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Idiopathic
Hypogonadotropic Hypogonadism
(IHH), a syndrome of GnRH deficiency, is characterized by varying degrees of sexual development disruption. When associated with anosmia, it is termed Kallmann Syndrome (KS). Although it was identified as a hereditary disorder over half a century ago, only during the last two decades have specific putative IHH genes been revealed, including: KAL1, GnRHR,
FGFR1
, GPR54, PROK2, PROKR2, FGF8, CHD7, TAC3 and TAC3R. Human mutations have shed light on the molecular control of GnRH neuronal embryogenesis and have elucidated elements critical in sexual development. Furthermore, the newly proposed oligogenic model has challenged the dogma of IHH being a single gene disorder and has heightened appreciation for the functional overlap of distinct signaling systems. This review offers an historical perspective to gene discoveries in IHH, genotype-phenotype correlations, and finally, discussion of the evolving complexity of the new IHH genetic model, no longer simply characterized by Mendelian inheritance.
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PMID:The genetics of idiopathic hypogonadotropic hypogonadism:unraveling the biology of human sexual development. 1939 25
Hypogonadotropic hypogonadism
(HH) is defined by the absence of sex steroid synthesis associated with the lack of appropriate gonadotrophin secretion. This leads to a variable degree of impuberism, often diagnosed during childhood or adolescence. Genetics of HH involve many genes. However, molecular defects have been identified in only 30 % of patients. Kallmann syndrome (KS) is defined by the association of HH and anosmia. Six genes are involved in KS (KAL1,
FGFR1
, FGF8, PROK2, PROKR2 and CHD7). However, genetics of KS is complex, because of the variability of the phenotype for a similar molecular defect. Otherwise, heterozygous anomalies are frequently described. Identification in the same patient of several mutations in some of these genes (digenism) could account for this variability. Autosomal recessive transmission is frequently observed in familial cases of HH without anosmia. Molecular alterations have been identified for several neuropeptides or their corresponding receptors, which are involved in the physiology of the gonadotropic axis : GNRHR, KISS1R/GPR54, neurokinin B (TAC3), TACR3 and GNRH1 (and PROK2, PROKR2 and CHD7). Anomalies of leptin or its receptor are also involved in HH cases. A new negative regulating element has been recently identified in humans : RFRP3, which is ortholog of the avian GnIH (gonadotrophin inhibitory hormone). Recent progress about these neuropeptides leads to a new model of comprehension of the gonadotropic axis physiology, from a linear model to a network model, which regulates the central element of regulation of the gonadotropic axis, represented by the GnRH neurons.
...
PMID:[Hypogonadotropic hypogonadism: new aspects in the regulation of hypothalamic-pituitary-gonadal axis]. 2123 29
Kallmann syndrome (KS) is a clinically and genetically heterogeneous disorder that occurs in either an inherited or a sporadic manner. KS results from failed embryonic migration of GnRH-1 neurons from the nasal placode to the hypothalamus, due to the abnormal development of olfactory nerves and bulbs.
Hypogonadotropic hypogonadism
is related to GnRH deficiency, and anosmia is associated with the absence or hypoplasia of olfactory bulbs and tracts. KS patients can also present some non-reproductive or non-olfactory anomalies in addition to the above typical symptoms. For the high complexity of the molecular genetic mechanism of KS, to date, only 6 KS-related genes have been identified. The KAL1 gene is responsible for the X chromosome-linked recessive form of KS, while the fibroblast growth factor receptor 1 (
FGFR1
/KAL2) and fibroblast growth factor 8 (FGF8/KAL6) genes are related to the autosomal dominant form of the disease. However, the mutations in these 6 genes account for only about 25 - 30% of all KS cases, which suggests that other pathogenic genes involved in KS remain to be discovered. This article presents an overview on the studies of the pathogenic genes, clinical diagnosis and treatment of KS.
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PMID:[Molecular genetics of Kallmann syndrome: an update]. 2154 17
Hypogonadotropic hypogonadism
(HH) often manifests as pubertal delay. A considerable proportion of cases of HH is due to genetic mutations. Recognizing those mutated genes and associated phenotypes may improve our diagnostic capabilities. GNRHR and TACR3 should be the first two genes to be screened in a clinical setting for equivocal cases such as constitutional delay in puberty versus idiopathic HH. In Kallmann syndrome (KS), according to the presence of certain accompanying clinical features, genetic screening for particular gene(s) may be prioritized: synkinesia (KAL1), dental agenesis (FGF8/
FGFR1
), bony anomalies (FGF8/
FGFR1
), and hearing loss (CHD7, SOX10). FEZF1 has recently been added to the growing list of KS genes. Also, discovery of mutations in KISS1/KISS1R and TAC3/TACR3 in kisspeptin and neurokinin B signaling, respectively, has provided major advancements in our understanding of the biology of the gonadotropin-releasing hormone pulse generator. Identification of further causative mutations accounting for the HH phenotype, which is now more feasible with the increasing popularity of whole exome sequencing, may provide deeper insight into the biology of the hypothalamic-pituitary-gonadal axis.
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PMID:Genetics of Hypogonadotropic Hypogonadism. 2668 May 71
