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)

Down syndrome (DS) is a major cause of congenital heart and gut disease and mental retardation. DS individuals also have characteristic facies, hands, and dermatoglyphics, in addition to abnormalities of the immune system, an increased risk of leukemia, and an Alzheimer-like dementia. Although their molecular basis is unknown, recent work on patients with DS and partial duplications of chromosome 21 has suggested small chromosomal regions located in band q22 that are likely to contain the genes for some of these features. We now extend these analyses to define molecular markers for the congenital heart disease, the duodenal stenosis, and an "overlap" region for the facial and some of the skeletal features. We report the clinical, cytogenetic, and molecular analysis of two patients. The first is DUP21JS, who carries both a partial duplication of chromosome 21, including the region 21q21.1-q22.13, or proximal q22.2, and DS features including duodenal stenosis. Using quantitative Southern blot dosage analysis and 15 DNA sequences unique to chromosome 21, we have defined the molecular extent of the duplication. This includes the region defined by DNA sequences for APP (amyloid precursor protein), SOD1 (CuZn superoxide dismutase), D21S47, SF57, D21S17, D21S55, D21S3, and D21S15 and excludes the regions defined by DNA sequences for D21S16, D21S46, D21S1, D21S19, BCE I (breast cancer estrogen-inducible gene), D21S39, and D21S44. Using similar techniques, we have also defined the region duplicated in the second case occurring in a family carrying a translocation associated with DS and congenital heart disease. This region includes DNA sequences for D21S55 and D21S3 and excludes DNA sequences for D21S47 and D21S17.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Down syndrome: molecular mapping of the congenital heart disease and duodenal stenosis. 153 Nov 66

Down syndrome (DS) is a major cause of mental retardation and heart disease. Although it is usually caused by the presence of an extra chromosome 21, a subset of the diagnostic features may be caused by the presence of only band 21q22. We now present evidence that significantly narrows the chromosomal region responsible for several of the phenotypic features of DS. We report a molecular and cytogenetic analysis of a three-generation family containing four individuals with clinical DS as manifested by the characteristic facial appearance, endocardial cushion defect, mental retardation, and probably dermatoglyphic changes. Autoradiograms of quantitative Southern blots of DNAs from two affected sisters, their carrier father, and a normal control were analyzed after hybridization with two to six unique DNA sequences regionally mapped on chromosome 21. These include cDNA probes for the genes for CuZn-superoxide dismutase (SOD1) mapping in 21q22.1 and for the amyloid precursor protein (APP) mapping in 21q11.2-21.05, in addition to six probes for single-copy sequences: D21S46 in 21q11.2-21.05, D21S47 and SF57 in 21q22.1-22.3, and D21S39, D21S42, and D21S43 in 21q22.3. All sequences located in 21q22.3 were present in three copies in the affected individuals, whereas those located proximal to this region were present in only two copies. In the carrier father, all DNA sequences were present in only two copies. Cytogenetic analysis of affected individuals employing R and G banding of prometaphase preparations combined with in situ hybridization revealed a translocation of the region from very distal 21q22.1 to 21qter to chromosome 4q. Except for a possible phenotypic contribution from the deletion of chromosome band 4q35, these data provide a molecular definition of the minimal region of chromosome 21 which, when duplicated, generates the facial features, heart defect, a component of the mental retardation, and probably several of the dermatoglyphic changes of DS. This region may include parts of bands 21q22.2 and 21q22.3, but it must exclude the genes S0D1 and APP and most of band 21q22.1, specifically the region defined by S0D1, SF57 and D21S47.
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PMID:Molecular definition of a region of chromosome 21 that causes features of the Down syndrome phenotype. 214 53

Review of the clinical cytogenetic literature provides compelling evidence for a specific relationship between imbalance of particular chromosomes or chromosomal regions and the appearance of defined patterns of phenotypic abnormalities. In many instances, detailed phenotypic mapping has made it possible to assign portions of a phenotype to relatively small chromosome segments, which are sometimes referred to as "critical regions." However, since these regions are usually defined by a subset of the phenotypic manifestations of an aneuploidy syndrome--generally those anomalies that are regarded as most characteristic or readily observable--it is important not to fall into the trap of thinking that it is imbalance of only these regions that has deleterious effects on development and function. Thus, in Down syndrome, the presence of an extra copy of the proximal part of 21q22.3 appears to result in the typical physical phenotype--as defined principally in terms of the characteristic facial and hand anomalies and congenital heart defect--in addition to mental retardation. But, duplication of proximal 21q also affects mental development, and the regions responsible for many other aspects of the Down syndrome phenotype, including Alzheimer disease, have not been defined at all. Therefore, it remains likely that loci present on many parts of the long arm of chromosome 21 play a role in the development of the overall phenotype of Down syndrome. The immediate effect at the molecular level of an aneuploidy-caused alteration in gene dose appears to be a non-compensated commensurate change in the production of gene products.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The consequences of chromosome imbalance. 214 68

Down syndrome (DS) is a major cause of mental retardation and heart disease. Although it is usually caused by the presence of an extra chromosome 21, a subset of the diagnostic features may be caused by the presence of only band q22. Molecular and cytogenetic analysis of a family with 4 DS members has significantly narrowed the chromosomal region responsible for the DS phenotype: congenital heart disease, facial features, and possibly dermatoglyphics. Using high-resolution chromosome banding and in situ hybridization, we found the DS phenotype in the family is caused by a duplication of chromosome 21 material including a region of distal band q22.1 below the limit of cytogenetic resolution, in addition to bands q22.2-q22.3. By quantitative Southern blot analyses of DS members of the family, all random DNA sequences and expressed genes mapping in band q22.1 and proximal are found not to be duplicated. These include cDNA probes for the genes for superoxide dismutase (SOD1) mapping in 21q22.1 and for the amyloid precursor protein (APP) mapping in 21q21.05; D21S46 in 21q11.2-21.05; and D21S47 and SF57 in 21q22.1-q22.3. With one exception, DNA sequences mapping in band q22.3 are duplicated (D21S39, D21SD42, and D21S43). This analysis has now been extended to show that D21S17, previously mapped to band 21q22.3, is not duplicated. In conclusion, the genes SOD1 and APP have been excluded from a necessary role in generating the classical DS features, and the proximal border of the chromosomal region causing DS has been defined.
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PMID:Down syndrome: toward a molecular definition of the phenotype. 214 83

We examined the brains of 385 mentally retarded adults aged 23-90 years without Down's syndrome (DS), metabolic disorder, or hydrocephalus to extend our knowledge about the occurrence of Alzheimer-type neuropathology in this population. Relevant measures of neuropathology also were related to selected information available from clinical records. The presence of one or more neurofibrillary tangles (NFT) and/or neuritic plaques (NP) was observed in 63.4% of all cases and varied with age. The prevalence of positive cases was higher when mental retardation was due to head trauma, congenital malformation, or familial factors and when a history of seizures was reported. Comprehensive morphometric analyses of neocortical, hippocampal and parahippocampal areas indicated that recommended age-specific quantitative criteria for the diagnosis of Alzheimer disease [Khachaturian ZS (1985) Arch Neurol 42:1097-1105] were met in 9.5% of cases less than 50 years of age, 54.2% between 50 and 65, 70% between 66 and 75, and 87% of the cases greater than 75 years of age. However, a limited immunohistochemical study revealed that in most cases the NP did not have a neuritic component containing paired helical filaments and in this respect most of the plaques observed in this population may differ from those most strongly associated with Alzheimer disease. In addition, substantial numbers of NFT were seen in frontal cortex, contrasting with results reported in the literature for nonretarded populations. The number of NP per mm2 consistently increased with age for all areas examined, while the relationship between NFT density and age varied across areas, and was clearly not monotonic.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alzheimer neuropathology in non-Down's syndrome mentally retarded adults. 223 48

Trisomy 21 or Down syndrome (DS) is the most frequent genetic cause of mental retardation, affecting one in 800 live born human beings. Mice with segmental trisomy 16 (Ts65Dn mice) are at dosage imbalance for genes corresponding to those on human chromosome 21q21-22.3--which includes the so-called DS 'critical region'. They do not show early-onset of Alzheimer disease pathology; however, Ts65Dn mice do demonstrate impaired performance in a complex learning task requiring the integration of visual and spatial information. The reproducibility of this phenotype among Ts65Dn mice indicates that dosage imbalance for a gene or genes in this region contributes to this impairment. The corresponding dosage imbalance for the human homologues of these genes may contribute to cognitive deficits in DS.
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PMID:A mouse model for Down syndrome exhibits learning and behaviour deficits. 755 Mar 29

A comprehensive baseline of emotional functioning was established for adults with Down syndrome. Five emotional factors were studied using groups of (a) adults with Down syndrome (n = 30), (b) clinical control subjects with dementia of the Alzheimer type (n = 18), and (c) elderly control subjects without mental retardation (n = 25). Results of planned statistical comparisons showed indifference, pragnosia, and inappropriateness as primary emotional factors separating Down syndrome and Alzheimer disease groups from elderly control subjects without mental retardation. Indifference was also shown to covary with cognitive mental state, whereby increased levels of indifference were associated with decreased levels of cognitive functioning. The possibility of noncognitive variables signalling dementia of the Alzheimer type in individuals with Down syndrome was discussed.
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PMID:Detection of Alzheimer disease in individuals with Down syndrome. 763 29

Down syndrome remains one of the most common causes of mental retardation. Although knowledge of pathogenesis remains incomplete, recent molecular biologic techniques have identified regions of the 21st chromosome critical for expression of the Down syndrome phenotype, and animal models have helped elucidate the origins of the neurochemical and neuropathologic abnormalities. There also has been an improved understanding of the spectrum of medical complications of this disorder and the need for anticipatory management, including the search for atlantoaxial subluxation and hypothyroidism. With its increased risk of Alzheimer disease, Down syndrome is proving to be a useful model for studying aging. Accompanying greater knowledge has been improved functional outcome. Better medical care has made individuals with Down syndrome healthier; remaining at home through childhood has increased their cognitive function; and availability of increased numbers of group homes and supported employment opportunities has permitted the young adult with Down syndrome to live a more independent and full life. In this climate, the role of the pediatrician in early intervention and anticipatory guidance cannot be overemphasized.
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PMID:Down syndrome. 849 63

Declines in adaptive behavior were examined in a study of dementia in adults with Down syndrome and other forms of mental retardation. No significant differences were found between adults under 50 years of age with and without Down syndrome. In contrast, individuals over 50 who had Down syndrome were more likely to be classified as having dementia over a range of quantitative decision criteria; nevertheless, prevalence estimates of dementia were substantially below the presumed 100% prevalence of neuropathological markers of Alzheimer disease. This apparent discrepancy between functional and neuropathological findings may be associated with variations in risk associated with Down syndrome genotypes and/or a true lack of correspondence between classical neuropathological hallmarks of Alzheimer disease in this population and clinical expression.
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PMID:Prevalence of dementia in adults with and without Down syndrome. 871 94

We report on the clinical and cytogenetic assessment of five cases of Down syndrome phenotype with either a partial duplication of chromosome 21 or a normal karyotype, and we quote a case of del (21q) syndrome. Down syndromes with a partial duplication of chromosome 21 (as well as cases of del (21q), which are partly the phenotypic countertype of trisomy 21) are of paramount importance in the understanding of genes involved in the phenotype of Down syndrome. The goal is to find the relevant genes implicated in the main traits of Down syndrome (i.e. mental retardation, Alzheimer disease, and serious visceral malformations). Such a goal, in our opinion, cannot be reached just by publishing the genotype and the phenotype of a small cohort of patients: 1. a sufficient number of accurate cases is needed, and 2. data have to be computerized for definite conclusions to be reached. The main aims of this report are to present our study protocol and to invite colleagues to participate in a collaborative study in order to collect a maximum of these (rare) cases.
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PMID:Down syndrome with partial duplication and del (21) syndrome: study protocol and call for collaboration. Study I: Clinical assessment. 872 67

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