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)

In 1986, a population study of school children in the city of Coventry gave an overall prevalence in males and females for fragile X syndrome of 1/952. The 29 children diagnosed as having fragile X syndrome in this study have been re-evaluated with molecular diagnostic techniques. Eighteen of the original 29 children have been found not to have the expansion of the FMR1 gene associated with fragile X syndrome. Revised prevalence figures have been calculated giving rise to an overall prevalence figure of 1/2720 (range 1/2198-1/3089). If the four children lost to follow up are also assumed not to have the fragile X syndrome, the revised prevalence figure was 1/5714 (range 1/4762-1/6349). Clinical review of boys with severe mental retardation from this and a subsidiary study show that the clinical features of head circumference greater than the 50th centile, testicular volume greater than the 50th centile, and IQ between 35 and 70 remain helpful in distinguishing boys with fragile X syndrome from those who have non-specific mental retardation.
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PMID:Fragile X syndrome is less common than previously estimated. 903 40

The fragile X syndrome is the most common inherited cause of mental retardation that is known. The prevalence of mental retardation from this syndrome ranges from 1 in 1,250 to 1 in 4,000 in the general population, although the prevalence of female carriers has been reported to be as high as 1 in 259. The discovery of the FMR1 gene mutation in 1991 has simplified diagnosis, enhanced our understanding of the spectrum of involvement in the fragile X syndrome, and stimulated research regarding the normal function of the FMR1 protein in brain development. Advances have also occurred in the treatment of the fragile X syndrome, and psychopharmacologic and educational interventions are reviewed here.
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PMID:Fragile X syndrome. Molecular and clinical insights and treatment issues. 910 37

Fragile X syndrome is caused by mutations in the FMR1 gene and is one of the most frequent forms of inherited mental retardation in males. Postnatal and prenatal diagnosis of fragile X syndrome is feasible by direct DNA analysis. A new approach to prenatal diagnosis of fragile X syndrome in amniotic fluid cells is described, using a rapid and simple antibody test on uncultured amniotic fluid cells. The test requires 1 ml of amniotic fluid and the results of this antibody test are available on the same day as the amniocentesis.
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PMID:Rapid antibody test for prenatal diagnosis of fragile X syndrome on amniotic fluid cells: a new appraisal. 913

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

FMR1 (Fra X Mental Retardation 1), a gene of unknown function, is responsible for an important hereditary mental retardation, the fragile X syndrome. In this study, a 22-bp enhancer (methylation sensitive element, MSE) in the FMR1 promoter was defined by DNase I footprinting assay, and the binding of this element by nuclear factor was prevented by DNA CpG methylation. A cAMP-responsive element (CRE)-like sequence and a myc-binding sequence in MSE were identified. In the transfection assay, MSE demonstrated a strong, methylation-sensitive enhancer activity. MSE could be bound by recombinant CRE-binding protein (CREB), and its activity was stimulated by CREB in a co-transfection assay. In PC12 cells, forskolin elevated MSE activity several fold, and this induction was abolished in CRE mutants. The involvement of cAMP in the expression of FMR1 should be a clue to both the function of FMR1 and the pathogenesis of fragile X syndrome.
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PMID:FMR1 enhancer is regulated by cAMP through a cAMP-responsive element. 915 Apr 32

In a previous large scale screen for differentially expressed genes in pancreatic cancer, we identified a gene highly overexpressed in cancer encoding a novel protein with four K-homologous (KH) domains. KH-domains are found in a subset of RNA-binding proteins, including pre-mRNA-binding (hnRNP) K protein and the fragile X mental retardation gene product (FMR1). By fluorescence in situ hybridization (FISH) the identified gene named koc (KH domain containing protein overexpressed in cancer) was assigned to chromosome 7p11.5. Two pseudogenes were localised on chromosome 6 and 11. The cloned koc cDNA has a 250 bp 5'-UTR, a 1740 bp ORF and a 2168 bp 3'-UTR. The AU-rich 3'-untranslated region of koc contains eight AUUUA and four AUUUUUA reiterated motifs. The deduced koc protein with 580 amino-acids has a relative molecular mass (Mr) of approximately 65,000 (65 K). The koc transcript is highly overexpressed in pancreatic cancer cell lines and in pancreatic cancer tissue as compared to both, normal pancreas and chronic pancreatitis tissue. High levels of expression were as well found in tissue samples of other human tumours. As the KH domain has been shown to be involved in the regulation of RNA synthesis and metabolism, we speculate that koc may assume a role in the regulation of tumour cell proliferation by interfering with transcriptional and or posttranscriptional processes. However, the precise role of koc in human tumour cells is unknown and remains to be elucidated.
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PMID:Cloning of a gene highly overexpressed in cancer coding for a novel KH-domain containing protein. 917 71

The autonomous expansion of the unstable 5'-d(CGG)n-3' repeat in the 5'-untranslated region of the human FMR1 gene leads to the fragile X syndrome, one of the most frequent causes of mental retardation in human males. We have recently described the isolation of a protein p20-CGGBP that binds sequence-specifically to the double-stranded trinucleotide repeat 5'-d(CGG)-3' (Deissler, H., Behn-Krappa, A., and Doerfler, W. (1996) J. Biol. Chem. 271, 4327-4334). We demonstrate now that the p20-CGGBP can also bind to an interrupted repeat sequence. Peptide sequence tags of p20-CGGBP obtained by nanoelectrospray mass spectrometry were screened against an expressed sequence tag data base, retrieving a clone that contained the full-length coding sequence for p20-CGGBP. A bacterially expressed fusion protein p20-CGGBP-6xHis exhibits a binding pattern to the double-stranded 5'-d(CGG)n-3' repeat similar to that of the authentic p20-CGGBP. This novel protein lacks any overall homology to other known proteins but carries a putative nuclear localization signal. The p20-CGGBP gene is conserved among mammals but shows no homology to non-vertebrate species. The gene encoding the sequence for the new protein has been mapped to human chromosome 3.
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PMID:Rapid protein sequencing by tandem mass spectrometry and cDNA cloning of p20-CGGBP. A novel protein that binds to the unstable triplet repeat 5'-d(CGG)n-3' in the human FMR1 gene. 920 80

The fragile X syndrome is caused by the amplification of a polymorphic CGG repeat in the 5' untranslated region of the FMR1 gene and is the most common form of inherited mental retardation. When the repeat is amplified beyond 200 repeat units, the repeat and the FMR1 promoter region are methylated. As a result of this methylation the gene is silenced and no FMR1 gene product (FMRP) is translated. The lack of expression of FMRP in the fragile X syndrome causes the fragile X phenotype. A mouse model for the fragile X syndrome (knockout for FMRP) has been generated to study the pathological mechanisms leading to the symptoms seen in fragile X patients. FMRP is widely expressed in different tissues and localized predominantly in the cytoplasm associated with the 60S ribosomal subunit. The protein has RNA binding properties and possibly shuttles between cytoplasm and nucleus. The target signals necessary for this intracellular transport, like a nuclear location signal and a nuclear export signal, are present in FMRP. FMRP is also able to bind to other proteins by using specific sequence domains present in the protein. The coiled-coil structures formed by these domains are known to be involved in protein-protein interaction. In this review we postulate that FMRP is involved in the transport of RNA and/or proteins from the nucleus to the cytoplasm.
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PMID:The fragile X syndrome. 921 Nov 86

Lack of expression of the fragile X mental retardation protein (FMRP) results in mental retardation and macroorchidism, seen as the major pathological symptoms in fragile X patients. FMRP is a cytoplasmic RNA-binding protein which cosediments with the 60S ribosomal subunit. Recently, two proteins homologous to FMRP were discovered: FXR1 and FXR2. These novel proteins interact with FMRP and with each other and they are also associated with the 60S ribosomal subunit. Here, we studied the expression pattern of the three proteins in brain and testis by immunohistochemistry. In adult brain, FMR1, FXR1 and FXR2 proteins are coexpressed in the cytoplasm of specific differentiated neurons only. However, we observed a different expression pattern in fetal brain as well as in adult and fetal testis, suggesting independent functions for the three proteins in those tissues during embryonic development and adult life.
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PMID:Differential expression of FMR1, FXR1 and FXR2 proteins in human brain and testis. 925 78

The fragile X syndrome is an X-linked mental retardation disorder caused by an expanded CGG repeat in the first exon of the fragile X mental retardation (FMR1) gene. Its frequency, X-linked inheritance, and consequences for relatives all prompt for diagnosis of this disorder on a large scale in all affected individuals. A screening for the fragile X syndrome has been conducted in a representative sample of 3,352 individuals in schools and institutes for the mentally retarded in the southwestern Netherlands, by use of a brief physical examination and the DNA test. The attitudes and reactions of (non)consenting parents/guardians were studied by (pre- and posttest) questionnaires. A total of 2,189 individuals (65%) were eligible for testing, since they had no valid diagnosis, cerebral palsy, or a previous test for the FMR1 gene mutation. Seventy percent (1,531/2,189) of the parents/guardians consented to testing. Besides 32 previously diagnosed fragile X patients, 11 new patients (9 males and 2 females) were diagnosed. Scoring of physical features was effective in preselection, especially for males (sensitivity .91 and specificity .92). Major motives to participate in the screening were the wish to obtain a diagnosis (82%), the hereditary implications (80%), and the support of research into mental retardation (81%). Thirty-four percent of the parents/guardians will seek additional diagnostic workup after exclusion of the fragile X syndrome. The prevalence of the fragile X syndrome was estimated at 1/ 6,045 for males (95% confidence interval 1/9,981-1/ 3,851). On the basis of the actual number of diagnosed cases in the Netherlands, it is estimated that >50% of the fragile X cases are undiagnosed at present.
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PMID:Screening and diagnosis for the fragile X syndrome among the mentally retarded: an epidemiological and psychological survey. Collaborative Fragile X Study Group. 932 32

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