Liver receptor homolog-1 (LRH-1) is a transcription factor and belongs to nuclear receptor 5A subfamily. LRH-1 is mainly expressed the tissues of endodermal origin, such as liver and intestine and also in the ovary. Our previous studies indicated that mLRH-1 stimulated the activity of the human steroidogenic gene CYP11A1 promoter. When the C-terminal activation function-2 (AF-2) was truncated, mLRH-1 lost the ability to induce the transcriptional activity of CYP11A1 promoter. We found that PIASy could repress mLRH-1-mediated CYP11A1 activity in a dosage dependent manner. It is indicated that PIASy contains two transcriptional repression domains, RD1 and RD2. Deletion of the RD1, but not RD2, failed to repress mLRH-1 transcriptional activity, indicating that RD1 is essential for PIASy-mediated inhibition of mLRH-1. Treatment with histone deaceylase (HDAC) inhibitors or overexpression of HDAC did not influence the repression activity of PIASy. It is suggested that HDAC recruitment is not essential for PIASy-mediated repression of mLRH-1. In addition, the distribution of mLRH-1 in the nucleus was not changed by cotransfection with PIASy. GST pull down assay showed that residues 158-510 of PIASy are responsible for interacting with mLRH-1. A series deletion of mLRH-1 was fused to fluorescent protein to analyze the subcellular distribution of these proteins. The results revealed that two nuclear localization signal (NLS) were located in the residues 117 to 167 and 169 to 193. Treatment of cells with proteasome inhibitor MG-132 clearly increased the protein levels, suggesting that mLRH-1 could be destroyed via proteasomal degradation pathway. Deletions of the C-terminal enhance the level of mLRH-1 protein expression. Treatment with MG-132 had no effect on the protein expression of C-terminal truncation mutants. The results indicated that the C-terminus of mLRH-1 was required for proteasomal degradation pathway.