Ovulation induction in women with polycystic ovary syndrome: an update.

Infertility is frequently caused by anovulation. The affected women present with irregular menstrual cycles and the most common diagnosis is polycystic ovary syndrome. Ovulation induction is commonly used to treat these women. Clomiphene citrate (a selective estrogen receptor modulator or SERM) remains the most used medication for treating this condition. Alternatives that have been used include other SERMs such as tamoxifen, aromatase inhibitors, insulin sensitizing agents, and ovarian drilling. Evidence for and against the effectiveness of these agents has fluctuated over the last decade. Controversies surrounding the use of ovulation induction such as development of functional cysts, high-order multiple births, and development of ovarian cancer have been further studied and some controversies have almost been laid to rest in the last decade.

Nasal embryonic LHRH factor (NELF) mutations in patients with normosmic hypogonadotropic hypogonadism and Kallmann syndrome.

OBJECTIVE: To determine if mutations in NELF, a gene isolated from migratory GnRH neurons, cause normosmic idiopathic hypogonadotropic hypogonadism (IHH) and Kallmann syndrome (KS). DESIGN: Molecular analysis correlated with phenotype. SETTING: Academic medical center. PATIENT(S): A total of 168 IHH/KS patients as well as unrelated control subjects were studied for NELF mutations. INTERVENTION(S): NELF coding regions/splice junctions were subjected to polymerase chain reaction (PCR)-based DNA sequencing. Eleven additional IHH/KS genes were sequenced in three patients with NELF mutations. MAIN OUTCOME MEASURE(S): Mutations were confirmed by sorting intolerant from tolerant, reverse-transcription (RT)-PCR, and Western blot analysis. RESULT(S): Three novel NELF mutations absent in 372 ethnically matched control subjects were identified in 3/168 (1.8%) IHH/KS patients. One IHH patient had compound heterozygous NELF mutations (c.629-21G>C and c.629-23C>G), and he did not have mutations in 11 other known IHH/KS genes. Two unrelated KS patients had heterozygous NELF mutations and mutation in a second gene: NELF/KAL1 (c.757G>A; p.Ala253Thr of NELF and c.488_490delGTT; p.Cys163del of KAL1) and NELF/TACR3 (c.1160-13C>T of NELF and c.824G>A; p.Trp275X of TACR3). In vitro evidence of these NELF mutations included reduced protein expression and splicing defects. CONCLUSION(S): Our findings suggest that NELF is associated with normosmic IHH and KS, either singly or in combination with a mutation in another gene.

Genotype and phenotype of patients with gonadotropin-releasing hormone receptor mutations.

Human mutations in the gonadotropin-releasing hormone receptor (GNRHR) gene cause autosomal recessive, normosmic idiopathic hypogonadotropic hypogonadism (IHH). At least 19 different mutations have been identified in this G-protein-coupled receptor, which consist mostly of missense mutations. The Gln106Arg and Arg262Gln mutations comprise nearly half of the identified alleles. Most mutations impair ligand binding and all compromise cell signaling events. Some of the mutations also adversely affect activation of gonadotropin subunit or Gnrhr gene promoters. Interestingly, a number of the mutant GnRHRs can be rescued in vitro from misfolding and degradation within the cell by the addition of a GnRHR antagonist IN3. Most affected patients have compound heterozygous GNRHR mutations that may cause either complete IHH (no evidence of puberty) or incomplete IHH (partial evidence of puberty), although some genotypes are associated with mild disease in some families and severe disease in others. GNRHR mutations also appear to cause constitutional delay of puberty, and one genotype (homozygosity for Gln106Arg) may be reversible in patients with IHH. Mutations in the human GNRHR gene have contributed greatly to the understanding of normosmic IHH, as well as the structure and function of the GnRHR.

NELF is a nuclear protein involved in hypothalamic GnRH neuronal migration.

Nasal embryonic LHRH factor (NELF) has been hypothesized to participate in the migration of GnRH and olfactory neurons into the forebrain, a prerequisite for normal hypothalamic-pituitary-gonadal function in puberty and reproduction. However, the biological functions of NELF, which has no homology to any human protein, remain largely elusive. Although mRNA expression did not differ, NELF protein expression was greater in migratory than postmigratory GnRH neurons. Pituitary Nelf mRNA expression was also observed and increased 3-fold after exogenous GnRH administration. Contrary to a previous report, NELF displayed predominant nuclear localization in GnRH neurons, confirmed by mutagenesis of a putative nuclear localization signal resulting in impaired nuclear expression. NELF knockdown impaired GnRH neuronal migration of NLT cells in vitro. These findings and the identification of two putative zinc fingers suggest that NELF could be a transcription factor. Collectively, our findings implicate NELF as a nuclear protein involved in the developmental function of the reproductive axis.

Clinical manifestations of impaired GnRH neuron development and function.

Gonadotropin-releasing hormone (GnRH) and olfactory neurons migrate together in embryologic development, and disruption of this process causes idiopathic hypogonadotropic hypogonadism (IHH) with anosmia (Kallmann syndrome (KS)). Patients with IHH/KS generally manifest irreversible pubertal delay and subsequent infertility due to deficient pituitary gonadotropins or GnRH. The molecular basis of IHH/KS includes genes that: (1) regulate GnRH and olfactory neuron migration; (2) control the synthesis or secretion of GnRH; (3) disrupt GnRH action upon pituitary gonadotropes, or (4) interfere with pituitary gonadotropin synthesis or secretion. KS patients may also have midline facial defects indicating the diverse developmental functions of genes involved. Most causative genes cause either normosmic IHH or KS except FGFR1, which may cause either phenotype. Recently, several balanced chromosomal translocations have been identified in IHH/KS patients, which could lead to the identification of new disease-producing genes. Although there are two cases reported who have digenic disease, this awaits confirmation in future larger studies. The challenge will be to determine the importance of these genes in the 10-15% of couples with normal puberty who have infertility.

The genetics of hypogonadotropic hypogonadism.

An up-to-date review of the genetic aspects of idiopathic hypogonadotropic hypogonadism (IHH)/Kallmann syndrome (KS) is presented. Because proper development of the neuroendocrine axis must occur for normal puberty and reproductive function, gonadotropin-releasing hormone (GnRH) neuron migration is outlined first, followed by an introduction to the in vitro analysis of GnRH neuron migration. The normal hypothalamic-pituitary-gonadal (HPG) axis at different ages is discussed, along with a brief overview of normal and delayed puberty in both boys and girls. The phenotype of IHH/KS is discussed in detail, with its relation to Mendelian inheritance and chromosomal translocations. The molecular basis of IHH/KS is reviewed, with particular emphasis on the three most common genes ( KAL1, FGFR1, and GNRHR) that possess mutations in these patients. However, all other known genes for which mutations occur are also addressed briefly. The goal of this review is to provide a comprehensive discussion of IHH/KS, and to include both basic science and clinical findings that should allow a more complete understanding of hypothalamic-pituitary neuroendocrinology that is important in puberty and reproduction.

KAL1 mutations are not a common cause of idiopathic hypogonadotrophic hypogonadism in humans.

Hypogonadotrophic hypogonadism results in the absence of puberty and if left untreated leads to infertility. Mutations in KAL1 are known to account for some of the cases of Kallmann syndrome. The aim of this study was to determine the prevalence of KAL1 mutations in a large number of patients with idiopathic hypogonadotrophic hypogonadism (IHH). One hundred and thirty eight patients (109 males and 29 females) with IHH were studied for mutations in KAL1. DNA from these patients was subjected to denaturing gradient gel electrophoresis or single strand conformation polymorphism to identify mutations. Sequencing was performed to confirm mutations detected. Four mutations were found in 109 males (3.7%). All four mutations were in anosmic/hyposmic men making the prevalence 4/63 (6.3%) in this group of patients. No mutations were found in the 29 female patients. KAL1 mutations are an uncommon cause of Kallmann syndrome.

Clinical and molecular characterization of a large sample of patients with hypogonadotropic hypogonadism.

OBJECTIVE: To characterize the phenotype, modes of inheritance, karyotype, and molecular basis of patients with idiopathic hypogonadotropic hypogonadism (IHH). DESIGN: Review of medical records, karyotyping, and collation of gene mutation analysis. SETTING: University molecular reproductive endocrinology laboratory. PATIENT(S): Patients with IHH. INTERVENTION(S): Review of medical records, laboratory studies, and molecular studies. MAIN OUTCOME MEASURE(S): Sense of smell, severity of IHH (complete vs. incomplete), associated anomalies, karyotype, mutation analysis, and genotype/phenotype correlations were studied. RESULT(S): Of 315 patients with IHH, 6.3% had one or more affected relatives. Autosomal recessive inheritance was likely in most of these familial cases, but autosomal-dominant and X-linked recessive inheritance patterns were likely in some families. Complete IHH was more commonly found in males (62%), whereas incomplete IHH was more commonly observed in females (54.3%). Anosmia was present in 31.3% of males and 27.9% of females. The karyotype was normal in all 19 females tested, but was abnormal in 3 of 57 (5.3%) of males tested. Although cryptorchidism did not differ among those who were anosmic vs. normosmic, it was approximately four times more common in patients with complete IHH than incomplete IHH (15.3% vs. 3.9%). Approximately 10% of the IHH patients tested had mutations in either the GNRHR or KAL1 gene. CONCLUSION(S): Idiopathic hypogonadotropic hypogonadism is a heterogeneous disorder affecting fertility, in which the number of familial cases is probably underestimated. Further study of genes that regulate hypothalamic-pituitary development and function will likely reveal important information regarding the development of normal puberty in humans.

The prevalence of gonadotropin-releasing hormone receptor mutations in a large cohort of patients with hypogonadotropic hypogonadism.

OBJECTIVE: To determine the prevalence of GNRH receptor (GNRHR) gene mutations in a large cohort of patients with idiopathic hypogonadotropic hypogonadism (IHH). DESIGN: Molecular analysis and genotype/phenotype correlations. SETTING: University molecular reproductive endocrinology laboratory. PATIENT(S): North American and Turkish patients with IHH. INTERVENTION(S): DNA from 185 IHH patients were subjected to denaturing gradient gel electrophoresis for exons and splice junctions of the GNRHR gene. Variant fragments were sequenced. MAIN OUTCOME MEASURE(S): GNRHR mutations were characterized and compared with the phenotype. The prevalence of GNRHR mutations was also determined. RESULT(S): Three of 185 (1.6%; confidence interval [CI] 0.3%-4.7%) total IHH patients demonstrated compound heterozygous GNRHR mutations. All three were identified from a cohort of 85 normosmic patients (3.5%, CI 0.73%-7.5%), and none were demonstrated in hyposmic or anosmic IHH patients. GNRHR mutations were identified in 1 of 15 (6.7%; CI 0.2%-32.0%) families with at least two affected siblings, and in 2 of 18 (11.1%; CI 1.4%-34.7%) normosmic females. None were found in presumably autosomal dominant families. CONCLUSION(S): GNRHR mutations account for approximately 3.5% of all normosmic and 7%-11% of presumed autosomal recessive IHH, suggesting that additional genes play an important role in normal puberty. We believe this to be the largest GNRHR gene mutation analysis performed to date in a population of IHH patients.

Gonadal effects on plasma ACE activity in mice.

Angiotensin-converting enzyme (ACE) regulates blood pressure and is an important target in the management of hypertension. Hypertension is a gender biased disease. Plasma ACE activity is significantly higher in male mice (309 U/l) than female mice (237 U/l) and is reduced significantly upon gonadectomy to 224 and 209 U/l, respectively. Although, the gonads influence plasma ACE activity in both male and female mice, the effect is more pronounced in male mice. Plasma ACE is derived from the cleavage of tissue ACE and lung has the highest concentration of tissue ACE. However, lung ACE activity is not gender dimorphic but increases significantly upon gonadectomy in both male and female. ACE mRNA level in the lung is not influenced by gender or gondaectomy. Therefore, the gonads affect plasma ACE activity by influencing cleavage of tissue ACE to plasma ACE and/or decrease stability of plasma ACE in gonadectomized mice is mediated.