Mutations in GPR54, a G protein-coupled receptor gene, cause autosomal recessive idiopathic hypogonadotropic hypogonadism in humans and mice, suggesting that this receptor is essential for normal gonadotropin-releasing hormone physiology and for puberty.
Objective: To determine the frequency of rare nucleotide variants in GNRHR and GPR54 in a large cohort of probands (nZ166) with normosmic idiopathic hypogonadotropic hypogonadism (nIHH), characterized by mode of inheritance, testicular volume, and presence or absence of endogenous LH pulsations. Methods: Whenever possible, probands answered detailed questionnaires, underwent full physical exams, and underwent q 10-min frequent blood sampling for LH. Exons segments for GNRHR and GPR54 were screened for mutations. Nucleotide changes were identified as rare variants if they occurred at less than 1% frequency in an ethnically matched control population. Results: Sixty-two percent of male probands were classified as sporadic, meaning that no other family members had delayed puberty or nIHH. In contrast, 61% of female probands were from familial pedigrees, with either autosomal dominant or autosomal recessive inheritance. Patients displayed a broad spectrum of disease severity based on testicular size and endogenous LH pulsations. Twenty-four rare variants were identified in GNRHR (within 15 probands) and seven rare variants in GPR54 (within five probands). Conclusions: Rare variants in GNRHR are more common than GPR54 in a nIHH population.European Journal of Endocrinology 155 S3-S10
Failure of the normal pattern of episodic secretion of GnRH from the hypothalamus results in the clinical syndrome of idiopathic hypogonadotropic hypogonadism (IHH), with failure of pubertal development and infertility. The only gene that has been implicated in normosmic IHH is the GnRH receptor gene (GNRHR), which accounts for 10% of cases. This report presents four families with autosomal recessive IHH, including a consanguineous pedigree from the Middle East. Defects within the genomic coding sequence of the GNRHR, and the GnRH gene itself, GNRH1, were excluded by temperature gradient gel electrophoresis, direct sequencing, and haplotypes created from simple sequence polymorphisms flanking the GNRH1 and GNRHR loci. We concluded that: 1) genetic analysis has excluded sequence variations in GNRH1 and GNRHR in four families with recessive IHH, suggesting the existence of a novel, as-yet-undiscovered gene for this condition, and 2) because mutation analysis of genomic coding sequence will fail to detect mutations deep within introns or regulatory regions, haplotype analysis is the preferred genetic methodology to eliminate the role of specific candidate genes.
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