Abstract

The orphan nuclear pregnane X receptor (PXR) regulates the expression of numerous genes vital to xenobiotic and bile acid metabolism. Such genes include cytochrome P450-3A4, which metabolizes greater than 50 percent of human drugs, and the drug efflux pump MDR1. In contrast to most nuclear receptors, PXR is promiscuous and responds to a wide variety of structurally- diverse drugs and endogenous compounds. To unravel the structural basis of PXR's promiscuity and function, we determined crystal structures of the ligand binding domain of human PXR (hPXR) by itself and in complex with the cholesterol-lowering drug SR12813. hPXR has a novel nuclear receptor fold and contains a large, elliptical ligand binding pocket. Surprisingly, this pocket allows SR12813 to bind in three orientations at once -- a direct observation of binding promiscuity. These results provide a structural framework for further examination of this receptor. We are now poised to address two fundamental questions regarding PXR. First, how does this single protein respond to such a wide variety of distinct compounds? Second, how does PXR mediate the signal to activate transcription? The goals of these investigations are to elucidate PXR's role in molecular endocrinology and drug metabolism, and to facilitate the development of novel methods for drug screening involving PXR. Four hypotheses will be tested: - The positioning of PXR surface residues and the binding of the co-activator SRC-1 to PXR mediate transcriptional activation by stabilizing a particular conformation of the receptor. - PXR uses shuffled polar interactions to allow small ligands to bind in multiple orientations. - PXR changes in structure to accommodate large ligands. - Polar residues in the ligand binding pocket of PXR dictate the """"""""directed promiscuity"""""""" exhibited by PXRs across species.
Six specific aims will be pursued using the tools of x-ray crystallography, molecular biology and biochemistry: 1. Determine crystal structures of hPXR in complex with fragments of the transcriptional co-activator SRC-1. 2. Examine structures of hPXR variants containing surface changes known to affect its ability to activate transcription. 3. Unravel PXR's promiscuity by examining mutations designed to impact the binding of SR12813. 4. Determine structures of hPXR in complexes with small drugs and endogenous compounds. 5. Elucidate structures of hPXR in complexes with large drugs like rifampicin and taxol. 6. Examine structures of mouse and rabbit PXR to determine why different species respond to distinct xenobiotics.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK062229-05
Application #
7066000
Study Section
Endocrinology Study Section (END)
Program Officer
Sechi, Salvatore
Project Start
2002-07-01
Project End
2008-04-30
Budget Start
2006-05-01
Budget End
2008-04-30
Support Year
5
Fiscal Year
2006
Total Cost
$342,795
Indirect Cost

  Institution

Name
University of North Carolina Chapel Hill
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
608195277
City
Chapel Hill
State
NC
Country
United States
Zip Code
27599

  Publications

Wallace, Bret D; Redinbo, Matthew R (2013) Xenobiotic-sensing nuclear receptors involved in drug metabolism: a structural perspective. Drug Metab Rev 45:79-100
Kennedy, Sarah A; Frazier, Monica L; Steiniger, Mindy et al. (2009) Crystal structure of the HEAT domain from the Pre-mRNA processing factor Symplekin. J Mol Biol 392:115-28
Teotico, Denise G; Bischof, Jason J; Peng, Li et al. (2008) Structural basis of human pregnane X receptor activation by the hops constituent colupulone. Mol Pharmacol 74:1512-20
Teotico, Denise G; Frazier, Monica L; Ding, Feng et al. (2008) Active nuclear receptors exhibit highly correlated AF-2 domain motions. PLoS Comput Biol 4:e1000111
Schaaf, Gabriel; Ortlund, Eric A; Tyeryar, Kimberly R et al. (2008) Functional anatomy of phospholipid binding and regulation of phosphoinositide homeostasis by proteins of the sec14 superfamily. Mol Cell 29:191-206
Xue, Yu; Chao, Esther; Zuercher, William J et al. (2007) Crystal structure of the PXR-T1317 complex provides a scaffold to examine the potential for receptor antagonism. Bioorg Med Chem 15:2156-66
Xue, Yu; Moore, Linda B; Orans, Jillian et al. (2007) Crystal structure of the pregnane X receptor-estradiol complex provides insights into endobiotic recognition. Mol Endocrinol 21:1028-38
Noble, Schroeder M; Carnahan, Virginia E; Moore, Linda B et al. (2006) Human PXR forms a tryptophan zipper-mediated homodimer. Biochemistry 45:8579-89
Chrencik, Jill E; Orans, Jillian; Moore, Linda B et al. (2005) Structural disorder in the complex of human pregnane X receptor and the macrolide antibiotic rifampicin. Mol Endocrinol 19:1125-34
Ortlund, Eric A; Lee, Yoonkwang; Solomon, Isaac H et al. (2005) Modulation of human nuclear receptor LRH-1 activity by phospholipids and SHP. Nat Struct Mol Biol 12:357-63

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