mibolerone and Disorders-of-Sex-Development

Androgen insensitivity syndrome (AIS) is a disorder of male sexual differentiation caused by mutations in the androgen receptor (AR) gene. The partial form (PAIS), associated with varying degrees of receptor dysfunction, presents with a range of undervirilization phenotypes. The complete form (CAIS) is characterized by normal female external appearance at birth. In these cases the receptor is often absent or inactive. However, cases have been described where the mutant receptor concerned has considerable residual activity in in vitro assays. Here we describe the effects of five mutations, Gly750Asp, Leu762Phe, Ala765Thr, Asp864Asn and Leu907Phe, identified in complete androgen insensitivity patients. In vitro assays of mutant androgen receptors expressed in a mammalian cell line showed that the Gly750Asp, Leu762Phe and Ala765Thr mutations cause almost complete loss of androgen-binding activity, suggesting that these residues are critical for ligand binding. However, receptors with Asp864Asn and Leu907Phe, although defective, were capable of considerable binding and transactivation activity. Given that some mutations identified in PAIS patients have a more severe effect on androgen receptor function than two CAIS mutations described here, these results provide further evidence that other factors, including genetic background, can have a significant impact on the phenotype associated with a particular AR mutation.

Topics: Amino Acid Sequence; Animals; COS Cells; Disorders of Sex Development; HeLa Cells; Humans; Kinetics; Ligands; Male; Molecular Sequence Data; Mutation; Nandrolone; Receptors, Androgen; Recombinant Fusion Proteins; Sequence Alignment; Testosterone Congeners; Transcriptional Activation

We have used 5 alpha-dihydrotestosterone (DHT) and two synthetic, non-metabolizable androgens, methyltrienolone (MT) and mibolerone (MB), to study intact genital skin fibroblasts from four subjects with familial incomplete androgen resistance. In each, the free androgen receptor has normal binding capacity at 37 degrees C and normal half-lives at 37-43 degrees C. In three the mutant receptor misbehaves in a pattern that is ligand-specific and temperature-dependent. At 37 degrees C the equilibrium (Kd) and non-equilibrium (k) dissociation constants, and the ability to augment binding activity during prolonged exposure to androgen, are impaired with DHT, but not with MT; with MB, only the k is abnormal. Mutant MT-receptor complexes dissociate normally even at 42 degrees C; yet, in cells post-incubated at 42 degrees C with cycloheximide and a saturating concentration of ligand, their pool size decays in the rank order, MT greater than MB greater than normal. This measure of lability is nonlinear as a semilogarithmic function of time; it varies directly with temperature and the concentration of cycloheximide, but inversely with that of ligand. Thus, MT and MB evoke distinct forms of thermal dysfunction from the androgen receptor in ligand-sensitive androgen resistance. This observation will help to elucidate the combinatorial properties of normal androgen-receptor complexes that enable them to regulate gene transcription differentially in various androgen target tissues.

Topics: Androgens; Cycloheximide; Dihydrotestosterone; Disorders of Sex Development; Drug Resistance; Estrenes; Fibroblasts; Genitalia, Male; Half-Life; Humans; Kinetics; Male; Metribolone; Mutation; Nandrolone; Receptors, Androgen; Skin; Temperature