Objective: Steroidogenic factor 1 (SF1), officially designated NR5A1, is a nuclear receptor that plays key roles in endocrine development and function. Previous reports of human SF1 mutations revealed a spectrum of phenotypes affecting adrenal function and/or gonadal development and sex differentiation. We present the clinical phenotype and functional effects of a novel SF1 mutation. Patient: The patient is a 22-year-old 46, XY Japanese patient who presented with dysgenetic testes, atrophic vasa deferentia and epididymides, lack of Mü llerian structures, and clitoromegaly. Endocrine studies revealed normal adrenal function. Results: Analysis of the SF1 gene revealed compound heterozygosity for a previously described p.G146A polymorphism and a novel missense mutation (p.R84C) in the accessory DNA-binding domain. The father carried the p.G146A polymorphism and the mother had the p.R84C mutation; both were clinically and reproductively normal. Functional studies demonstrated that the p.R84C SF1 had normal nuclear localization but decreased DNA-binding affinity and transcriptional activity compared with wild-type SF1; it did not exhibit any dominant negative activity. Conclusions: These results describe the human phenotype that results from compound heterozygosity of the p.G146A polymorphism and a novel p.R84C mutation of SF1, thereby extending the spectrum of human SF1 mutations that impair testis development and sex differentiation in a sex-limited manner while preserving normal adrenal function. 157 233-238
European Journal of Endocrinology
Since 1989, neonatal mass screening for congenital adrenal hyperplasia (CAH) has been performed in Japan, and the frequency of the classical form of 21-hydroxylase deficiency was found to be nearly identical to that in other countries. However, it has not yet been determined whether our mass screening program can detect the nonclassical (NC) form. From 1991 to 1994, about 4,500,000 infants underwent CAH mass screening in Japan. During this period, we identified by screening 2 siblings and 2 unrelated patients who had mild elevation of serum 17-hydroxyprogesterone levels at 5 days of age, but who revealed no symptoms of CAH. They were diagnosed as having probable NC steroid 21-hydroxylase deficiency. To clarify the molecular basis of NC CAH detectable by neonatal screening in Japan, the steroid 21-hydroxylase (CYP21) genes from these cases were analyzed. The 2 siblings (patients 1 and 2) had I172N and R356W mutations in 1 allele and in the other allele had local gene conversion, including the P30L mutation in exon 1. Patient 3, who was unrelated, had gene conversion encoding the same P30L mutation in 1 allele and in the other allele had an intron 2 mutation (668-12 A-->G), causing aberrant ribonucleic acid splicing, and the R356W mutation. Patient 4, also a compound heterozygote, had the R356W and 707del8 mutations. The estimated rate of detection of the NC form by mass screening (1:1,100,000) seemed low compare to the established detection rate for the classical form (1:18,000). As all of our 4 patients were compound heterozygotes with at least 1 allele bearing 1 or more mutations associated with classic CAH, it may be difficult to detect NC cases carrying only NC-associated alleles using our current neonatal mass screening methods.
Duchenne muscular dystrophy (DMD) is an X-linked recessive disorder. Here, we report a novel mechanism for the occurrence of DMD in females. In a Vietnamese DMD girl, conventional PCR amplification analysis disclosed a deletion of exons 12-19 of the dystrophin gene on Xp21.2, with a karyotype of 46, XY. Furthermore, a novel mutation in the androgen-receptor gene on Xq11.2-q12 was identified in this girl, which led to male pseudohermaphroditism. Co-occurrence of mutations of these two genes constitutes a novel mechanism underlying female DMD.
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