Objective: Following the observation of two patients affected by true precocious puberty who went on to develop polycystic ovary syndrome (PCOS) and who were found to be heterozygotes (carriers) for 21-hydroxylase deficiency (21-OHD), we decided to evaluate the frequency of heterozygosity for adrenal 21-OHD in patients with true precocious puberty.
Study design: We investigated 32 girls affected by true precocious puberty, by the single-dose ACTH stimulation test, HLA typing and the molecular analysis of the CYP21B gene encoding for the 21-OH enzyme, in order to detect gene deletions or point mutations. Twenty-eight cases were on LHRH analogue treatment and the remaining four, untreated owing to parental refusal, were investigated 0.5-1.5 years after spontaneous menarche.
Results: After ACTH testing, 13 out of the 32 (41%) cases displayed higher 17-hydroxyprogesterone (17-OHP) levels than normal but less than those found in patients affected by nonclassical adrenal hyperplasia (CAH); these levels were similar to those observed in obligate heterozygotes for CAH due to 21-hydroxylase deficiency (21-OHD). HLA typing showed a significantly increased frequency of the HLA alleles A28 and B14 which are peculiar to the HLA haplotypes of nonclassical CAH due to 21-OHD. Molecular analysis of the CYP21B gene showed that in four out of the 10 tested patients with an exaggerated 17-OHP response there were heterozygous point mutations of the CYP21B gene. In contrast, no CYP21B gene abnormalities were detected in the eight tested patients with normal 17-OHP. No differences were found between carriers and non-carriers of the 21-OHD with regard to age at onset of precocious puberty, clinical features, bone age acceleration and gonadal suppression induced by LH-RH analogue treatment. Two out of the four untreated patients who were investigated after menarche were found to be carriers of the 21-OHD; these girls showed signs of androgen excess, irregular menses and polycystic ovaries.
Conclusions: A high frequency of heterozygosity for adrenal steroid 21-OHD was found in our patients with true precocious puberty. This adrenal defect does not seem to influence the pattern of central precocious puberty, but these patients require long-term follow-up as they might go on to develop polycystic ovary syndrome (PCOS). Whether or not heterozygosity of the 21-OHD may be related to the premature activation of the hypothalamo-pituitary-gonodal axis remains to be defined.