Early metabolic abnormalities in adolescent girls with polycystic ovarian syndrome.

OBJECTIVE: To investigate insulin sensitivity and secretion in young adolescent girls with childhood onset polycystic ovarian syndrome (PCOS) and to identify the early metabolic derangement(s). STUDY DESIGN: Twelve obese girls with PCOS (age 12.0+/-0.7 years) were compared with 10 obese nonhyperandrogenic girls (control group). The groups were matched for age, percent body fat, and abdominal fat. All subjects underwent a 3-hour hyperinsulinemic (80 mu/m(2)/min)-euglycemic clamp to determine in vivo insulin sensitivity and a 2-hour hyperglycemic clamp (225 mg/dL) to determine insulin secretion. Fasting hepatic glucose production was determined with the use of [6,6-(2)H(2)]glucose. RESULTS: Fasting glucose and hepatic glucose production were comparable between the 2 groups, but fasting insulin was 2-fold higher in the PCOS group. The fasting glucose to insulin ratio was lower in the PCOS group versus the control group (1.9+/- 0.3 vs 3.1+/-0.3, P =.02). During the hyperinsulinemic-euglycemic clamp, insulin sensitivity was lower in the PCOS group (1.4+/-0.2 vs 2.7+/-0.3 mg/kg/min per microu/mL, P =.002). During the hyperglycemic clamp, insulin secretion was significantly higher in the PCOS group. Insulin sensitivity correlated negatively with fasting insulin (r = -0.71, P =.0002) and positively with the fasting glucose to insulin ratio (r = 0.79, P<.0001). CONCLUSION: Adolescent girls with PCOS have profound metabolic derangements detected early in the course of the syndrome, including (1) approximately 50% reduction in peripheral tissue insulin sensitivity, (2) evidence of hepatic insulin resistance, and (3) compensatory hyperinsulinemia. These observations may predict an increased risk of type 2 diabetes mellitus in adolescents with PCOS.

CYP21 mutations in Brazilian patients with 21-hydroxylase deficiency.

Congenital adrenal hyperplasia caused by 21-hydroxylase deficiency is a common autosomal recessive disorder resulting from mutations in the 21-hydroxylase (CYP21) gene. To develop a strategy to screen for the most commonly occurring CYP21 mutations in Brazil, we performed molecular genotype analysis on 73 children with CAH representing 71 unrelated families. The techniques used for CYP21 molecular genotype analysis were: restriction fragment length polymorphism, single-strand conformational polymorphism, allele-specific oligonucleotide hybridization, allele-specific polymerase chain reaction amplification, and heteroduplex analyses. Mutations were identified on all but eight affected alleles. The intron 2 splicing mutation was the most frequently identified mutation. Screening for the most common mutations detected at least one mutation on 132/142 (93%) alleles. Multiple CYP21 mutations were detected on 16.2% of alleles. The high frequency of multiple mutations on a single allele emphasizes the importance of thorough and accurate molecular genotype analysis of the complex CYP21 locus.

Newborn screening for 21-hydroxylase deficiency: results of CYP21 molecular genetic analysis.

Blood samples for plasma steroid hormone determinations and molecular genotype analysis of the 21-hydroxylase gene (CYP21) were obtained from 15 infants identified through a voluntary newborn screening program. Mutations were identified on both CYP21 alleles in 12 (80%) of 15 infants; all had confirmatory plasma 17-hydroxyprogesterone concentrations > 3500 ng/dl. No patient was found to carry mutations associated with late-onset 21-hydroxylase deficiency. Newborn screening hastened diagnosis in eight infants.