Structure-function analysis reveals the molecular determinants of the impaired biological function of DAX-1 mutants in AHC patients
Abstract
Mutations in the DAX-1 (NR0B1) gene cause the X-linked form of adrenal hypoplasia congenita (AHC), which is constantly found associated with hypogonadotropic hypogonadism (HHG). DAX-1 encodes an atypical orphan member of the nuclear hormone receptor superfamily. DAX-1 acts at multiple levels to repress the expression of genes involved in steroid hormone metabolism through a potent transcriptional repression domain present in its C-terminus, which is similar to the nuclear receptors' ligand binding domain. All DAX-1 mutations causing AHC/HHG alter the protein C-terminal domain, impairing its nuclear localization and, consequently, its transcriptional repression activity. Here we show that DAX-1 AHC mutants have a misfolded conformation, which correlates with their cytoplasmic retention. Extensive structure-function analysis reveals that the chemical nature of amino acid residues at positions interested by AHC mutations and critical determinants in helix 12 affect DAX-1 nuclear localization and transcriptional silencing. Surprisingly, mutations in a conserved putative corepressor binding surface have a negative effect upon DAX-1 transcriptional repression only when they also affect protein expression levels. These data suggest that a folding defect underlies the impaired function of DAX-1 missense mutants found in AHC/HHG patients and that interactions with transcriptional cofactors different from known corepressors mediate DAX-1 silencing properties.