Mill H. Lambert scite author profile

Retinoic acid and thyroid hormone receptors can act alternatively as ligand-independent repressors or ligand-dependent activators, based on an exchange of N-CoR or SMRT-containing corepressor complexes for coactivator complexes in response to ligands. We provide evidence that the molecular basis of N-CoR recruitment is similar to that of coactivator recruitment, involving cooperative binding of two helical interaction motifs within the N-CoR carboxyl terminus to both subunits of a RAR-RXR heterodimer. The N-CoR and SMRT nuclear receptor interaction motifs exhibit a consensus sequence of LXX I/H I XXX I/L, representing an extended helix compared to the coactivator LXXLL helix, which is able to interact with specific residues in the same receptor pocket required for coactivator binding. We propose a model in which discrimination of the different lengths of the coactivator and corepressor interaction helices by the nuclear receptor AF2 motif provides the molecular basis for the exchange of coactivators for corepressors, with ligand-dependent formation of the charge clamp that stabilizes LXXLL binding sterically inhibiting interaction of the extended corepressor helix.

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2.1 Å Crystal Structure of Human PXR in Complex with the St. John's Wort Compound Hyperforin^,

Watkins

et al. 2003

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The nuclear xenobiotic receptor PXR is activated by a wide variety of clinically used drugs and serves as a master regulator of drug metabolism and excretion gene expression in mammals. St. John's wort is used widely in Europe and the United States to treat depression. This unregulated herbal remedy leads to dangerous drug-drug interactions, however, in patients taking oral contraceptives, antivirals, or immunosuppressants. Such interactions are caused by the activation of the human PXR by hyperforin, the psychoactive agent in St. John's wort. In this study, we show that hyperforin induces the expression of numerous drug metabolism and excretion genes in primary human hepatocytes. We present the 2.1 A crystal structure of hyperforin in complex with the ligand binding domain of human PXR. Hyperforin induces conformational changes in PXR's ligand binding pocket relative to structures of human PXR elucidated previously and increases the size of the pocket by 250 A(3). We find that the mutation of individual aromatic residues within the ligand binding cavity changes PXR's response to particular ligands. Taken together, these results demonstrate that PXR employs structural flexibility to expand the chemical space it samples and that the mutation of specific residues within the ligand binding pocket of PXR tunes the receptor's response to ligands.

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Coactivator Binding Promotes the Specific Interaction Between Ligand and the Pregnane X Receptor

Watkins

Davis-Searles

Lambert

et al. 2003

Journal of Molecular Biology

205

276

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Mill H. Lambert

Molecular determinants of nuclear receptor-corepressor interaction

2.1 Å Crystal Structure of Human PXR in Complex with the St. John's Wort Compound Hyperforin^,

Coactivator Binding Promotes the Specific Interaction Between Ligand and the Pregnane X Receptor

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Mill H. Lambert

Molecular determinants of nuclear receptor-corepressor interaction

2.1 Å Crystal Structure of Human PXR in Complex with the St. John's Wort Compound Hyperforin,

Coactivator Binding Promotes the Specific Interaction Between Ligand and the Pregnane X Receptor

Contact Info

Product

Resources

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2.1 Å Crystal Structure of Human PXR in Complex with the St. John's Wort Compound Hyperforin^,