Rare forms of genetic steroidogenic defects affecting the gonads and adrenals

Two Girls With Adrenal Insufficiency and Failing Gonads

Congenital lipoid adrenal hyperplasia (CLAH) is a rare cause of adrenal insufficiency caused by mutations in the steroidogenic acute regulatory (StAR) gene. Patients classically present with adrenal crisis in early infancy and female external genitalia irrespective of chromosomal sex. We report 2 Chinese patients with normal female external genitalia presenting with salt wasting in the neonatal period. However, the diagnosis of CLAH was made only during pubertal years when they developed hypergonadotropic hypogonadism. One of them was subsequently found to have a 46XY karyotype and gonadectomy was performed at age 15 years. The other patient developed gonadal insufficiency and polycystic ovaries after menarche with hemorrhage into ovarian cysts requiring cystectomy. These 2 cases illustrate the importance of recognizing atypical features in neonates presenting with adrenal crisis. In managing the newborn with adrenal insufficiency and female-appearing external genitalia, the possibility of sex reversal and diagnosis of CLAH should be considered. Accurate delineation of internal pelvic organs using reliable imaging modalities or even laparoscopy, together with careful interpretation of clinical and laboratory findings, are crucial to accurate diagnosis and subsequent management.

The Androgen Metabolome of Preterm Infants Reflects Fetal Adrenal Gland Involution

CONTEXT

The human adrenal cortex changes with fetal-neonatal transition from the fetal to the adult organ, accompanied by changes in the steroid metabolome.

OBJECTIVE

As it is unclear how the observed developmental changes differ between preterm and full-term neonates, we investigated whether the involution of the fetal adrenals is following a fixed time course related to postmenstrual age or whether it is triggered by birth. Furthermore, the fetal and postnatal androgen metabolome of preterm infants was characterized in comparison to term babies.

METHODS

This was a prospective, longitudinal, 2-center study collecting spot urines of preterm and term infants during the first 12 to 18 months of life. Steroid metabolites were measured from spot urines by gas chromatography-mass spectrometry. Data relating were modeled according to established pre- and postnatal pathways.

RESULTS

Fetal adrenal involution occurs around term-equivalent age in preterm infants and is not triggered by premature birth. Testosterone levels are higher in preterm infants at birth and decline slower until term compared to full-term babies. Dihydrotestosterone levels and the activity of the classic androgen biosynthesis pathway are lower in premature infants as is 5α-reductase activity. No difference was found in the activity of the alternate backdoor pathway for androgen synthesis.

CONCLUSION

Human adrenal involution follows a strict timing that is not affected by premature birth. By contrast, prematurity is associated with an altered androgen metabolome after birth. Whether this reflects altered androgen biosynthesis in utero remains to be investigated.