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Abstract
The sterol regulatory element-binding protein 2 (SREBP-2), a transcription factor of the basic helix-loop-helix-leucine zipper (bHLH-Zip) family, is synthesized in the form of a membrane-attached precursor molecule. When cells are deprived of sterols, a two-step proteolytic processing releases the transcriptionally active N-terminal segment of SREBP-2, thereby allowing it to enter the nucleus. In previous studies, we showed that the nuclear import of SREBP-2 occurs via the direct interaction of importin β with the HLH-Zip domain. In this study, in order to more completely understand the intracellular dynamics of SREBP-2, we focused on the manner by which importin β recognizes SREBP-2 at the initial step of the import. It was found that the active form of SREBP-2 exists as a stable dimer in solution and that the substitution of leucine residues for alanine in the leucine zipper motif disrupted the dimerization. It was also demonstrated that this mutant protein did not enter the nucleus either in vivo or in vitro. Solution binding assays, which involved the chemical cross-linking of wild-type or mutated SREBP-2 with importin β, revealed that the import-active complex appeared to be composed of a dimeric form of SREBP-2 and importin β. In addition, the SREBP-2 binding domain of importin β corresponded to an overlapping but not identical region for importin α binding, which may explain how importin β is able to recognize the dimeric HLH-Zip directly. These results indicate that dimerization is a prerequisite process for the nuclear import of SREBP-2 mediated by importin β.
ACKNOWLEDGMENTS
We thank Ryuichiro Sato, University of Tokyo, for valuable discussions.
This work was supported by a Grant-in-Aid for Scientific Research on Priority Areas (B) (no. 11237202), Grant-in-Aid for Scientific Research (B) (no. 12480215), and Grant-in-Aid for COE Research (no. 07CE2006 and 12CE2007) from the Japanese Ministry of Education, Science, Sports and Culture, the Mitsubishi Foundation, and the Human Frontiers Science Program.