Allosteric regulation of the discriminative responsiveness of retinoic acid receptor to natural and synthetic ligands by retinoid X receptor and DNA.

Transcriptional activation by retinoids is mediated through two families of nuclear receptors, all-trans-retinoic acid (RARs) and 9-cis retinoic acid receptors (RXRs). Conformationally restricted retinoids are used to achieve selective activation of RAR isotype alpha, beta or gamma, which reduces side effects in therapeutical applications. Synthetic retinoids mimic some of all-trans ...
retinoic acid biological effects in vivo but interact differently with the ligand binding domain of RARalpha and induce distinct structural transitions of the receptor. In this report, we demonstrate that RAR-selective ligands have distinct quantitative activation properties which are reflected by their abilities to promote interaction of DNA-bound human RXRalpha (hRXRalpha)-hRARalpha heterodimers with the nuclear receptor coactivator (NCoA) SRC-1 in vitro. The hormone response element core motifs spacing defined the relative affinity of liganded heterodimers for two NCoAs, SRC-1 and RIP140. hRXRalpha activating function 2 was critical to confer hRARalpha full responsiveness but not differential sensitivity of hRARalpha to natural or synthetic retinoids. We also provide evidence showing that lysines located in helices 3 and 4, which define part of hRARalpha NCoA binding surface, contribute differently to (i) the transcriptional activity and (ii) the interaction of RXR-RAR heterodimers with SRC-1, when challenged by either natural or RAR-selective retinoids. Thus, ligand structure, DNA, and RXR exert allosteric regulations on hRARalpha conformation organized as a DNA-bound heterodimer. We suggest that the use of physically distinct NCoA binding interfaces may be important in controlling specific genes by conformationally restricted ligands.
Mesh Terms:
Adaptor Proteins, Signal Transducing, DNA, DNA-Binding Proteins, Dimerization, Gene Expression Regulation, Histone Acetyltransferases, Humans, Ligands, Models, Molecular, Nuclear Proteins, Nuclear Receptor Co-Repressor 2, Nuclear Receptor Coactivator 1, Protein Binding, Receptors, Retinoic Acid, Repressor Proteins, Retinoid X Receptors, Retinoids, Sequence Deletion, Transcription Factors, Transcriptional Activation
Mol. Cell. Biol.
Date: Apr. 01, 1999
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