Abstract
Kallmann Syndrome is a heritable disorder characterized by congenital anosmia, hypogonadotropic hypogonadism and, less frequently, by other symptoms. The X-linked form of this syndrome is caused by mutations affecting the KAL1 gene that codes for the extracellular protein anosmin-1. Investigation of KAL1 function in mice has been hampered by the fact that the murine ortholog has not been identified. Thus studies performed in other animal models have contributed significantly to an understanding of the function of KAL1. In this review, the main results obtained using the two invertebrate models, the nematode worm Caenorhabditis elegans and the fruit fly Drosophila melanogaster, are illustrated and the contribution provided by them to the elucidation of the molecular pathogenesis of Kallmann Syndrome is discussed in detail. Structure-function dissection studies performed in these two animal models have shown how the different domains of anosmin-1 carry out specific functions, also suggesting a novel intramolecular regulation mechanism among the different domains of the protein. The model that emerges is one in which anosmin-1 plays different roles in different tissues, interacting with different components of the extracellular matrix. We also describe how the genetic approach in C. elegans has allowed the discovery of the genes involved in KAL1-heparan sulfate proteoglycans interactions and the identification of HS6ST1 as a new disease gene. Keywords: CeKal-1, DmKal-1, Morphogenesis, Axon branching, Animal models, Extracellular matrix, Pathogenesis, Caenorhabditis elegans, sulfate proteoglycans interactions, Drosophila melanogaster.
Highlights
Kallmann Syndrome is a genetic heterogeneous disorder characterized by two main symptoms, anosmia and hypogonadotropic hypogonadism
Different genes involved in this disease have been identified and their role in the molecular pathogenesis is becoming more clear
In this review we summarized the contribution to the understanding of the molecular pathogenesis of Kallmann SyndromeKallmann Syndrome (KS) provided by the two invertebrate model organisms, Caenorhabditis elegans and Drosophila melanogaster
Summary
Kallmann Syndrome (KS) is a congenital disorder in which anosmia or severe hyposmia (deficient sense of smell) is combined with hypogonadotropic hypogonadism (HH) and, less frequently, with synkinesia (mirror movements), mental retardation, cryptorchidism, cleft lip and/or palate, unilateral renal agenesis and others symptoms [1,2,3,4,5]. In a genetic screening performed in C. elegans, several mutations were isolated that selectively suppressed the axon branching phenotype of the AIY neuron induced by CeKAL1 overexpression [24] One of these mutations was mapped to the heparan-6-O-sulfotransferase gene (hst-6), which encodes an enzyme that catalyzes the transfer of a sulfate moiety to the glucosamine residue in position 6. A weak interaction between anosmin-1 and FGFR2c was demonstrated, and it required the CR region and the WAP domains but only to have an optimal FGFR binding These cell culture data confirm that the CR and the WAP domain may have a regulatory role on the function of the FnIII domains, as suggested by the experiments in C. elegans and Drosophila described above. This work offers the first in vivo demonstration of the role of anosmin-1 as an important modulator of the interaction among HSPGs/FGF/FGFR and confirms the existence of other pathways, not involving FGFR, in which anosmin-1 and HSPGs may have a similar modulatory role
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