Abstract

Three subtypes of retinoic acid receptors (RAR), termed RAR alpha, RAR beta, and RAR gamma, have been described. They are composed of different structural domains, including distinct domains for DNA and ligand binding. RARs specifically bind all-trans-retinoic acid (RA), 9-cis-RA, and retinoid analogs. In this study, we examined the functional role of cysteine and arginine residues in the ligand-binding domain of hRAR alpha (hRAR alpha-LBD, amino acids 154 to 462). All conserved cysteine and arginine residues in this domain were mutated by site-directed mutagenesis, and the mutant proteins were characterized by blocking reactions, ligand-binding experiments, transactivation assays, and protease mapping. Changes of any cysteine residue of the hRAR alpha-LBD had no significant influence on the binding of all-trans RA or 9-cis RA. Interestingly, residue C-235 is specifically important in antagonist binding. With respect to arginine residues, only the two single mutations of R-276 and R-394 to alanine showed a dramatic decrease of agonist and antagonist binding whereas the R272A mutation showed only a slight effect. For all other arginine mutations, no differences in affinity were detectable. The two mutations R217A and R294A caused an increased binding efficiency for antagonists but no change in agonist binding. From these results, we can conclude that electrostatic interactions of retinoids with the RAR alpha-LBD play a significant role in ligand binding. In addition, antagonists show distinctly different requirements for efficient binding, which may contribute to their interference in the ligand-inducible transactivation function of RAR alpha.

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