Non-classical 21-hydroxylase deficiency in children: association of adrenocorticotropic hormone-stimulated 17-hydroxyprogesterone with the risk of compound heterozygosity with severe mutations.

Aim: To investigate the association between levels of 17-hydroxyprogesterone (17-OHP) and the risk of being compound heterozygous for severe mutations in children with non-classical 21-hydroxylase deficiency (NC21OHD).

Methods: In 86 Spanish NC21OHD children (75 families) an analysis of the 21-hydroxylase (21-OH) gene was performed by CYP21B-specific polymerase chain reaction amplification, allele-specific oligonucleotide hybridization and Southern blotting. Familial analysis established how the alleles segregated, and allowed the selection of 21-OH-genotyped normal and carrier children, which proved useful in determining a more precise definition of the cut-off for diagnosis.

Gene conversion (655G splicing mutation) and the founder effect (Gln318Stop) contribute to the most frequent severe point mutations in congenital adrenal hyperplasia (21-hydroxylase deficiency) in the Spanish population.

This study addresses the contributions of gene conversion and a founder effect to the distribution of the two most frequent severe point mutations of the 21-hydroxylase (21OH) gene causing congenital adrenal hyperplasia: the 655G splicing mutation at intron 2, and Gln318Stop in a Spanish population. Direct and indirect analyses of segregated mutant and normal 21OH genes in 200 Spanish families (classic and nonclassic 21OH deficiency) were performed. Both mechanisms were found to contribute to different degrees to the defective investigated alleles.

A novel frameshift mutation in the first exon of the 21-OH gene found in homozygosity in an apparently nonconsanguineous family.

Congenital adrenal hyperplasia is most frequently due to steroid 21-hydroxylase (21-OH) deficiency. Due to the existence of a pseudogene in tandem duplicated with the 21-OH gene, asymmetric recombination causes the majority of the molecular defects underlying this deficiency: gene conversions and deletions of the functional gene. Screening for a small array of mutations, those existing in the pseudogene together with deletions, allows the characterization of most mutated alleles, 91% in the Spanish population.

Microsatellite markers in the indirect analysis of the steroid 21-hydroxylase gene.

Prenatal diagnosis and treatment of congenital adrenal hyperplasia due to steroid 21-hydroxylase (21-OH) deficiency has been proved to be effective. Screening for a panel of nine point mutations, deletions, and gene conversions allows the identification of most of the mutations, although 6.12 per cent of chromosomes remain uncharacterized.