Identification of an alternative ligand-binding pocket in the nuclear vitamin D receptor and its functional importance in 1alpha,25(OH) sub(2)-vitamin D sub(3) signaling

Structural and molecular studies have shown that the vitamin D receptor (VDR) mediates 1alpha,25(OH) sub(2)-vitamin D sub(3) gene transactivation. Recent evidence indicates that both VDR and the estrogen receptor are localized to plasma membrane caveolae and are required for initiation of nongenomic...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2004-08, Vol.101 (35), p.12876-12881
Hauptverfasser: Mizwicki, Mathew T, Keidel, Don, Bula, Craig M, Bishop, June E, Zanello, Laura P, Wurtz, Jean-Marie, Moras, Dino, Norman, Anthony W
Format: Artikel
Sprache:eng
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Zusammenfassung:Structural and molecular studies have shown that the vitamin D receptor (VDR) mediates 1alpha,25(OH) sub(2)-vitamin D sub(3) gene transactivation. Recent evidence indicates that both VDR and the estrogen receptor are localized to plasma membrane caveolae and are required for initiation of nongenomic (NG) responses. Computer docking of the NG-specific 1alpha,25(OH) sub(2)-lumisterol to the VDR resulted in identification of an alternative ligand-binding pocket that partially overlaps the genomic pocket described in the experimentally determined x-ray structure. Data obtained from docking five different vitamin D sterols in the genomic and alternative pockets were used to generate a receptor conformational ensemble model, providing an explanation for how VDR and possibly the estrogen receptor can have genomic and NG functionality. The VDR model is compatible with the following: (i) NG chloride channel agonism and antagonism; (ii) variable ligand-stabilized trypsin digest banding patterns; and (iii) differential transcriptional activity, employing different VDR point mutants and 1alpha,25(OH) sub(2)-vitamin D sub(3) analogs.
ISSN:0027-8424
1091-6490