Three mutations (33 bp insertion in exon 1; W491* and I625K) were identified that explain the phenotype in two patients. In addition, most of the patients with the clinical phenotype of LCH did not have causative mutations, suggesting that changes in other regions of the LH receptor gene, such as the large introns or the promoter region, may be responsible for the majority of cases. Alternatively, the displayed phenotype may be the result of other genetic defects. Our work further underscores the importance of thorough clinical analysis of patients before molecular analysis of a particular gene is performed.
We describe the clinical features of severe sexual precocity in a 3.5-yr-old boy. Hormonal evaluation showed LH-independent T hypersecretion. Initial examination of the adrenals and testes revealed no evidence of congenital adrenal hyperplasia, hCG- or androgen-secreting tumors, or McCune-Albright syndrome. In the coding sequence of the LH receptor gene no activating mutation was found. Spironolactone (5.7 mg/kg x d) and testolactone (40 mg/kg x d) were unsuccessful in suppressing the elevated concentration of T. To further determine the origin of the elevated serum T, a selective venous sampling procedure was planned. However before the sampling procedure, high resolution ultrasound examination showed a small tumor in the left testis, which was removed. Histology proved the tumor to be a Leydig cell adenoma. Sequencing of the tumor LH receptor gene revealed a heterozygous mutation in exon 11 encoding a replacement of aspartic acid at position 578 with histidine, which has been shown to be a constitutively activating mutation. These findings indicate that in male patients with gonadotropin-independent sexual precocity, the presence of small testicular Leydig cell tumors harboring a somatic mutation of the LH receptor gene should be considered.
the somatic activating mutation (Asp578His) of the luteinising hormone receptor gene is not only present in Leydig cell adenomas, but can also be found in nodular Leydig cell hyperplasia. Venous sampling can play a vital role in determining the origin of elevated testosterone levels.
It is concluded that levels of activin A, follistatin and FSH in media of cultured nonfunctioning adenomas and gonadotroph adenomas are positively correlated. This suggests that these adenomas secrete FSH in response to the relatively high locally produced levels of activin A.
Objective: Leptin is known to play an important role in pubertal development in humans, probably acting as one permissive factor for the onset of puberty. Leptin serum concentrations change during pubertal development and an initial increase before the onset of puberty has been reported. The underlying mechanism for this increase in leptin levels is unknown. We hypothesized that the pulsatile release of GnRH stimulates leptin metabolism. In this study, the effect of short-term pulsatile GnRH administration on leptin levels in children with delayed onset of puberty was investigated. Methods: Nineteen children (15 males and four females, mean age 15.5 years, range 13.1 -20.5 years), who underwent evaluation for delayed sexual maturation, were included in the study. Sixteen subjects received 36 h of pulsatile intravenous GnRH, using an infusion pump that released 5 mg GnRH every 90 min. Serum concentrations of LH, FSH, testosterone, estradiol and leptin were analysed before and up to 36 h after GnRH administration. Eight patients received a single dose GnRH-agonist stimulation test (buserelin acetate test, 10 mg/kg body weight) with a 24-h followup (five patients underwent both tests). Results: Mean (^S.E.M.) serum leptin increased significantly (P, 0.01) after 36 h of pulsatile GnRH administration (7.26^1.35 vs 9.75^1.76 ng/ml). In contrast, no increase in leptin concentrations was observed after administration of a single dose of buserelin. Conclusions: These findings suggested that the increase in serum leptin at the onset of puberty is triggered by the pulsatile release of GnRH.European Journal of Endocrinology 150 691-698
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