Sandrine Mailfait scite author profile

Sandrine Mailfait

3Publications

14Citation Statements Received

94Citation Statements Given

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Affiliations

Inserm, Institut de Chimie

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Critical Role of Tyrosine 277 in the Ligand-Binding and Transactivating Properties of Retinoic Acid Receptor α

et al. 2000

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Retinoic acid receptors specifically bind all-trans-retinoic acid (RA) and function as RA-inducible transcriptional regulatory factors. Binding of RA to RARalpha, beta, and gamma is sensitive to nitration with tetranitromethane, a tyrosine-specific modifying reagent. To identify tyrosine residue(s) that are important for RA binding, we carried out chemical modification experiments with purified RARalpha ligand-binding domain (RARalpha-LBD) subjected to partial acid hydrolysis and selective proteolysis. The chemically modified peptides containing each of the three Tyr residues present in the RARalpha-LBD sequence were then analyzed and identified by high-performance liquid chromatography coupled to electrospray ionization mass spectrometry (HPLC/ESI-MS). We found that RA binding to RARalpha-LBD protected Tyr(277)-containing peptides from nitration. Protection of Tyr(277) could result either from direct masking by the bound ligand or from ligand-induced changes in receptor conformation and tyrosine accessibility. The role of Tyr residues was further documented by site directed mutagenesis using three site-specific RARalpha mutants: Y208A, Y277A, and Y362A. The affinity for RA of these mutant receptors was in the range of that of the wild-type protein, except for the Y277A receptor mutant, which displays a 15-20-fold reduction in affinity and transactivation activity for RA. Whereas mutation of Tyr(277) into alanine had a variable effect on different agonists and antagonists binding, it caused a dramatic decrease of retinoid-dependent transactivation activity. This later effect was also observed with mutation of Tyr(277) into phenylalanine. It is unlikely that major conformational changes are responsible for the lower affinity of RA binding and RA-dependent transactivation since these mutants displayed wild-type dimerization and DNA-binding activities. Limited proteolysis revealed that upon ligand binding, the Y277A mutant induced a conformational change slightly different from that obtained with the wild-type protein. These data could suggest that Tyr(277) play a critical role in the ligand-induced conformational changes required for the activation of RARalpha.

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Critical role of the H6-H7 loop in the conformational adaptation of all-trans retinoic acid and synthetic retinoids within the ligand-binding site of RARalpha

Mailfait

Thoreau²,

Bélaïche³

et al. 2000

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The pleiotropic effects of the natural and synthetic retinoids are mediated by the activation of the two subfamilies of nuclear receptors, the retinoic acid receptors (RARs) and the retinoic X receptors (RXRs). At the molecular level, these events begin with the specific ligand recognition by a nuclear receptor subtype. The adaptation of ligands to the receptor binding site leads to an optimal number of interactions for binding and selectivity which justifies elucidation of the structural requirements of the ligand binding pocket. To explore the contribution of H6-H7 loop folding in the ligand-induced conformational changes explained by the mouse-trap model, four RAR mutants were constructed. Ligand binding and transactivation studies revealed that three residues from the H6-H7 loop (Gly 301 , Phe 302 and Gly 303) are critical for the conformational adaptation of both synthetic agonists and antagonists. Model building and analysis of both RAR -ATRA and RAR -CD367 complexes demonstrate that accommodation of CD367 results in a less tight contact of the saturated ring of this ligand with the amino acid side chains of the receptor ligand-binding pocket compared with that of ATRA. According to the flexibility of the agonists tested (ATRA>TTNPB=Am580> CD367), we observed a decrease in binding that was dependent on ligand structure rigidity. In contrast, the binding and transactivating activities of the L266A mutant confirmed the structural constraints imposed by synthetic ligands on binding affinity for the receptor and revealed that subtle local rearrangements induced by specific conformational adaptation changes result in different binding affinities. Our results illustrate the dynamic nature of the interaction between RAR and its ligands and demonstrate the critical role of the H6-H7 loop in the binding of both synthetic retinoid agonists and antagonists.

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Critical Role of Tyrosine 277 in the Ligand-Binding and Transactivating Properties of Retinoic Acid Receptor α

Mailfait¹,

Bélaïche²,

Kouach³

et al. 2000

Biochemistry

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