EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The autosomal recessive spotting lethal (sl) rat phenotype is characterized by absence of intramural ganglion cells in the entire colon and distal small bowel, thus resembling the human Hirschsprung (HSCR) disease. A strategy for identifying the gene responsible for this rat defect was initiated by backcrossing DA x sl rats. After excluding linkage with two candidate genes, RET and Endothelin-3 (EDN3), a highly significant lod score (Z = 47.05 at theta = 0) was found between the Endothelin-B Receptor (EDNRB) gene and the sl phenotype. The exon-intron structure of this rat gene was reconstructed and each exon of the sl rat was screened for possible mutations. A 301 bp interstitial deletion, encompassing the distal half of the first coding exon (exon 2) and the proximal part of the adjacent intron, was demonstrated. This deletion results in two transcriptional products, 270 and 238 bp shorter than wild type cDNA. The discovery of the molecular defect underlying the sl rat phenotype should contribute to the understanding of the genetic heterogeneity of HSCR in man.
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PMID:Interstitial deletion of the endothelin-B receptor gene in the spotting lethal (sl) rat. 858 85

Hirschsprung disease (HSCR) or colonic aganglionosis is a congenital disorder characterized by an absence of intramural ganglia along variable lengths of the colon resulting in intestinal obstruction. The incidence of HSCR is 1 in 5,000 live births. Mutations in the RET gene, which codes for a receptor tyrosine kinase, and in EDNRB which codes for the endothelin-B receptor, have been shown to be associated with HSCR in humans. The lethal-spotted mouse which has pigment abnormalities, but also colonic aganglionosis, carries a mutation in the gene coding for endothelin 3 (Edn3), the ligand for the receptor protein encoded by EDNRB. Here, we describe a mutation of the human gene for endothelin 3 (EDN3), homozygously present in a patient with a combined Waardenburg syndrome type 2 (WS2) and HSCR phenotype (Shah-Waardenburg syndrome). The mutation, Cys159Phe, in exon 3 in the ET-3 like domain of EDN3, presumably affects the proteolytic processing of the preproendothelin to the mature peptide EDN3. The patient's parents were first cousins. A previous child in this family had been diagnosed with a similar combination of HSCR, depigmentation and deafness. Depigmentation and deafness were present in other relatives. Moreover, we present a further indication for the involvement of EDNRB in HSCR by reporting a novel mutation detected in one of 40 unselected HSCR patients.
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PMID:A homozygous mutation in the endothelin-3 gene associated with a combined Waardenburg type 2 and Hirschsprung phenotype (Shah-Waardenburg syndrome). 863 May 3

Familial predisposition to neuroblastoma, a common embryonal cancer of childhood, segregates as an autosomal dominant trait with high penetrance. It is therefore likely that neuroblastoma susceptibility is due to germ line mutations in a tumor suppressor gene. Cytogenetic, functional, and molecular studies have implicated chromosome band 1p36 as the most likely region to contain a suppressor gene involved in sporadic neuroblastoma tumorigenesis. We now demonstrate that neuroblastoma predisposition does not map to any of eight polymorphic markers spanning 1p36 by linkage analysis in three families. In addition, there is no loss of heterozygosity at any of these markers in tumors from affected members of these kindreds. Furthermore, there is strong evidence against linkage to two Hirschsprung disease (a condition that can cosegregate with neuroblastoma) susceptibility genes, RET and EDNRB. We conclude that the neuroblastoma susceptibility gene is distinct from the 1p36 tumor suppressor and the currently identified Hirschsprung disease susceptibility genes.
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PMID:Familial predisposition to neuroblastoma does not map to chromosome band 1p36. 875 5

Hirschsprung disease (HSCR), or aganglionic megacolon, is the most common cause of congenital intestinal obstruction. Two different loci have been found to be tightly linked to HSCR on chromosomes 10 and 13, respectively. Recently, mutations in the RET protooncogene on chromosome 10q11.2 were identified in several HSCR patients. In addition, a missense mutation in the endothelin-B receptor (EDNRB) gene on chromosome 13q22 was found in an inbred Mennonite kindred affected by HSCR and associated abnormalities, demonstrating the involvement of EDNRB in HSCR pathogenesis. To test whether mutations in the EDNRB gene could account for Hirschsprung in patients from non-inbred populations, we analysed DNA samples from 17 probands of Italian origin with HSCR. We have identified two novel EDNRB mutations: a missense mutation in a sporadic case, S305N, which leads to a change of a serine to an asparagine, disrupting a putative phosphorylation site; and a single nucleotide deletion in a familial case, N378I, resulting in a truncated protein. Both mutations were found in one of the healthy parents, and neither of these mutations were found in any of the normal individuals tested. These data confirm the involvement of EDNRB in HSCR pathogenesis and demonstrate that EDNRB mutations could contribute to HSCR disease in non-inbred populations.
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PMID:Endothelin-B receptor mutations in patients with isolated Hirschsprung disease from a non-inbred population. 885 59

Hirschsprung disease (HSCR), or congenital aganglionic megacolon, is the most common cause of congenital bowel obstruction with an incidence of 1 in 5000 live births. HSCR may be inherited as a single gene disorder with reduced penetrance or as a multigenic trait. HSCR mutations have been identified in the RET receptor tyrosine kinase, endothelin-B receptor (EDNRB) and its physiological ligand, endothelin 3 (EDN3). Although RET's ligand has remained elusive, it is expected to be an extracellular neurotrophic molecule expressed in the developing gut and kidney mesenchyme, based on the phenotypes of intestinal aganglionosis and renal agenesis observed in homozygous RET knockout (Ret -/-) mice. The glial cell line-derived neurotrophic factor (GDNF) is such a molecule. Recently, mice carrying two null alleles for Gdnf were shown to exhibit phenotypes remarkably similar to Ret-/- animals. We screened 106 unrelated HSCR patients for mutations in GDNF by direct sequencing. We identified one familial mutation in a HSCR patient with a known de novo RET mutation and malrotation of the gut. No haplotype sharing was evident in any of 36 HSCR kindreds typed for microsatellite markers surrounding GDNF on human chromosome 5p. Our data suggest that GDNF is a minor contributor to human HSCR susceptibility and that loss of its function in enteric neurogenesis may be compensated for by other neurotrophic factors or via other pathways. However, it may be that in rare instances, RET and GDNF mutations act in concert to produce an enteric phenotype.
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PMID:Germline mutations in glial cell line-derived neurotrophic factor (GDNF) and RET in a Hirschsprung disease patient. 889 68

The endothelin-B receptor gene (EDNRB) and the endothelin-3 gene (EDN3) have recently been recognized as susceptibility genes for Hirschsprung's disease (HD). Novel EDNRB mutations have been detected in non-syndromic HD patients with heterozygous forms, and homozygous mutations of the EDNRB or the EDN3 genes have been reported in HD patients associated with type 2 Waardenburg syndrome. These observations confirm that impaired function of the endothelin-B receptor or endothelin-3 is involved in the aetiology of some human HD cases. EDNRB mutations appear to be associated with short-segment HD, in contrast to RET mutations, which are found mainly in long-segment aganglionosis.
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PMID:Mutations of the endothelin-B receptor and endothelin-3 genes in Hirschsprung's disease. 903 3

To date, three genes have been identified as susceptibility genes for Hirschsprung's disease (HSCR), the RET proto-oncogene, the endothelin-B receptor gene (EDNRB) and the endothelin-3 gene (EDN3). However, the question of whether these genes play a role in sporadically occurring HSCR has not been fully clarified. In this study, the authors performed mutation analysis of these three genes in 41 sporadic HSCR patients without any family history by using single-strand conformational polymorphism or denaturing gradient gel electrophoresis methods. Exon 2, 3, 5, 6, 12, 13, 15, and 17 of the RET gene, 7 exons of the EDNRB gene, and the region of the EDN3 gene including sequences corresponding to proteolytic cleavage sites and mature endothelin-3 were analysed. By direct sequencing, three causative RET mutations were confirmed; a Phe to Ser substitution at codon 174, a Cys to Tyr substitution at codon 197, and a point mutation at the splice acceptor site of intron 12, in patients with aganglionosis confined to the rectosigmoid colon, the transverse colon, and the total colon, respectively. In the EDNRB locus, two mutations were observed; a nonsense mutation of Trp to stop at codon 275, and a T insertion at nucleotide 878, in patients with aganglionosis confined to the rectosigmoid colon, and the descending colon, respectively. No mutation was detected in the EDN3 gene. Mutation rates were 7.3% in the RET and 5% in the EDNRB gene. Our data indicate that RET and EDNRB mutations have a role in the aetiology of some sporadically occurring HSCR. However, the low mutation rate of susceptibility genes in sporadically occurring HSCR suggests that other genes or environmental factors are involved in the development of the disease.
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PMID:Mutation analysis of the RET, the endothelin-B receptor, and the endothelin-3 genes in sporadic cases of Hirschsprung's disease. 909 28

Many specific gene products are sequentially made and utilized by the melanocyte as it emigrates from its embryonic origin, migrates into specific target sites, synthesizes melanin(s) within a specialized organelle, transfers pigment granules to neighboring cells, and responds to various exogenous cues. A mutation in many of the respective encoding genes can disrupt this process of melanogenesis and can result in hypopigmentary disorders. Following are examples highlighting this scenario. A subset of neural crest derived cells emigrate from the dorsal surface of the neural tube, become committed to the melanoblast lineage, and are targeted along the dorsal lateral pathway. The specific transcription factors PAX3 and MITF (microphthalmia transcription factor) appear to play a regulatory role in early embryonic development of the pigment system and in associated diseases (the Waardenburg syndromes). During the subsequent development and commitment of the melanoblast, concomitant expression of the receptors for fibroblasts growth factor (FGFR2), endothelin-B (EDNRB), and steel factor (cKIT) also appears essential for the continued survival of migrating melanoblasts. Lack or dysfunction of these receptors result in Apert syndrome, Hirschsprung syndrome and piebaldism, respectively. Once the melanocyte resides in its target tissue, a plethora of melanocyte specific enzymes and structural proteins are coordinately expressed to form the melanosome and to convert tyrosine to melanin within it. Mutations in the genes encoding these proteins results in a family of congenital hypopigmentary diseases called oculocutaneous albinism (OCA). The tyrosinase gene family of proteins (tyrosinase, TRP1, and TRP2) regulate the type of eumelanin synthesized and mutations affecting them result in OCA1, OCA3, and slaty (in the murine system), respectively. The P protein, with 12 transmembrane domains localized to the melanosome, has no assigned function as of yet but is responsible for OCA2 when dysfunctional. There are other genetically based syndromes, phenotypically resembling albinism, in which the synthesis of pigmented melanosomes, as well as specialized organelles of other cell types, is compromised. The Hermansky-Pudlak syndrome (HPS) and the Chediak-Higashi syndrome (CHS) are two such disorders. Eventually, the functional melanocyte must be maintained in the tissue throughout life. In some cases it is lost either normally or prematurely. White hair results in the absence of melanocytes repopulating the germinative hair follicle during subsequent anagen stages. Vitiligo, in contrast, results from the destruction and removal of the melanocyte in the epidermis and mucous membranes.
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PMID:Molecular basis of congenital hypopigmentary disorders in humans: a review. 917 Jan 58

Hirschsprung disease is a congenital disorder clinically characterized by the absence of colonic ganglia and genetically by extensive heterogeneity. Genes involved include RET, GDNF, EDNRB and EDN3. Mutations of these genes may give dominant, recessive, or polygenic patterns of inheritance. In particular in the case of missense mutations, it is therefore far from easy to assess whether a given mutation will contribute to the phenotype. We discuss criteria for such an assessment and pay special attention to functional assays. The interpretation of mutations as contributing to a disease phenotype or as merely representing a rare polymorphism has direct clinical consequences. Hirschsprung disease with major and modifying sequence variants in a variety of genes might well serve as a model for the many complex disorders for which the search for genes involved has only just been initiated.
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PMID:Mutations in Hirschsprung disease: when does a mutation contribute to the phenotype. 935 36

Hirschsprung's disease is a neuronal dysplasia of the hindgut, characterised by a loss of neurones, which affects about 1 in 5000 live births. Genetic factors have been implicated in the aetiology of this disease in about 20% of cases and a dominant pattern of inheritance has been revealed in several families. The pathogenesis of the aganglionosis is often attributed to a failure of migration of neural crest cells, although this has not been proven. Recently, mutations in a developmentally regulated receptor tyrosine kinase gene, ret, and mutations in the endothelin receptor-B gene (ENDR-B) have both been linked to familial Hirschsprung's disease in humans. Moreover, certain mutant mouse strains--namely piebald lethal and lethal spotted--exhibit striking similarities to the human condition. The mutation which gives rise to piebald lethal has now been found to be in the ENDR-B gene, and the mutation associated with lethal spotted occurs in the gene for endothelin-3 (ET-3), a ligand for ENDR-B. Two transgenic mouse lines have been developed which also reflect the human disease: ret-k-, which has a loss of function mutation of the ret gene, and ENDR-B null. In addition, the introduction of a Lac-Z reporter gene into neural crest cells of aganglionic mice has made it possible to study directly the fate of enteric neuroblasts which are affected by "Hirschsprung's-like" mutations. Here, we review the possible roles of RET and endothelin in the normal development of the enteric nervous system, and the significance of their mutated forms in the pathogenesis of familial aganglionosis. This review focuses on recent advances in our understanding of the genetic basis of the lesions which have been implicated in congenital forms of Hirschsprung's disease. Disruption of these genes in the mouse, either by transgenic "knockout" approaches or in mutant mouse lines, offers the prospect of greater understanding of both the cellular and developmental bases of the human disease.
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PMID:Hirschsprung's disease: genetic mutations in mice and men. 939 Dec 39

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