with a 100-fold excess of nonradioactive dexamethasone (DM), and the following were determined in liver, kidney, heart and brain: total tissue radioactivity 3, 5, 10 and 30 min after injection; the time course of total and nonspecific cytoplasmic binding of [3H]DM 3-30 min after injection; the nuclear binding of [3H]DM 30 min after injection and its displaceability by excess DM; the cellular distribution of radioactivity within these 4 tissues by autoradiography 30 min after injection. Tissue fractionation studies showed clearly the presence of displaceable cytoplasmic binding of [3H]DM in heart, liver and kidney, and of displaceable nuclear binding in all 4 tissues. Autoradiography showed displaceable binding only in nuclei of the 4 tissues. [3H]DM may be bound to high affinity, low capacity sites in liver, kidney, heart and brain. After in vivo injection of [3H]DM, nuclear binding of the steroid can be studied more precisely in heart and brain than cytoplasmic binding. The bulk distribution of [3H]DM between different tissues was significantly altered by the presence of excess DM, a finding to be considered when interpreting autoradiographic results. Autoradiography, taken together with tissue fractionation studies, permitted the within-tissue localization of cells showing preferential, displaceable, nuclear binding of labeled steroid to putative physiological receptors.