Hormonal evaluation of a large kindred with complete androgen insensitivity: evidence for secondary 5α-reductase deficiency.
Fecha
1982-05Autor
Imperato-McGinley, Julianne
Peterson, Ralph E.
Gautier, Teófilo
Cooper, George
Danner, Robert
Arthur, Ann
Morris, Patricia l.
Sweeney, William j.
Shackleton, Cedric
Metadatos
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Seventeen individuals from a pedigree with complete androgen insensitivity, [testicular feminization (TF)] are presented. Their hormonal evaluation was compared with those of normal males and male pseudohermaphrodites with primary 5a-reductase deficiency. The mean plasma testosterone to di-hydrotestosterone ratio was 12 ± 3 in normals, 24 ± 8 in TF subjects (P < 0.001), and 41 ± 14 (P < 0.001) in 5α-reductase-deficient subjects. In 4 TF subjects the MCRs for testosterone and dihydrotestosterone were normal. The dihydrotestosterone blood production rate averaged 383 μg/day in normals, 162 μg/ day in TF subjects, and 86 μg/day in 5α-reductase-deficient subjects. The conversion ratio of testosterone to dihydrotestos-terone averaged 2.53 in normals, 1.8 in TF subjects, and 0.63 in 5α-reductase-deficient subjects. The mean plasma estradiol level was 2.8 ± 1.0 ng/100 ml in normal males, 4.8 ± 1.3 ng/100 ml (P < 0.001) in TF subjects, and 3.1 ± 1.3 ng/100 ml (P < 0.5) in 5a-reductase-deficient subjects. The fractional plasma protein binding of testosterone in TF subjects and 5α-reductase-deficient subjects was similar to that in normal males. The mean urinary etiocholanolone to androsterone ratio was 0.87 ± 0.34 in normals, 1.28 ± 0.46 (P < 0.001) in TF subjects, and 4.90 ± 2.15 (P < 0.001) in 5α-reductase-deficient subjects. The mean urinary ratio of 5/β-tetrahydrocorticosterone to 5α-tetrahydrocorticosterone was 0.53 ± 0.22 in normal males, 0.76 ± 0.21 in TF subjects (P < 0.02), and 4.59 ± 4.5 (P < 0.001) in 5α-reductase-deficient subjects. The mean urinary 5/β-tetrahydrocortisol to 5a-tetrah-ydrocortisol ratio was in the normal male range in the TF subjects, but was markedly elevated in the 5α-reductase-deficient subjects. The data suggest that in the TF subjects, there is a decrease in peripheral 5a-reductase activity related to C-19 androgen 5α-metabolism, which is a secondary manifestation of androgen resistance. This differs from the situation in the male pseudohermaphrodites with 5α-reductase deficiency, where the defect affects hepatic and peripheral 5a-reduction with a marked decrease in both 5α C-19 and C-21 metabolites.
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