A new mechanism for steroid unresponsiveness: loss of nuclear binding activity of a steroid hormone receptor

The glucocorticoid, dexamethasone, binds to the specific cytosol receptors of a steroid-resistant mouse lymphoma cell line with the same affinity as to the receptors of the steroid-responsive parental cells. In the sensitive cells, the receptor-steroid complex translocates to the nucleus, whereas in the resistant cells nuclear transfer is greatly diminished. “Activated” receptor-dexamethasone complex from sensitive cells binds to isolated nuclei from both sensitive and resistant cell types, whereas the complex from the resistant cells binds to neither nuclei. Furthermore, the activated complex from sensitive cells binds to isolated homologous and heterologous DNA, whereas the complex from the resistant cells displays greatly reduced binding activity, implying that DNA plays a significant role in nuclear binding. These results suggest that the normal glucocorticoid receptor has two active domains: one for steroid binding, and the other for interaction with nuclear acceptor sites. The resistant cells described in this paper contain a receptor apparently defective in the latter activity.