UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A current list of all known forms of X-linked mental retardation (XLMR) and a slightly revised classification are presented. The number of known disorders has not increased because 6 disorders have been combined based on new molecular data or on clinical grounds and only 6 newly described XLMR disorders have been reported. Of the current 105 XLMR disorders, 34 have been mapped, and 18 disorders and 1 nonspecific XLMR (FRAXE) have been cloned. The number of families with nonspecific XLMR with a LOD score of > or = 2.0 has more than doubled, with 42 (including FRAXE) now being known. a summary of the localization of presumed nonspecific mental retardation (MR) genes from well-studied X-chromosomal translocations and deletions is also included. Only 10-12 nonoverlapping loci are required to explain all localizations of nonspecific MR from both approaches. These new trends mark the beginning of a significantly improved understanding of the role of genes on the X chromosome in producing MR. Continued close collaboration between clinical and molecular investigators will be required to complete the process.
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PMID:XLMR genes: update 1996. 882 65

Trinucleotide repeat expansion is increasingly recognized as a cause of neurogenetic diseases. To date, seven diseases have been identified as expanded repeat disorders: the fragile X syndrome of mental retardation both FRAXA and FRAXE loci), myotonic dystrophy, X-linked spinal and bulbar muscular atrophy, Huntington's disease, spinocerebellar ataxia type I, dentatorubral-pallidoluysian atrophy, and Machado-Joseph disease. All are neurologic disorders, affecting one or more regions of the neuraxis. Moreover, five of the seven (the last five above) are progressive neurodegenerative disorders whose strikingly similar mutations suggest a common mechanism of neuronal degeneration. In this article we discuss specific characteristics of each trinucleotide repeat disease, review their shared clinical and genetic features, and address possible molecular mechanisms underlying the neuropathology in each disease. Particular attention is paid to the neurodegenerative diseases, all of which are caused by CAG repeats encoding polyglutamine tracts in the disease gene protein.
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PMID:Trinucleotide repeats in neurogenetic disorders. 883 37

The catalog of genetic diseases whose mutational mechanisms are based on the expansion of nucleotide triplets includes 8 disorders classified in terms of type of triplet sequence and the mechanism by which the mutation manifests clinically. To date there are 3 groups. The first is made up of several mental retardation syndromes linked to fragility in the X chromosome (FRAXA, FRAXE, FRAXF, FRA16), with CGG type triplets and large growth expansions located close to a CpG island whose methylation determines degree of chromosome fragility as well as the size of expansion. The second group encompasses diseases arising from CAG triplets. Examples are spinal bulbar atrophy, Huntington's chorea (HC), type 1 dominant cerebellar ataxia (DCA1), dentatorubral-pallidoluysian atrophy (DRPLA) and Machado-Joseph's disease. In this group the expansion codes a polyglutamate residue that gives rise to clinical manifestations by way of functional gain. Myotonic dystrophy (MD) remains in a separate group, with large-size expansion but no chromosomal fragility, and clinical manifestations in multiple systems. All entities encompass phenotypic variation or tendency to inter-generational growth of the expanded fragment that triggers the anticipation phenomenon to varying degrees--greater for some diseases (MD) in cases of maternal transmission and for others (DCA1, HC and DRPLA) when transmission is paternal. The mechanisms by which expansions occur is unknown but the decisive element in some entities may be failure to correct errors in DNA duplication and errors in the integrity of the repeated sequence. We review the difficulties inherent in establishing correlations between genotype and phenotype and in providing genetic counseling.
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PMID:[Diseases due to instability of DNA]. 883 55

Expansion of a polymorphic GCC-repeat at the FRAXE locus has been associated with expression of chromosome fragility at this site and cognitive impairment in some individuals previously testing negative for CGG-repeat expansion in the fragile X mental retardation-1 (FMR1) gene. To determine the frequency of FRAXE triplet repeat expansion among persons with developmental disability, 396 individuals from two institutions were studied, all of whom were negative for FMR1 repeat expansion. Clinically, there was a wide range of mental impairment, with the majority (61.1%) being severely to profoundly affected. The distribution of FRAXE GCC-repeat numbers in the study population was 5-38: 28 (5.6%) with 10-14 repeats; 366 (73.8%) with 15-19 repeats; 74 (14.9%) with 20-24 repeats; 20 (4.0%) with 25-29 repeats; and 5 (1.0%) with 30-38 repeats, with no individuals demonstrating repeat expansion. One profoundly retarded male was found to have a deletion of about 40 bp. Southern blots of HindIII-digested DNAs from individuals with > or = 26 repeats all showed normal patterns. These results suggest that FRAXE GCC-repeat expansion is not a common cause of developmental disability in institutionalized persons with mild to profound mental retardation.
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PMID:Trinucleotide repeat expansion in the FRAXE locus is not common among institutionalized individuals with non-specific developmental disabilities. 884 96

We report on a new case of FRAXE mutation identified through the screening of a population of FRAXA-negative mentally retarded individuals. The index case, a 4-year-old boy with distinct minor anomalies and mental retardation with severe verbal impairment, his older brother, referred to as normal, and the mother have undergone careful clinical and molecular evaluation. The molecular defect, characterized by standard Southern blot analysis, is represented by a hypermethylated "full mutation" in the 2 boys and by a unique, altered, presumably unmethylated, band in the mother, which is interpreted as a "premutation." The cytogenetic analysis failed to detect a folate-sensitive Xq27-28 fragile site in either "fully mutated" individual. The phenotype and intellectual performance of the 15-year-old brother of the propositus appeared completely normal. Our propositus shares some traits with previously described FRAXE-mutated subjects, suggesting an association with the Xq28 molecular defect; nevertheless, we find it difficult to reconcile the molecular identity and phenotypic difference in these mutated members of the same family. This could be a case of extreme phenotypic variability or a result of a more complicated molecular mechanism.
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PMID:Amplification of the Xq28 FRAXE repeats: extreme phenotype variability? 884

There are two forms of mental handicap associated with fragile sites on the end of the long arm of the X chromosome. The well known common disorder Fragile X syndrome is associated with FRAXA and a rare non-specific form of mental handicap is associated with FRAXE. The cytogenetics of these fragile sites is considered. For Fragile X syndrome details are given of the molecular genetics, inheritance patterns, genetic counselling, methods for diagnosis of index cases, carrier detection and prenatal diagnosis. Series of prenatal diagnoses are briefly reviewed and technical and biological problems associated with this procedure are considered. Prenatal diagnosis of Fragile X syndrome using molecular genetic techniques is now a well established procedure, with the only significant problem being the inability to accurately predict phenotype in female fetuses with full mutations. Few prenatal diagnoses of Fragile XE non-specific mental retardation have been recorded. In principle the technical aspects of such a prenatal diagnosis should be little different from those for Fragile X syndrome. Incomplete knowledge of the phenotypic effect of the full mutation in males and females would make phenotypic prediction for any fetus shown to have such a mutation very difficult. At this stage all that could be determined with precision is that the mutation was present or absent in the fetus. Possible consequences of this are discussed.
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PMID:Fragile X syndrome and fragile XE mental retardation. 906 51

Normal individuals express the two alternative transcripts, FMR2 and Ox19, from the FRAXE-associated CpG island. Molecular analysis of the Ox19 transcript suggests that it is a truncated isoform of the FMR2 gene with an alternative 3' end. Both isoforms showed a similar pattern of expression, with the Ox19 isoform expressed at a much lower level. Fibroblasts, chorionic villi and hair roots showed the highest level of FMR2 expression, whole blood cells and amniocytes showed very low expression, and the transcript was not detected in lymphoblasts. Fibroblasts of 11 individuals from seven families segregating FRAXE were assayed for FMR2 expression and FRAXE CpG island methylation. A man with an unmethylated expansion of 0.6 kb expressed FMR2 and represents a pre-mutation carrier. All chromosomes with FRAXE CCG expansions of 0.8 kb or greater were fully methylated and did not express the FMR2 gene, analogous to the mechanism of silencing the FMR1 gene in carriers of the FRAXA full mutation. The boundary between FRAXE pre-mutation and FRAXE full mutation is between 0.7 and 0.8 kb. Two men with absence of FMR2 expression in fibroblasts were not mentally impaired, suggesting that IQ in some men with FRAXE full mutation may remain within the normal range. Although molecular tools to study FRAXE non-specific mental retardation are now available, further psychometric and molecular studies are needed to characterize the effect of the FRAXE full mutation for the purpose of genetic counselling.
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PMID:FMR2 expression in families with FRAXE mental retardation. 914 47

FMR2 is the gene associated with FRAXE mental retardation. It is expressed as an 8.7-kb transcript in placenta and adult brain. A fetal-specific FMR2 transcript of approximately 12 kb was detected in fetal brain and at a lower level in fetal lung and kidney. FMR2 is a large gene composed of 22 exons spanning at least 500 kb on Xq28. Alternative splicing involving exons 2, 3, 5, 7, and 21 was not tissue specific as tested on mRNA from human fetal and infant brain. FMR2 is translated into a 1311-amino-acid nuclear protein with putative transcription transactivation potential. Subcellular localization studies with green fluorescent protein as a reporter show that both nuclear addresses found in the FMR2 sequence are functional and direct the FMR2 protein into the nucleus. FMR2 together with AF4 and LAF4 forms a new family of nuclear proteins with DNA-binding capacity and transcription transactivation potential. BLAST searches of the dbEST database revealed the presence of at least two other groups of nonoverlapping ESTs showing high similarity to the FMR2-related family of proteins. One of them, represented by the EST W26686, maps to chromosome 5q31. Amino acid similarity among the proteins encoded by members of the gene family is high in the NH2 terminus, low in the middle, and high again in the COOH end. Available information from members of the family shows that genomic organization is conserved. This FMR2-related gene family encodes nuclear proteins with involvement in mental retardation (FMR2), cancer (AF4), and lymphocyte differentiation (LAF4) or with unknown function (EST W26686 and/or AA025630).
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PMID:Gene structure and subcellular localization of FMR2, a member of a new family of putative transcription activators. 929 37

Fragile X syndrome is the most common inherited form of familial mental retardation. It results from a (CGG)n trinucleotide expansion in the FMR1 gene leading to the typical Martin-Bell phenotype. Clinical features vary depending on age and sex. Expansion of a (CCG)n repeat in the FMR2 gene corresponds to the FRAXE fragile site which lies distal to FRAXA and is also associated with mental retardation, but it is less frequent and lacks a consistent phenotype. Analysis of repeat expansions in these two genes allows the molecular diagnosis of these different entities. We report here the screening of the FRAXA and FRAXE mutations in 222 unrelated mentally retarded individuals attending Spanish special schools. PCR and/or Southern blotting methods were used. We detected full mutations in the FMR1 gene in 11 boys (4.9%) and 1 boy (0.5%) with a CCG repeat expansion in the FMR2 gene. The latter shows mild mental retardation with psychotic behaviour and no remarkable physical traits. Molecular studies revealed a mosaicism for methylation in the FMR2 gene. This case supports the observation that expansions greater than 100 repeats can be partially methylated and cause the phenotype.
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PMID:Screening for FMR1 and FMR2 mutations in 222 individuals from Spanish special schools: identification of a case of FRAXE-associated mental retardation. 934 61

The FRAXE fragile site, 600 Kb distal to the more common FRAXA, has been reported to be expressed in subjects with mild nonsyndromal mental retardation. Amplification of more than 200 GCC repeats associated with methylation of the adjacent CpG island at Xq28 is responsible for FRAXE fragility. We describe two unrelated, mentally retarded males identified during a screening for fragile X syndrome. Both index cases underwent FRAXE molecular analysis, following cytogenetic expression of the fra X site and negative FRAXA test. In family 1, we were able to investigate other 13 subjects over three generations, identifying two additional FRAXE-positive males, one with a fully mutated allele and one with a mosaic genotype. Detailed evaluation of physical traits and psychometric tests was performed on three retarded males from family 1 and the propositus from family 2. All of them were found to lack a definite phenotype, and showed different degrees of mental retardation. Slight mental retardation was evident in the mosaic male, suggesting that methylation might be an important determinant of mental impairment.
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PMID:Molecular characterization of FRAXE-positive subjects with mental impairement in two unrelated Italian families. 947 3

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