Variable loss of functional activities of androgen receptor mutants in patients with androgen insensitivity syndrome

Androgen receptor (AR) mutations in androgen insensitivity syndrome (AIS) are associated with a variety of clinical phenotypes. The aim of the present study was to compare the molecular properties and potential pathogenic nature of 8 novel and 3 recurrent AR variants with a broad variety of functional assays. Eleven AR variants (p.Cys177Gly, p.Arg609Met, p.Asp691del, p.Leu701Phe, p.Leu723Phe, p.Ser741Tyr, p.Ala766Ser, p.Arg775Leu, p.Phe814Cys, p.Lys913X, p.Ile915Thr) were analyzed for hormone binding, transcriptional activation, cofactor binding, translocation to the nucleus, nuclear dynamics, and structural conformation. Ligand-binding domain variants with low to intermediate transcriptional activation displayed aberrant Kd values for hormone binding and decreased nuclear translocation. Transcriptional activation data, FxxFF-like peptide binding and DNA binding correlated well for all variants, except for p.Arg609Met, p.Leu723Phe and p.Arg775Leu, which displayed a relatively higher peptide binding activity. Variants p.Cys177Gly, p.Asp691del, p.Ala766Ser, p.Phe814Cys, and p.Ile915Thr had intermediate or wild type values in all assays and showed a predominantly nuclear localization in living cells. All transcriptionally inactive variants (p.Arg609Met, p.Leu701Phe, p.Ser741Tyr, p.Arg775Leu, p.Lys913X) were unable to bind to DNA and were associated with complete AIS. Three variants (p.Asp691del, p.Arg775Leu, p.Ile915Thr) still displayed significant functional activities in in vitro assays, although the clinical phenotype was associated with complete AIS. The data show that molecular phenotyping based on 5 different functional assays matched in most (70%) but not all cases. Copyrigh

Reptides and Proteins Interacting with the Androgen Receptor

Androgens are important sex steroid hormones. The androgens testosterone and dihydrotestosterone (DHT) are essential for normal male sexual differentiation and for the development and maintenance of male reproductive tissues, including the prostate. Androgens mediate their effects by binding to, and activation of, the androgen receptor (AR), which is a transcription factor belonging to the nuclear receptor (NR) family. Upon androgen binding, the AR is able to recognize specific DNA sequences from where it regulates the expression of its target genes. A disregulated androgen-AR pathway is involved in several diseases, such as prostate cancer, androgen insensitivity syndrome (AIS), and Kennedy’s disease or spinal and bulbar muscular atrophy (SBMA)