Liver receptor homologue-1 (LRH-1) is a member of the nuclear receptor NR5A subfamily. LRH-1 is mainly expressed of liver, intestine and ovary. To study the mechanisms of LRH-1 nuclear export, we generated a series of GFP-tagged deletion mutants and assessed their subcellular localization. Our results showed that the fragments 464-493 were predominantly localized in the cytoplasm and contained two clusters of leucine-rich residues 470-475 (NES1) and 483-488 (NES2), typically present in the NES, were identified in this region. Two mutants were generated by simultaneous mutation of three leucine residues into alanine in each cluster. The mutations of NES1 or NES2 significantly abolished the cytoplasmic localization of fragment 464-493. The most thoroughly studied and well characterized nuclear export pathway involves the exportin CRM1. Treatment with exportin CRM1-specific inhibitor leptomycin B resulted no specific effect in fragment 464-493, but there was a perinuclear accumulation of fragment 443-560. The immunoprecipitation assay results also suggested that the major nuclear export pathway utilized by mLRH-1 is CRM1-independent. Unexpectedly, the mutant NES1 translocated to cytoplasm and reduced the transcriptional activity of LRH-1 to the human steroidogenic gene CYP11A1 promoter, but there was no speicifc effect of mutant NES2. Then, single mutation was generated by mutation of one leucine into alanine in NES1. The results indicated that leucine amino acids in NES1 contribute to remain in nucleus. Overall, the identification of NESs in this study implicated that the NESs may sufficient for the nuclear export of mLRH-1, and an alrtnative structural strategy might affect the function of NESs.