EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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We report the characterization of a dense cluster of CpG islands at D10S94 in proximal 10q11.2. D10S94 is tightly linked to the gene responsible for multiple endocrine neoplasia type 2A (MEN 2A), a dominantly inherited tumor syndrome characterized by medullary thyroid carcinoma (MTC), pheochromocytoma, and/or parathyroid adenoma. To date, no recombinants between D10S94 and MEN2A have been identified. The gene(s) responsible for two additional dominantly inherited disorders involving cancer of the medullary thyroid, MEN 2B (MEN2B), and dominantly inherited MTC without additional clinical features (MTC1), also map to this region. The gene or genes responsible for these disorders may be located at or near the D10S94 locus. A 570-kb long-range restriction map has been generated by pulsed-field gel electrophoresis using probes developed during a 160-kb bidirectional cosmid walk at D10S94. Six CpG islands are clustered within a 180-kb region; five fall within a 145-kb NotI restriction fragment that is contained in its entirety in our cosmid contig. The SacII, SfiI, and NotI restriction maps for lymphoblast and cloned DNA are concordant. These CpG islands may represent the 5' ends of candidate genes for MEN2A, MEN2B, and/or MTC1. One gene designated mcs94-1, which is associated with one of the CpG islands in this cluster, has been isolated and characterized in detail.
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PMID:A cluster of CpG islands at D10S94, near the locus responsible for multiple endocrine neoplasia type 2A (MEN2A). 135 67

Gene(s) for the autosomal dominant endocrine cancer syndromes, multiple endocrine neoplasia type 2A (MEN2A), multiple endocrine neoplasia type 2B (MEN2B), and familial medullary thyroid carcinoma (MTC1) all map to the pericentromeric region of chromosome 10. Predictive testing for the inheritance of mutant alleles in individuals at risk for these disorders has been limited by the availability of highly informative and closely linked flanking markers. We describe the development of eight new markers, including two PCR-based dinucleotide repeat polymorphisms and six RFLPs that flank the disease loci. One of the dinucleotide repeat markers (sJRH-1) derives from the RBP3 locus on 10q11.2 and has a PIC of .88. The other dinucleotide repeat (sTCL-1) defines a new locus, D10S176, that maps by in situ hybridization to 10p11.2 and has a PIC of .68. We have constructed a new genetic linkage map of the pericentromeric region of chromosome 10, on the basis of 13 polymorphisms at six loci, which places the MEN2A locus between the dinucleotide repeat markers, with odds of 5,750:1 over the next most likely position. Using this set of markers, predictive genetic testing of 130 at-risk individuals from six families segregating MEN2A revealed that 95% were jointly informative with flanking markers, representing a significant improvement in genetic testing capabilities.
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PMID:Improved predictive test for MEN2, using flanking dinucleotide repeats and RFLPs. 136 Nov 2

Medullary thyroid carcinoma (MTC) occurs as a component of three well-described autosomal dominant familial cancer syndromes. Multiple endocrine neoplasia type 2A (MEN 2A) is characterized by MTC, pheochromocytomas, and parathyroid hyperplasia. Patients with the rarer multiple endocrine neoplasia type 2B (MEN 2B) syndrome develop MTC and pheochromocytomas, as well as mucosal neuromas, ganglioneuromatosis of the gastrointestinal tract, and a characteristic "marfanoid" habitus. Finally, MTC is transmitted in an autosomal dominant pattern in some families without associated pheochromocytomas or parathyroid hyperplasia (familial medullary thyroid carcinoma, MTC1(2). Sixty-one members of two well-characterized kindreds segregating MTC1 and 34 [corrected] members of six families segregating MEN2B were genotyped using a panel of RFLP probes from the pericentromeric region of chromosome 10 near a locus for MEN 2A. Statistically significant linkage was observed between the chromosome 10 centromere-specific marker D10Z1 and MTC1 (maximum pairwise lod score 5.88 with 0% recombination) and D10Z1 and MEN2B (maximum pairwise lod score 3.58 with 0% recombination). A maximum multipoint lod score of 4.08 was obtained for MEN2B at the position of D10Z1. In addition, 92 members of a previously unreported large MEN2A kindred were genotyped, and linkage to the pericentromeric region of chromosome 10 is reported (maximum pairwise lod score of 11.33 with 0% recombination between MEN2A and RBP3). These results demonstrate that both a locus for familial MTC and a locus for MEN 2B map to the pericentromeric region of chromosome 10, in the same region as a locus for MEN 2A. The finding that each of these three clinically distinct familial cancer syndromes maps to the same chromosomal region suggests that all are allelic mutations at the same locus or represent a cluster of genes involved in the regulation of neuroendocrine tissue development.
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PMID:Familial medullary thyroid carcinoma and multiple endocrine neoplasia type 2B map to the same region of chromosome 10 as multiple endocrine neoplasia type 2A. 167 89

We describe a high-resolution radiation hybrid map of the proximal long arm of human chromosome 11 containing the bcl-1 and multiple endocrine neoplasia type 1 (MEN-1) disease gene loci. We used X-ray irradiation and cell fusion to generate a panel of 102 hamster-human somatic cell hybrids containing fragments of human chromosome 11. Sixteen human loci in the 11q12-13 region were mapped by statistical analysis of the cosegregation of markers in these radiation hybrids. The most likely order for these loci is C1NH-OSBP-(CD5/CD20)-PGA-FTH1-COX8-PYGM -SEA-KRN1-(MTC/P11EH/HSTF1/INT2)-GST3- PPP1A. Our localization of the human protooncogene SEA between PYGM and INT2, two markers that flank MEN-1, suggests SEA as a potential candidate for the MEN-1 locus. We map two mitogenic fibroblast growth factor genes, HSTF1 and INT2, close to bcl-1, a mapping that is consistent with previously published data. Our map places the human leukocyte antigen genes CD5 and CD20 far from the bcl-1 locus, indicating that CD5 and CD20 expression is unlikely to be altered by bcl-1 rearrangements. PPP1A, which has been postulated as a MEN-1 candidate tumor suppressor gene, and GST3, a gene transcriptionally active in many human cancers, both map distal to the bcl-1 translocation cluster and the region containing MEN-1, and therefore are unlikely to be directly involved in bcl-1 or MEN-1.
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PMID:A radiation hybrid map of the proximal long arm of human chromosome 11 containing the multiple endocrine neoplasia type 1 (MEN-1) and bcl-1 disease loci. 168 84

The RET proto-oncogene, a transmembrane tyrosine kinase receptor, is involved in the development of at least five different disease phenotypes. RET is activated through somatic rearrangements in a number of cases of papillary thyroid carcinoma while germ-line point mutations are associated with three inherited cancer syndromes MEN 2A, MEN 2B and FMTC. Moreover, point mutations or heterozygous deletions of RET are found in the dominant form of Hirschsprung disease or congenital colonic aganglionosis. We cloned the entire RET genomic sequence in a contig of cosmids encompassing 150 kb, from the CA repeat sTCL-2 to the region upstream the RET promoter, and established the position of the 20 exons of the RET gene with respect to a detailed restriction map based on eight endonucleases. A new highly polymorphic CA repeat sequence was identified within intron 5 of RET (RET-INT5). Finally the orientation of RET on chromosome 10q11.2 made it possible to orientate three other genes rearranged with RET in papillary thyroid carcinomas, namely H4/D10S170 on 10q21, R1 alpha on 17q23 and RFG2/Ele1 on 10q11.2.
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PMID:The physical map of the human RET proto-oncogene. 747 1

The International RET Mutation Consortium was first convened as part of the Fifth International Workshop on Multiple Endocrine Neoplasia, Stockholm, Sweden, in an attempt to analyse the relationship of RET mutation and disease phenotype in the autosomal dominantly inherited multiple endocrine neoplasia type 2 (MEN 2) syndromes. Out of 361 families studied, 41% had MEN 2A, 17.7% MEN 2B, 6.4% FMTC and the remaining subjects were unclassified. RET mutations were detected in 87.3% of families overall. Over 93% of MEN 2B families had the RET 918 ATG-->ACG mutation, while the most frequent mutation detected in MEN 2A families was cysteine codon 634 (87% of all mutations).
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PMID:Genotype-phenotype correlation in multiple endocrine neoplasia type 2: report of the International RET Mutation Consortium. 759 70

Germline mutations within one of six codons of the RET proto-oncogene account for the majority of cases of multiple endocrine neoplasia (MEN) type 2A and type 2B and familial medullary thyroid carcinoma (FMTC). MEN 2A and FMTC mutations characterised thus far occur exclusively in the cysteine-rich domain of the extracellular region of RET. We now report a missense mutation in the intracellular tyrosine kinase domain of RET in the germline of a family with FMTC that does not have a cysteine codon mutation. In this family, the mutation, which alters GAG (Glu) to GAC (Asp) at codon 768, segregates with the FMTC phenotype. The same mutation was also detected in sporadic MTC but not in corresponding constitutional DNA, confirming that it is likely to be of pathological significance rather than a rare polymorphism.
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PMID:A novel point mutation in the tyrosine kinase domain of the RET proto-oncogene in sporadic medullary thyroid carcinoma and in a family with FMTC. 784 75

Constitutional mutations of the RET proto-oncogene have been identified in multiple endocrine neoplasia type 2A (MEN 2A), type 2B (MEN 2B) and familial medullary thyroid carcinoma (FMTC) families. We sequenced RET exons 10 and 11 in 86 unrelated patients with an inherited predisposition to MTC (excluding MEN 2B). Germ-line mutations were identified in 93% of the MEN 2A families and 67% of the FMTC families tested. All were missense mutations affecting one of three cysteines in the extracellular domain of the RET tyrosine kinase receptor. The prevalence of phaeochromocytoma and hyperparathyroidism was significantly higher in families with a mutation of cysteine 634. These data confirm the preferential localisation of MEN 2A and FMTC associated mutations and the strong correlation between clinical manifestations and the position of RET mutation. Although direct sequencing of RET exons 10 and 11 allows the identification of a constitutional mutation in a large proportion of MEN 2A and FMTC families, our data sustain the existence of other MTC predisposing mutations elsewhere in RET coding or regulating region.
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PMID:RET proto-oncogene mutations in French MEN 2A and FMTC families. 787 9

Ten kindreds (95 individuals) with multiple endocrine neoplasia, type 2 (MEN 2) were analyzed by linkage analysis using four highly polymorphic (CA)n-repeat markers (sTCL-1, D10S141, ZNF22, and sJRH-1). Additionally, we examined the RET proto-oncogene for specific mutations by DNA sequence analyses in these 10 plus 14 members of 3 additional kindred. Nine families had MEN 2A, two had MEN 2B, and two had medullary thyroid cancer alone (FMTC). Using these four markers, all 10 kindreds were informative, with 10 individuals predicted to be presymptomatic MEN 2 gene carriers and 23 individuals predicted not to be carriers. DNA sequence analysis of exons 10 and 11 of the RET proto-oncogene revealed a mutation in all nine MEN 2A kindreds. A missense mutation was found in each case, leading to a loss of a cysteine residue (codon 618 of exon 10 or codon 634 of exon 11). In the MEN 2A families, the linkage analysis and RET mutation analysis gave concordant results for prediction of gene carriers in 100% of the individuals tested. No mutations were found in the two kindreds with FMTC or the two MEN 2B kindreds. Two individuals from two different MEN 2A kindreds were identified who had abnormal calcitonin stimulation tests but were not MEN 2A gene carriers by both linkage analysis and RET mutation analysis. These individuals presumably represented the sporadic occurrence of abnormal calcitonin stimulation tests in the general population. These studies provide further support for a role of the RET proto-oncogene in the pathogenesis of MEN 2A. Additionally, in the absence of identifiable RET proto-oncogene mutations, linkage analysis using (CA)n-repeat markers is a highly accurate alternative for the identification of MEN 2 or FMTC gene carriers.
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PMID:Identification of multiple endocrine neoplasia, type 2 gene carriers using linkage analysis and analysis of the RET proto-oncogene. 790 18

The genetic loci RET, D10S94, and D10S102 from human chromosome 10q11.2 are very closely linked to a locus responsible for the multiple endocrine neoplasia type 2 (MEN2A and MEN2B) and medullary thyroid carcinoma (MTC1) familial cancer syndromes. We have constructed a 1.5-megabase contig consisting of six genomic yeast artificial chromosome clones which include these loci and define their physical order. A critical crossover event has been identified within the map interval; this event places the MEN2A locus centromeric to D10S102 and defines the orientation of the physical map on the chromosome. The orientation of the contig and order of the markers are centromere-RET-D10S94-D10S102-telomere. In addition, a microsatellite repeat polymorphism with a heterozygosity of 71% at the RET locus and a restriction fragment length polymorphism with a heterozygosity of 42% detected by a lambda clone from the D10S94 locus have been developed for high-resolution genetic linkage mapping and predictive diagnostic testing. These data place three important markers on a contiguous physical map, narrow the MEN2 disease locus interval, and provide a framework for further candidate gene identification efforts. Placement of these genetic loci along a clone-based map and continued expansion of the contig will also facilitate efforts to determine the relationship of physical to genetic distance near the centromeres of human chromosomes.
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PMID:A 1.5-megabase yeast artificial chromosome contig from human chromosome 10q11.2 connecting three genetic loci (RET, D10S94, and D10S102) closely linked to the MEN2A locus. 809 42

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