Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 associated with mental retardation, immune disorders and congenital heart diseases. Although it is usually caused by the presence of an extra chromosome 21, a subset of the diagnostic phenotypic features may be caused by the presence of the band 21q22, called the "Down syndrome region". Many proteins important for the immune and nervous systems as CuZn-superoxide dismutase (SOD-1), CD18-beta chain of LFA-1, interferon receptor, APP-amyloid precursor protein, protein S-100 beta are coded by chromosome 21. Overexpression of these molecules may contribute to the thymic derangement that results in anomalous maturation leading to functionally impaired T cells. Many factors have been shown to contribute to the immune deficiency which results in high susceptibility to infections, high rate of malignancies, and autoimmune phenomena in persons with DS. The main disorders in the immune system include thymus abnormalities, changes in cell-mediated immunity, phagocytosis, antibodies-mediated immunity and a high prevalence of autoantibodies in persons with DS. Furthermore, the duplication of chromosome 21 genes may generate most of the pathological changes in the central nervous system. There is an increased prevalence of seizure disorders. Such widespread alterations in the cortical areas seem to account for specific impairments observed in short-term and long-term memory, language skills, and cognitive and learning processes. If all principles of optimal health care and adequate education were followed without exception for persons with DS, then the quality of their life could be improved significantly and they would be able to become productive citizens in the society. (Tab. 5, Fig. 3, Ref. 42.)
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PMID:[Down's syndrome--effect of increased gene expression in chromosome 21 on the function of the immune and nervous system]. 926 31

Down syndrome, caused by trisomy of human chromosome 21 (HSA21), is the most common autosomal form of mental retardation. To understand the aetiology of the syndrome we need to identify the genes involved. We have utilised the information generated by the various EST sequencing projects to enrich the transcription map of chromosome 21. Here we report the mapping of SH3P17 to 21q22.1 and the localisation of two genes previously mapped to HSA21 by Nagase and colleagues, KIAA0136 and KIAA0179 to 21q22.2 and 21q22.3, respectively. SH3P17 has unknown function but contains four SH3 domains. KIAA0136 shows no homology to a yeast open reading frame. Further investigation of these three genes will add to our functional understanding of HSA21.
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PMID:Mapping of a novel SH3 domain protein and two proteins of unknown function to human chromosome 21. 927 76

Down syndrome is a major cause of mental retardation and congenital heart defects and is due to the presence of three copies of human chromosome 21 in the affected individual. We have identified a gene, DSCR1 (HGMW-approved symbol), from the region 21q22.1-q22.2, which is highly expressed in human fetal brain and adult heart. Structural features of the conceptual protein encourage us to propose involvement of DSCR1 in the regulation of transcription and/or signal transduction. Higher expression of RNA in the brains of young rats compared to adults suggests a possible role for the gene in the development of the central nervous system. We have determined the genomic organization of DSCR1 and identified three additional alternative first exons by RACE and cDNA library screening. DSCR1 spans nearly 45 kb of genomic DNA and comprises seven exons, four of which (exons 1-4) are alternative first exons. All the exons are flanked by splice junctions that conform to the consensus AG-GT motif. We have studied the expression patterns of the alternative first exons. Exon 2 was detected in fetal brain and liver by RT-PCR. Both exons 1 and 4 were differentially expressed in fetal brain, lung, liver, and kidney and in all adult tissues tested by Northern analysis with two notable exceptions: exon 1 was not detected in adult kidney and exon 4 was not found in adult brain. The high level of expression of exon 1 in fetal brain suggests that this alternative form of DSCR1 has an important role in brain development. This information should help us to understand the possible relationship of DSCR1 with Down syndrome and aid in the development of animal models.
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PMID:Genomic organization, alternative splicing, and expression patterns of the DSCR1 (Down syndrome candidate region 1) gene. 932 60

Human chromosome 21 is associated with many disorders, including Down syndrome (DS). In an effort to identify genes involved in brain development or function and therefore implicated in the mental retardation associated with DS, we chose YACs from three regions of chromosome 21: a region within the so-called "Down syndrome critical region," a region proximal to it, and one distal to it. We made cosmid libraries from these YACs and generated high-resolution physical maps by constructing cosmid contigs. These are the first cosmid contigs on chromosome 21 outside the critical region. The cosmids were used for direct selection of cDNAs to isolate chromosome 21 expressed sequences. We have isolated 45 nonredundant partial cDNAs and mapped these back to the cosmid contigs. We isolated 3 nonoverlapping portions of DSCR1 and a part of GIRK2 and identified 3 nonoverlapping partial cDNAs with similarity to the rat Dyrk gene, which turned out to be the human homologue (MNB) of the Drosophila minibrain gene. Twelve sequences had matches with either STS or EST entries in the databases, including a chromosome 21 EST, a chromosome 21 STS, and 6 unmapped expressed sequence entries. Only 1 sequence resulted in a match with a protein entry. The remaining 25 sequences revealed no similarity to any database entry. All of these partial cDNAs are expressed as determined by Northern blotting or by RT-PCR.
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PMID:Cosmid contig and transcriptional map of three regions of human chromosome 21q22: identification of 37 novel transcripts by direct selection. 933 61

Down syndrome (DS), a major cause of mental retardation, is characterized by subtle abnormalities of cortical neuroanatomy, neurochemistry and function. Recent work has shown that chromosome band 21q22 is critical for many of the neurological phenotypes of DS. A gene, DSCAM (Down syndrome cell adhesion molecule), has now been isolated from chromosome band 21q22.2-22.3. Homology searches indicate that the putative DSCAM protein is a novel member of the immunoglobulin (Ig) superfamily that represents a new class of neural cell adhesion molecules. The sequence of cDNAs indicates alternative splicing and predicts two protein isoforms, both containing 10 Ig-C2 domains, with nine at the N-terminus and the tenth located between domains 4 and 5 of the following array of six fibronectin III domains, with or without the following transmembrane and intracellular domains. Northern analyses reveals the transcripts of 9.7, 8.5 and 7.6 kb primarily in brain. These transcripts are differentially expressed in substructures of the adult brain. Tissue in situ hybridization analyses of a mouse homolog of the DSCAM gene revealed broad expression within the nervous system at the time of neuronal differentiation in the neural tube, cortex, hippocampus, medulla, spinal cord and most neural crest-derived tissues. Given its location on chromosome 21, its specific expression in the central nervous system and neural crest, and the homologies to molecules involved in neural migration, differentiation, and synaptic function, we propose that DSCAM is involved in neural differentiation and contributes to the central and peripheral nervous system defects in DS.
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PMID:DSCAM: a novel member of the immunoglobulin superfamily maps in a Down syndrome region and is involved in the development of the nervous system. 942 58

In Down's syndrome, the presence of three copies of chromosome 21 is associated with premature aging and progressive mental retardation sharing the pathological features of Alzheimer disease. Early cortical dysgenesis and late neuronal degeneration are probably caused by an overproduction of amyloid beta-peptide, followed by an increased cellular oxidation. Interestingly, chromosome 21 codes for superoxide-dismutase and amyloid beta precursor resulting, in Down's syndrome, in an overflow of these gene products and metabolites. We studied Down's fetal brain cortex to evaluate the presence and amount of lipid and protein oxidation markers; moreover, we quantified two forms of glycation end products that are known to be involved in the process of cellular oxidation. All these parameters are significantly increased in Down's fetal brains in comparison to controls, providing the evidence that accelerated brain glycoxidation occurs very early in the life of Down's syndrome subjects.
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PMID:Early glycoxidation damage in brains from Down's syndrome. 950 Oct 12

The region of chromosome 21 between genes CBR and ERG (CBR-ERG region), which spans 2.5 Mb on 21q22.2, has been defined by analysis of patients with partial trisomy 21. It contributes significantly to the pathogenesis of many characteristics of Down syndrome, including morphological features, hypotonia, and mental retardation. Cosmid contigs covering 80% of the region were constructed and EcoRI maps produced. These cosmids were used for exon trapping and cDNA selection from three cDNA libraries (fetal brain, fetal liver, and adult skeletal muscle). Isolated exons and cDNAs were mapped on the EcoRI map, organized into contigs, sequenced, and used as probes for Northern blot analysis of RNA from fetal and adult tissues. We identified 27 genuine or highly probable transcriptional units evenly distributed along the CBR-ERG region. Eight of the transcriptional units are known genes.
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PMID:Transcriptional map of the 2.5-Mb CBR-ERG region of chromosome 21 involved in Down syndrome. 950 11

We investigated the phenomenon of long-term potentiation (LTP) in a genetic model of Down Syndrome, the segmental trisomy mouse (Ts65Dn). Ts65Dn mice survive to adulthood and have an extra chromosome that contains a segment of chromosome 16 homologous to human chromosome 21. In this study, field excitatory postsynaptic potentials (fEPSP) were recorded from the CA1 area of in vitro hippocampal slices from diploid and Ts65Dn mice, and LTP was induced by a single tetanizing pulse train (1 sec in duration) at 100 Hz. The hippocampus from both young (2 months) and older (9 months) Ts65Dn mice had a reduced LTP over a period of 60 min compared with LTP in age-matched controls. This finding may explain the reported behavioral and learning impairments in Ts65Dn mice; it suggests that this mouse model can be used to study the role of altered synaptic plasticity in mental retardation of Down Syndrome.
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PMID:Altered long-term potentiation in the young and old Ts65Dn mouse, a model for Down Syndrome. 951 25

Three unique sequence microclones from human chromosome region 21q11 were assigned to mouse chromosome 16 using a mouse/Chinese hamster cell hybrid 96Az2 containing a single mouse chromosome 16. This comparative mapping provides further homology between human chromosome 21 and mouse chromosome 16 to include the very proximal portion of the long arm of human chromosome 21. Since this part of human chromosome 21 is associated with mental retardation in Down syndrome individuals, its homologous mouse region should also be included in the construction of mouse models for studying Down syndrome phenotypes including mental retardation.
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PMID:Assignment of three human markers in chromosome 21q11 to mouse chromosome 16. 954 78

Down's syndrome (DS), a human genetic abnormality usually caused by an extra chromosome 21, presents a wide range of major and minor anomalies, the most significant of which are mental retardation and congenital heart defects. The anomalous phenotype also includes short stature and neck, thin calvaria, and cartilage hypoplasia. The genesis of these skeletal features is unknown. Histopathologic sections of fetal cartilage from skull, vertebra, rib, and femur were studied in 16 fetuses with DS (17-22 wk old) and 13 control non-DS fetuses (19-22 wk old) with other pathologies not directly affecting skeletal growth. Rib growth cartilage morphology showed a previously unreported structural anomaly in DS, an increase in the hypertrophic portion with a concomitant decrease in proliferative and resting zones. The hypertrophic chondrocytic zone was markedly increased in DS compared with non-DS (149 +/- 68 microm versus 36 +/- 20 microm, and 26 +/- 12 versus 7 +/- 3 expressed in percent of the total length; p < 0.0001), whereas the proliferative zone (114 +/- 58 microm versus 165 +/- 43 microm, 20 +/- 10 versus 33 +/- 4 in percent of the total length; p < 0.001) and the resting zone (53 +/- 4 versus 59 +/- 6 in %, p < 0.009) were decreased. These features were not found in the femoral epiphyseal growth plate or in cartilage from vertebra and skull. Our results demonstrate an imbalance toward the hypertrophic phenotype. This abnormality, found in DS fetuses 17-22 wk old, may represent an early manifestation of an abnormal growth cartilage maturation pattern, which manifests postnatally in long bones, leading to diminished growth rates.
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PMID:Down's syndrome: altered chondrogenesis in fetal rib. 966 77


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