Several lines of evidence indicate that the nuclear receptor corepressor (N-CoR) complex imposes ligand dependence on transcriptional activation by the retinoic acid receptor and mediates the inhibitory effects of estrogen receptor antagonists, such as tamoxifen, suppressing a constitutive N-terminal, Creb-binding protein͞coactivator complex-dependent activation domain. Functional interactions between specific receptors and N-CoR or SMRT corepressor complexes are regulated, positively or negatively, by diverse signal transduction pathways. Decreased levels of N-CoR correlate with the acquisition of tamoxifen resistance in a mouse model system for human breast cancer. Our data suggest that N-CoR-and SMRT-containing complexes act as rate-limiting components in the actions of specific nuclear receptors, and that their actions are regulated by multiple signal transduction pathways.Nuclear receptors are structurally related, ligand-activated regulators of a complex array of genes involved in cell proliferation, differentiation, morphogenesis, and homeostasis (1, 2). In the absence of ligand, several nuclear receptors associate with a nuclear receptor corepressor (N-CoR) (3-6) or the related factor SMRT (silencing mediator of retinoid and thyroid receptors) (7) to mediate repression. Their regulatory function is further modulated by both physiologic and pharmacologic ligands and by the actions of various signal transduction pathways that result in ligand-independent gene activation of diverse nuclear receptor family members (8)(9)(10).N-CoR and SMRT appear to be components of cellular complexes (4, 11, 12) containing histone deacetylases (HDACs) (13, 14) and homologs of the yeast repressor Sin3 (15, 16), which are recruited to DNA via targeting by diverse DNA-binding, site-specific transcription factors (reviewed in refs. 17 and 18). Conversely, transcriptional activation by nuclear hormone receptors requires the ligand-dependent association of a coactivator complex that includes a family of nuclear receptor coactivators (NCoAs) (19-23) and also includes the histone acetylases Creb-binding protein (CBP)͞ p300 (24-28) and P͞CAF (29,50).The development of inhibitory ligands for the nuclear receptors has yielded important therapeutic treatments, among them the use of tamoxifen for endocrine therapy of breast cancer (reviewed in refs. 10 and 30). However, in certain tissues such as uterus and bone, and after long-term treatment in patients with breast cancer, tamoxifen exhibits unexplained partial agonistic activity (31). Various agents that raise intracellular cAMP levels or stimulate the ras͞MAP kinase pathway can similarly cause estrogen receptor (ER) activation in the presence of tamoxifen or the absence of any activating ligand (9,(32)(33)(34)(35). In this manuscript we show that diverse molecular strategies regulate the association of N-CoR-or SMRT-containing complexes with specific nuclear receptors, including the nature of the ligand, the levels of available N-CoR͞SMRT, and the action of diverse protein ki...
