Like other nuclear receptors, the AR exerts its transcriptional function by binding to cis elements upstream of promoters and interacting with other transcriptional factors (e.g. activators, repressors, and modulators). Among them, histone acetyltransferases (HATs) and histone deacetylases (HDACs) play critical roles in altering the acetylation state of core histones, thereby regulating nuclear hormone receptor-mediated transcription. The nuclear receptor corepressor can repress the TR and RAR in the absence of ligand through either a Sin3A-dependent or -independent manner by recruiting HDACs. AR and some other steroid hormone receptors cannot silence transcription through a similar mechanism in that they are located in the cytoplasm as complexes with heat-shock proteins before exposure to ligand. It has been shown that AR can bind to p160/SRC, cAMP response element-binding protein-binding protein (CBP)/P300 and other coactivators to increase the AR-mediated transcription. However, the molecular mechanism for turning AR from transcriptionally active into silent states is unknown. In this study, we demonstrated that the transcription repressor, 5'TG3' interacting factor (TGIF), selectively represses AR-mediated transcription from several AR-responsive promoters. The repression is mediated through binding of TGIF to the DNA binding domain of AR and is trichostatin sensitive. We also identified a direct protein-protein interaction between TGIF and a transcription corepressor, Sin3A, which suggests a novel pathway for TGIF recruiting HDAC1 to the repression complex. These results provide fresh insight into understanding the mechanism for repressing AR-, and perhaps other steroid hormone receptor-, mediated transcriptions.