Steroid-induced nuclear binding of glucocorticoid receptors in intact hepatoma cells

Abstract

Some of the early steps of steroid hormone action have been studied in cultured hepatoma cells, in which glucocorticoids induce tyrosine aminotransferase. The hypothesis that inducer steroids promote the binding of specific cytoplasmic receptors to the cell nucleus has been examined in intact cells. Binding of steroids such as dexamethasone and cortisol results in a loss of most of the receptor sites from the cytoplasm. This coincides with the binding of an equivalent number of steroid molecules in the nucleus. Both processes occur concomitantly, even when their kinetics are altered by reducing the temperature. When the inducer is removed from the culture, steroid dissociates from the nucleus while the level of cytoplasmic receptor returns to normal, even if protein or RNA synthesis is inhibited. These results suggest that nuclear binding of glucocorticoids is due to the association with the nucleus of the cytoplasmic receptor-steroid complex itself and make it unlikely that the receptor acts as a mere carrier for the intracellular transfer of the steroid. Steroids that differ in their effects on tyrosine aminotransferase induction were also studied. In contrast to those bound with inducer steroids, receptors complexed with the anti-inducer progesterone did not leave the cytosol. Further, a suboptimal inducer (deoxycorticosterone) produced an intermediate level of depletion. Thus, the biological effect of different classes of steroids can be related to their capacity to promote nuclear binding of the receptor. These data support a model proposed earlier, according to which the receptor is an allosteric regulatory protein directly involved in the hormone action, under the control of specific steroid ligands. They further suggest that the conformational state influenced by the inducer is such that a nuclear binding site on the receptor is exposed. Evidence is also presented that a distinct reaction takes place between the binding of the steroid to the receptor and the association of the complex with the nucleus. At 0 °C, this change is rate-limiting. It could correspond to the “activation” of receptor-steroid complexes known to be required for binding of the complexes by isolated nuclei, and thus represent an additional step in hormone action.