Kallmann Syndrome: Mutations in the Genes Encoding Prokineticin-2 and Prokineticin Receptor-2

Dodé, Catherine; Teixeira, Luís Augusto; Levilliers, Jacqueline; Fouveaut, Corinne; Bouchard, Philippe; Kottler, Marie‐Laure; Lespinasse, James; Lienhardt-Roussie, Anne; Mathieu, M; Moerman, Alexandre; Morgan, Graeme; Murat, A.; Toublanc, Jean-Edmont; Wołczyński, Sławomir; Debouverie, Marc; Petit, Christine; Young, Jacques; Hardelin, Jean‐Pierre

doi:10.1371/journal.pgen.0020175.eor

Cited by 91 publications

(174 citation statements)

References 27 publications

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“…Genes encoding fibroblast growth factor 8 (FGF8) signalling pathway proteins, [17][18][19][20][21][22] chromodomain helicase DNA-binding protein 7 (CHD7) [23][24][25][26][27] and sex determining region Y-Box 10 (SOX10) 28,29 affect the neurogenic niche in the nasal area and craniofacial development. Conversely, Kallmann syndrome protein, which is now officially known as anosmin 1 (encoded by KAL1; following nomenclature change, the gene is now denoted as ANOS1), 2 prokineticin-2 and prokineticin receptor 2 (encoded by PROK2 and PROKR2, respectively), [30][31][32][33] WD repeat domain 11 (encoded by WDR11), 34,35 semaphorin 3A (encoded by SEMA3A) [36][37][38] and FEZ family zinc finger 1 (encoded by FEZF1) 39 influence migration of GnRH neurons.…”

Section: Biology Of the Gnrh Neuronal Systemmentioning

confidence: 99%

“…117,118 To date, >25 different genes have been implicated in Kallmann syndrome and/or CHH, which accounts for ~50% of cases. 21 Causative genes for Kallmann syndrome include: KAL1 (ANOS1) in the X-linked form; FGFR1 (encoding fibroblast growth factor receptor 1), 17,18 FGF8, 19,119 CHD7, [23][24][25][26][27] HS6ST1 (encoding heparan-sulphate 6-O-sulphotransferase 1), 20 SOX10, 28,29 SEMA3A (encoding semaphorin-3A), [36][37][38] WDR11 (encoding WD repeat-containing protein 11) 34,35 and IL17RD (encoding interleukin-17 receptor D) 21 in the autosomal dominant form; and PROKR2 and/or PROK2, [30][31][32][33] and FEZF1 39 in the autosomal recessive form, even though it should be noted that most patients carrying mutations in PROKR2 or PROK2 carry these mutations in the heterozygous state. 120,121 Genes involved in CHH that are associated with a normal sense of smell include GNRHR (encoding gonadotropinreleasing hormone receptor), 122,123 GNRH1 (encoding gonadotropin-releasing hormone 1), 124,125 KISS1R, 41,42 KISS1, 40,126 TACR3 and TAC3.…”

Section: Genetics Of Chhmentioning

confidence: 99%

“…Such an observation led to the hypothesis that multiple gene defects could synergize to produce a more severe CHH phenotype (that is, oligo genicity). 30,128 Studies in large CHH cohorts indicate that at least 20% of cases are oligogenic 11,21 (Table 1). …”

Section: Genetics Of Chhmentioning

confidence: 99%

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European Consensus Statement on congenital hypogonadotropic hypogonadism—pathogenesis, diagnosis and treatment

et al. 2015

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| Congenital hypogonadotropic hypogonadism (CHH) is a rare disorder caused by the deficient production, secretion or action of gonadotropin-releasing hormone (GnRH), which is the master hormone regulating the reproductive axis. CHH is clinically and genetically heterogeneous, with >25 different causal genes identified to date. Clinically, the disorder is characterized by an absence of puberty and infertility. The association of CHH with a defective sense of smell (anosmia or hyposmia), which is found in ~50% of patients with CHH is termed Kallmann syndrome and results from incomplete embryonic migration of GnRHsynthesizing neurons. CHH can be challenging to diagnose, particularly when attempting to differentiate it from constitutional delay of puberty. A timely diagnosis and treatment to induce puberty can be beneficial for sexual, bone and metabolic health, and might help minimize some of the psychological effects of CHH. In most cases, fertility can be induced using specialized treatment regimens and several predictors of outcome have been identified. Patients typically require lifelong treatment, yet ~10-20% of patients exhibit a spontaneous recovery of reproductive function. This Consensus Statement summarizes approaches for the diagnosis and treatment of CHH and discusses important unanswered questions in the field.

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Section: Biology Of the Gnrh Neuronal Systemmentioning

confidence: 99%

Section: Genetics Of Chhmentioning

confidence: 99%

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European Consensus Statement on congenital hypogonadotropic hypogonadism—pathogenesis, diagnosis and treatment

et al. 2015

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“…15,16 In some families, both typical KS phenotypes and dissociated phenotypes with either hypogonadism or anosmia have been described. 7,10,13,14,17 In addition, apparent reversal of the hypogonadism after discontinuation of hormonal treatment has been reported in a few KS patients. 9,18,19 Finally, a variety of non-reproductive non-olfactory additional anomalies are present in only a fraction of KS patients.…”

Section: Clinical Overviewmentioning

confidence: 99%

“…In the autosomal dominant form, incomplete penetrance has been emphasized. 5,61 Five causal genes have been identified to date, namely, by chronological order of discovery, KAL1, 62 -64 FGFR1, 7 PROKR2 and PROK2, 10 and FGF8. 65 Various loss-of-function mutations in KAL1, encoding the extracellular matrix glycoprotein anosmin-1, and in FGFR1 or FGF8, encoding fibroblast growth factor receptor-1 and fibroblast growth factor-8, underlie the X chromosome-linked form (KAL1) and an autosomal dominant form (KAL2) of KS, respectively (see Supplementary Tables S1, S2 and S3 for a list of the mutations).…”

Section: The Complex Genetics Of Ksmentioning

confidence: 99%

Kallmann syndrome

2008

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The Kallmann syndrome (KS) combines hypogonadotropic hypogonadism (HH) with anosmia. This is a clinically and genetically heterogeneous disease. KAL1, encoding the extracellular glycoprotein anosmin-1, is responsible for the X chromosome-linked recessive form of the disease. Mutations in FGFR1 or FGF8, encoding fibroblast growth factor receptor-1 and fibroblast growth factor-8, respectively, underlie an autosomal dominant form with incomplete penetrance. Finally, mutations in PROKR2 and PROK2, encoding prokineticin receptor-2 and prokineticin-2, have been found in heterozygous, homozygous, and compound heterozygous states. These two genes are likely to be involved both in monogenic recessive and digenic/oligogenic KS transmission modes. Notably, mutations in any of the above-mentioned KS genes have been found in less than 30% of the KS patients, which indicates that other genes involved in the disease remain to be discovered.

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The Adhesion Molecule Anosmin-1 in Neurology: Kallmann Syndrome and Beyond

Castro

Esteban

Bribián

et al. 2013

Advances in Neurobiology

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Anosmin-1 is the glycoprotein encoded by the KAL1 gene and part of the extracellular matrix, which was fi rst identifi ed as defective in human Kallmann syndrome (KS, characterised by hypogonadotropic hypogonadism and anosmia); biochemically it is a cell adhesion protein. The meticulous biochemical dissection of the anosmin-1 domains has identifi ed which domains are necessary for the protein to bind its different partners to display its biological effects. Research in the last decade has unravelled different roles of anosmin-1 during CNS development (axon pathfi nding, axonal collateralisation, cell motility and migration), some of them intimately related with the cited KS but not only with this. More recently, anosmin-1 has been identifi ed in other pathological scenarios both within (multiple sclerosis) and outside (cancer, atopic dermatitis) the CNS.

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Kallmann Syndrome: Mutations in the Genes Encoding Prokineticin-2 and Prokineticin Receptor-2

Cited by 91 publications

References 27 publications

European Consensus Statement on congenital hypogonadotropic hypogonadism—pathogenesis, diagnosis and treatment

European Consensus Statement on congenital hypogonadotropic hypogonadism—pathogenesis, diagnosis and treatment

Kallmann syndrome

The Adhesion Molecule Anosmin-1 in Neurology: Kallmann Syndrome and Beyond

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