Previous studies have revealed that nuclear export signal-interacting protein (NESI) participatesin the nuclear export of the large hepatitis delta antigen with a proline-rich nuclear export signal (NES). NESI is an isoform of lmbrd1 geneproducts,Its amino acid sequence is identical to the amino acid residues74 to 540 of the largest isoform of lmbrd1 geneproductLMBD1. Functions of the NESI and LMBD1 proteins in human cells are largely unknown, but both were predicted as membrane proteins. LMBD1 contains 9 putative transmembrane domains,whereas NESI contains 7 putative transmembrane domains. In this study, different subcellular localizations of the LMBD1 and NESI proteins were detected in Huh7 cells. NESI was mainly localized at the perinuclear region, whereas LMBD1 was localized in organelles. These indicate that NESI may participate in the transport between nucleus and cytoplasm. By performing immunoprecipitation followed by LC-MS/MS, our laboratory has previously identifiedcellular apoptosis susceptibility protein (CAS), also named as exportin 2, as one of the LMBRD1-associated proteins. CAS is known to be a nuclear shuttling protein involving in the nuclear export of importin-alpha. To investigate the function of NESI in the regulation of nuclear shuttling, shRNA specific for lmbrd1gene was introduced into Huh7 cells. The results showed that CAS and its cargoimportin-alpha were accumulated in the nuclei of lmbrd1 knockdown cells. Nevertheless, redistribution to the cytoplasm was observed when the lmbrd1 knockdown cells weretrasfected with shRNA-resistanctplasmid expressing NESI protein.On the other hand, overexpression of NESI rescued the nuclear accumulation of importin-alpha induced by hydrogen peroxide. In addition, NF-kBpossesses nuclear localization signal (NLS), its nuclear import is mediated by importin-alpha. The subcellular localization of NF-kB wasdetected both in the nucleus and the cytoplasm of Huh7 cells. In lmbrd1 knockdown cells, NF-kB was distributed mainly in the cytoplasm, buttranslocated to the nucleus in cells rescued by overexpession of the NESI protein. In addition, it was reported that the dephosphorylated CAS prefer to locate to the nucleus. In this study,immunoprecipitation and Western blot analysis with anti-phosophoserine/threonine and CAS antibodiesdemonstrated a down regulation of the phosphorylated CAS inlmbrd1 knockdown cells. Taken together, these results indicate that NESI plays a critical role in the regulation of nucleocytoplasmic transport through the CAS-mediated importin-alpha recycling pathway in Huh7 cells.