Raja Brauner

Mutations in NR5A1 Associated with Ovarian Insufficiency

BACKGROUND The genetic causes of nonsyndromic ovarian insufficiency are largely unknown. A nuclear receptor, NR5A1 (also called steroidogenic factor 1), is a key transcriptional regulator of genes involved in the hypothalamic-pituitary-steroidogenic axis. Mutation of NR5A1 causes 46,XY disorders of sex development, with or without adrenal failure, but growing experimental evidence from studies in mice suggests a key role for this factor in ovarian development and function as well. METHODS To test the hypothesis that mutations in NR5A1 cause disorders of ovarian development and function, we sequenced NR5A1 in four families with histories of both 46,XY disorders of sex development and 46,XX primary ovarian insufficiency and in 25 subjects with sporadic ovarian insufficiency. None of the affected subjects had clinical signs of adrenal insufficiency. RESULTS Members of each of the four families and 2 of the 25 subjects with isolated ovarian insufficiency carried mutations in the NR5A1 gene. In-frame deletions and frameshift and missense mutations were detected. Functional studies indicated that these mutations substantially impaired NR5A1 transactivational activity. Mutations were associated with a range of ovarian anomalies, including 46,XX gonadal dysgenesis and 46,XX primary ovarian insufficiency. We did not observe these mutations in more than 700 control alleles. CONCLUSIONS NR5A1 mutations are associated with 46,XX primary ovarian insufficiency and 46,XY disorders of sex development.

Growth and endocrine disorders secondary to cranial irradiation.

ABSTRACT: External cranial radiation for the treatment of malignant diseases has become a frequent cause of growth hormone deficiency (GHD). The timing of occurrence and the frequency of GHD were related to the hypothalamic-pituitary radiation dose. Frequency varied from 50% in leukemia (2400 cGy) to 75% in face and neck tumors or medulloblastoma (2500-4500 cGy) and up to 100% in optic glioma (>4500 cGy). The significantly more severe growth deficit in patients with GHD given higher radiation doses suggests different levels of residual GH secretion according to radiation dosage. The minimum harmful radiation dose is probably close to 1800-2000 cGy. Our data show that stimulation tests remain a useful means of defining GHD and predicting growth. A fair agreement between GH secretion and growth was found in most cases, regardless of the radiation dose. The only exception was a group of leukemic children (2400 cGy) who achieved normal prepubertal growth despite a low GH response. The 24-h spontaneous plasma GH profiles and IGF-I measurements may add information if growth is retarded despite a normal GH response. We showed that growth retardation occurring after some schedules of total body irradiation was not due to GH deficiency but rather to radiation-induced skeletal lesions. Early or true precocious puberty, generally associated with GHD, was another cause of height loss. As the role of GH deficiency in the final height reduction was demonstrated in all groups of patients after cranial radiation, we suggest that hGH therapy should be considered in any child with proven GH deficiency and significant growth retardation after such radiation.

Consensus Statement on 21-Hydroxylase Deficiency from The European Society for Paediatric Endocrinology and The Lawson Wilkins Pediatric Endocrine Society

1Writing Committee: Peter E. Clayton, Royal Manchester Children’s Hospital, Manchester, UK; Walter L. Miller*,University of California, San Francisco, Calif., USA; Sharon E. Oberfield, Columbia University, New York, N.Y., USA;E. Martin Ritzen, Karolinska Institute, Stockholm, Sweden; Wolfgang G. Sippell*, University Children’s Hospital,Kiel, Germany; Phyllis W. Speiser, New York University, New York, N.Y. (*co-chairs)

Ovarian function after bone marrow transplantation during childhood

Ovarian failure is often brought about by the conditioning protocol used for bone marrow transplantation (BMT). We monitored ovarian function in 31 girls conditioned for BMT at 10.3 ±  0.6 (s.e., 3.2–17.5) years by chemotherapy alone (group 1, n = 8) or chemotherapy plus body irradiation (12 Gy, fractionated in group 2, n = 9, or 10 Gy single total body in group 3, n = 7, and 5 or 6 Gy single thoraco-abdominal in group 4, n = 7, irradiation) at 13.4 ± 0.4 (11.7–18.6) years. Breast development was normal (n = 11), did not occur (n = 14), or did not progress spontaneously (n = 2) after BMT. The other four girls who menstruated before BMT had permanent amenorrhea. Basal plasma gonadotropin concentrations were measured in 29; follicle- stimulating hormone was increased in them all and luteinizing hormone in 23. At the last clinical evaluation at 16.3 ± 0.4 (12.1–21.6) years, 23 girls had complete ovarian failure, two had partial ovarian failure, and six had normal ovarian function. Three of these were the youngest group 1 patients and those who had not received busulfan. We conclude that conditioning for BMT given during childhood frequently prevents normal estrogen secretion at puberty. Adequate substitutive treatment may be necessary to induce growth acceleration and sexual development.

Magnetic resonance imaging in the diagnosis of growth hormone deficiency

Forty-six patients with idiopathic growth hormone deficiency were examined by magnetic resonance imaging at a mean (+/- SEM) age of 9 +/- 1 years (range 15 days to 20 years). They were classified into two groups according to MRI images: group 1 (n = 29) had pituitary stalk interruption syndrome and group 2 (n = 17) had normal pituitary anatomy. All patients with pituitary stalk interruption had a pituitary height at less than -2 SD for age; three had no visible anterior pituitary lobe. By contrast, the pituitary height was less than normal in only 10 patients (60%) with normal pituitary anatomy. Growth hormone deficiency was transient in one of the seven patients with normal pituitary anatomy and height. The group with pituitary stalk interruption had the first symptom of growth hormone deficiency at an earlier age (2.8 +/- 0.6 vs 5.5 +/- 1.2 years; p less than 0.001), were of smaller stature (-4 +/- 0.2 vs -3 +/- 0.2 SD; p less than 0.01) and had lower GH peak response to provocative testing (3 +/- 0.4 vs 5 +/- 0.5 ng/ml; p less than 0.001) than did the group with normal pituitary anatomy. Their pituitary gland was also shorter (2.5 +/- 0.2 vs 3.5 +/- 0.2 mm; p less than 0.01). All the patients with multiple pituitary deficiencies except one (n = 19) belonged to this group. One girl with pituitary stalk interruption and deficiencies in growth hormone and thyroid-stimulating hormone had advanced central precocious puberty. We conclude that the evaluation of the shape and height of the pituitary gland by MRI is an additional tool for the diagnosis of growth hormone deficiency. The presence of pituitary stalk interruption confirms this diagnosis and is predictive of multiple anterior pituitary deficiencies. The lack of a significant increase in perinatal abnormalities in this group and the association of pituitary stalk interruption with microphallus and with facial or sella abnormalities suggest that this appearance may have an early antenatal origin. The finding of a familial case of pituitary stalk interruption suggests a genetic origin.

Long-term itraconazole prophylaxis against Aspergillus infections in thirty-two patients with chronic granulomatous disease.

We conducted a prospective, open study of oral itraconazole therapy (5 and then 10 mg/kg per day) to assess tolerance and potential efficacy in preventing fungal infections in patients with chronic granulomatous disease. Thirty-two patients were enrolled in one center between 1985 and 1991. Tolerance was excellent in all cases. Poor compliance was suspected in three cases. Two patients were excluded from efficacy analysis because itraconazole was used as part of therapy for pulmonary aspergillosis. Of 30 patients, 3 developed a fungal (Aspergillus) lung infection, an incidence 3.4/100 patient-years versus 11.5 in a historical control group that did not receive any prophylaxis (p = 0.13) and 9.55 in a historical group of patients who received daily ketoconazole prophylaxis (p = 0.19). The percentage of patients infected with Aspergillus was significantly different: 10% in the itraconazole group versus 34.4% in the untreated group (p = 0.013). These results require further evaluation through a comparative randomized trial to assess the possible benefit of itraconazole prophylaxis in patients with chronic granulomatous disease.

Identification of mutations in CUL7 in 3-M syndrome

Intrauterine growth retardation is caused by maternal, fetal or placental factors that result in impaired endovascular trophoblast invasion and reduced placental perfusion. Although various causes of intrauterine growth retardation have been identified, most cases remain unexplained. Studying 29 families with 3-M syndrome (OMIM 273750), an autosomal recessive condition characterized by severe pre- and postnatal growth retardation, we first mapped the underlying gene to chromosome 6p21.1 and then identified 25 distinct mutations in the gene cullin 7 (CUL7). CUL7 assembles an E3 ubiquitin ligase complex containing Skp1, Fbx29 (also called Fbw8) and ROC1 and promotes ubiquitination. Using deletion analysis, we found that CUL7 uses its central region to interact with the Skp1-Fbx29 heterodimer. Functional studies indicated that the 3-M–associated CUL7 nonsense and missense mutations R1445X and H1464P, respectively, render CUL7 deficient in recruiting ROC1. These results suggest that impaired ubiquitination may have a role in the pathogenesis of intrauterine growth retardation in humans.

Spectrum of NSD1 mutations in Sotos and Weaver syndromes

Sotos syndrome is an overgrowth syndrome characterised by pre- and postnatal overgrowth, macrocephaly, advanced bone age, and typical facial features. Weaver syndrome is a closely related condition characterised by a distinctive craniofacial appearance, advanced carpal maturation, widened distal long bones, and camptodactyly. Haploinsufficiency of the NSD1 gene has recently been reported as the major cause of Sotos syndrome while point mutations accounted for a minority of cases. We looked for NSD1 deletions or mutations in 39 patients with childhood overgrowth. The series included typical Sotos patients (23/39), Sotos-like patients (lacking one major criteria, 10/39), and Weaver patients (6/39). We identified NSD1 deletions (6/33) and intragenic mutations (16/33) in Sotos syndrome patients. We also identified NSD1 intragenic mutations in 3/6 Weaver patients. We conclude therefore that NSD1 mutations account for most cases of Sotos syndrome and a significant number of Weaver syndrome cases in our series. Interestingly, mental retardation was consistently more severe in patients with NSD1 deletions. Macrocephaly and facial gestalt but not overgrowth and advanced bone age were consistently observed in Sotos syndrome patients. We suggest therefore considering macrocephaly and facial gestalt as mandatory criteria for the diagnosis of Sotos syndrome and overgrowth and advanced bone age as minor criteria.

Central precocious puberty: clinical and laboratory features*

To determine whether the initial presentation of patients with central precocious puberty (CPP) varies according to the aetiology, whether this permits the differentiation between idiopathic and organic forms, and whether the body mass index (BMI) and plasma leptin concentrations are linked to gonadotrophin secretion.

A minority of 46,XX true hermaphrodites are positive for the Y-DNA sequence including SRY

SummaryA total of 30 cases of 46,XX true hermaphroditism was analysed for Y-DNA sequences including the recently cloned gene for male testis-determination SRY. In 3 cases, a portion of the Y chromosome including SRY was present and, in 2 cases, was localised, to Xp22 by in situ hybridisation. Since previous studies have shown that the majority of XX males are generated by an X-Y chromosomal interchange, the Xp22 position of the Yp material suggests that certain cases of hermaphroditism can arise by the same meiotic event. The phenotype in the 3 SRY-positive cases may be caused by X-inactivation resulting in somatic mosaicism of testis-determining factor expression giving rise to both testicular and ovarian tissues. Autosomal or X-linked mutation(s) elsewhere in the sex-determining pathway may explain the phenotype observed in the remaining 27 SRY-negative cases.