Molecular mechanism of nuclear translocation of an orphan nuclear receptor, SXR.
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Kawana K, Ikuta T, Kobayashi Y, Gotoh O, Takeda K, Kawajiri K
Molecular mechanism of nuclear translocation of an orphan nuclear receptor, SXR.
Mol Pharmacol. 2003 Mar;63(3):524-31.
- PubMed ID
- 12606758 [ View in PubMed]
- Abstract
The steroid and xenobiotic receptor (SXR) is an orphan nuclear receptor that plays a key role in the regulation of xenobiotic response by controlling the expression of drug metabolizing and clearance enzymes. We observed that pregnane X receptor (PXR), the mouse ortholog of SXR, was retained in the cytoplasm of hepatic cells of untreated mice, whereas PXR was translocated to the nucleus after administration of a ligand, pregnenolone 16 alpha-carbonitrile. To understand the molecular mechanisms underlying the xenochemical-dependent nuclear translocation of SXR, we identified the signal sequence of SXR that regulates its nuclear translocation; using an in vitro expression system, we allocated the nuclear localization signal (NLS) to amino acid residues 66 to 92 within the DNA binding domain of SXR. The NLS of SXR is characterized as the bipartite type, and is recognized by the three molecular species of importin alpha: Rch1 (PTAC58), NPI1, and Qip1, in the presence of PTAC97 of importin beta to target the nuclear pore. The nuclear translocation of SXR was observed as an essential regulatory event for transcription of its target genes such as CYP3A4. These results strongly suggest that the molecular mechanism of the nuclear import of SXR was different from that of another xenosensor, the constitutively active receptor, whose translocation into the nucleus is mediated by a leucine-rich xenochemical response signal in its ligand binding domain.