Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013080 (Down syndrome)
14,180 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Down syndrome is a major cause of mental retardation and congenital heart defects. While most of the affected individuals have three copies of chromosome 21, patients with partial trisomy 21 have also been described. These rare cases define a minimal region for the Down syndrome phenotype encompassing about 3 Mb around D21S55. By using a new method for the identification of coding sequences (Alu-splice PCR) we have identified a new gene, DSCR1, from region 21q22.1-q22.2. DSCR1 encodes a novel protein which has an acidic domain, a serine-proline motif, a putative DNA binding domain and a proline-rich region with the characteristics of a SH3 domain ligand. These features suggest that DSCR1 could be involved in transcriptional regulation and/or signal transduction. DSCR1 is highly expressed in human brain and heart, and increased expression in the brains of young rats compared with adults suggests a role for DSCR1 during central nervous system development. Structural characteristics, together with its particular expression in brain and heart, encourage us to suggest that the overexpression of DSCR1 may be involved in the pathogenesis of Down syndrome, in particular mental retardation and/or cardiac defects.
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PMID:A new human gene from the Down syndrome critical region encodes a proline-rich protein highly expressed in fetal brain and heart. 859 18

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) is a major cause of mental retardation and congenital heart defects, with an overall incidence of one in 700 live births. DS is caused by increases in the amounts of a number of normal gene products, the exact number and identity of which are presently unknown. Elucidating the molecular basis of DS relies on the identification of the gene products whose augmentation by 50% or more causes symptoms of the disease. With the aim of contributing to the transcriptional map of human chromosome 21 and to identify new genes with potential involvement in DS, we developed a technique to isolate expressed sequences called Alu-splice PCR, which is very simple to perform and is independent of gene expression patterns. Putative exons are PCR amplified in genomic DNA by virtue of their proximity to Alu repeats using primers designed from splice-site consensus sequences in combination with specific Alu repeat primers. The Alu repeats, which are repetitive DNA elements found exclusively and at high frequency in the genomes of primates, impart the human specificity to the method. The splice-site consensus sequences were used to direct primers to exon boundaries. Using the Alu-splice technique, we have identified at least three new genes. We trapped an exon of DSCR1 (Down Syndrome Candidate Region 1) and two different exons of a gene called human Intersectin (ITSN). Presently, we are working with another novel trapped exon to identify the corresponding gene. The major advantage of Alu-splice PCR is that the technique can be readily established in any laboratory which has the basic facilities for molecular biology because no specialised materials or expertise is required.
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PMID:Application of Alu-splice PCR on chromosome 21: DSCR1 and Intersectin. 1066 88

Here we describe a small family of proteins, termed MCIP1 and MCIP2 (for myocyte-enriched calcineurin interacting protein), that are expressed most abundantly in striated muscles and that form a physical complex with calcineurin A. MCIP1 is encoded by DSCR1, a gene located in the Down syndrome critical region. Expression of the MCIP family of proteins is up-regulated during muscle differentiation, and their forced overexpression inhibits calcineurin signaling to a muscle-specific target gene in a myocyte cell background. Binding of MCIP1 to calcineurin A requires sequence motifs that resemble calcineurin interacting domains found in NFAT proteins. The inhibitory action of MCIP1 involves a direct association with the catalytic domain of calcineurin, rather than interference with the function of downstream components of the calcineurin signaling pathway. The interaction between MCIP proteins and calcineurin may modulate calcineurin-dependent pathways that control hypertrophic growth and selective programs of gene expression in striated muscles.
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PMID:A protein encoded within the Down syndrome critical region is enriched in striated muscles and inhibits calcineurin signaling. 1072 14

Down syndrome is one of the major causes of mental retardation and congenital heart malformations. Other common clinical features of Down syndrome include gastrointestinal anomalies, immune system defects and Alzheimer's disease pathological and neurochemical changes. The most likely consequence of the presence of three copies of chromosome 21 is the overexpression of its resident genes, a fact which must underlie the pathogenesis of the abnormalities that occur in Down syndrome. Here we show that DSCR1, the product of a chromosome 21 gene highly expressed in brain, heart and skeletal muscle, is overexpressed in the brain of Down syndrome fetuses, and interacts physically and functionally with calcineurin A, the catalytic subunit of the Ca(2+)/calmodulin-dependent protein phosphatase PP2B. The DSCR1 binding region in calcineurin A is located in the linker region between the calcineurin A catalytic domain and the calcineurin B binding domain, outside of other functional domains previously defined in calcineurin A. DSCR1 belongs to a family of evolutionarily conserved proteins with three members in humans: DSCR1, ZAKI-4 and DSCR1L2. We further demonstrate that overexpression of DSCR1 and ZAKI-4 inhibits calcineurin-dependent gene transcription through the inhibition of NF-AT translocation to the nucleus. Together, these results suggest that members of this newly described family of human proteins are endogenous regulators of calcineurin-mediated signaling pathways and as such, they may be involved in many physiological processes.
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PMID:DSCR1, overexpressed in Down syndrome, is an inhibitor of calcineurin-mediated signaling pathways. 1086 Dec 95

The protein phosphatase calcineurin mediates many cellular responses to calcium signals. Using a genetic screen in yeast, we identified a new family of proteins conserved in fungi and animals that inhibit calcineurin function when overexpressed. Overexpression of the yeast protein Rcn1p or the human homologs DSCR1 or ZAKI-4 inhibited two independent functions of calcineurin in yeast: The activation of the transcription factor Tcn1p and the inhibition of the H(+)/Ca(2+) exchanger Vcx1p. Purified recombinant Rcn1p and DSCR1 bound calcineurin in vitro and inhibited its protein phosphatase activity. Signaling via calmodulin, calcineurin, and Tcn1p induced Rcn1p expression, suggesting that Rcn1p operates as an endogenous feedback inhibitor of calcineurin. Surprisingly, rcn1 null mutants exhibited phenotypes similar to those of Rcn1p-overexpressing cells. This effect may be due to lower expression of calcineurin in rcn1 mutants during signaling conditions. Thus, Rcn1p levels may fine-tune calcineurin signaling in yeast. The structural and functional conservation between Rcn1p and DSCR1 suggests that the mammalian Rcn1p-related proteins, termed calcipressins, will modulate calcineurin signaling in humans and potentially contribute to disorders such as Down Syndrome.
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PMID:A conserved family of calcineurin regulators. 1088 54

Calcineurin is the conserved target of the immunosuppressants cyclosporin A and FK506. Using the yeast two-hybrid system, we identified a novel calcineurin binding protein, CBP1, from the pathogenic fungus Cryptococcus neoformans. We show that CBP1 binds to calcineurin in vitro and in vivo, and FKBP12-FK506 inhibits CBP1 binding to calcineurin. Cryptococcus neoformans cbp1 mutant strains exhibit modest defects in growth under stress conditions and virulence, similar to but less severe than the phenotypes of calcineurin mutants. Saccharomyces cerevisiae mutants lacking the CBP1 homolog RCN1 are, like calcineurin mutants, sensitive to lithium cation stress. CBP1 shares a central peptide sequence motif, SPPxSPP, with related proteins in S.CEREVISIAE:, Schizosaccharomyces pombe, Drosophila melanogaster, Caenorhabditis elegans and humans, and peptides containing this motif altered calcineurin activity in vitro. Interestingly, the human CBP1 homolog DSCR1 is encoded by the Down's syndrome candidate region interval on chromosome 21, is highly expressed in the heart and central nervous system, and may play a role in calcineurin functions in heart development, neurite extension and memory.
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PMID:Identification and characterization of a highly conserved calcineurin binding protein, CBP1/calcipressin, in Cryptococcus neoformans. 1089 16

We have demonstrated that DSCR1 acts as a negative regulator of calcineurin-mediated signaling and that its transcript is overexpressed in the Down syndrome (DS) fetal brain. To evaluate the possible involvement of DSCR1 in DS, we have cloned the mouse gene and analyzed its expression pattern in the central nervous system (CNS). Early expression of Dscr1 is detected mainly in the heart tube and in the CNS in rhombomere 4 and the pretectum. From embryonic day 14.5 onwards, Dscr1 is widely distributed in the CNS but becomes more restricted as the brain matures. We confirmed its neuronal expression pattern in the adult, preferentially in Purkinje and pyramidal cells, by double labeling with glial fibrillary acidic protein. We also show that although Dscr1 is present in trisomy in the Ts65Dn mouse, the adult brain expression pattern is not significantly altered. This expression pattern indicated that Dscr1 is a developmentally regulated gene involved in neurogenesis and cardiogenesis and suggests that it may contribute to the alterations observed in these organ systems in DS patients.
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PMID:Dscr1, a novel endogenous inhibitor of calcineurin signaling, is expressed in the primitive ventricle of the heart and during neurogenesis. 1123 Oct 93

The DSCR1 (Adapt78) gene was independently discovered as a resident of the "Down syndrome candidate region"and as an "adaptive response"shock or stress gene that is transiently induced during oxidative stress. Recently the DSCR1 (Adapt78) gene product was discovered to be an inhibitor of the serine/threonine phosphatase, calcineurin, and its signaling pathways. We hypothesized that DSCR1 (Adapt78) might also be involved in the development of Alzheimer's disease. To address this question we first studied DSCR1 (Adapt78) in multiple human tissues and found significant expression in brain, spinal cord, kidney, liver, mammary gland, skeletal muscle, and heart. Within the brain DSCR1 (Adapt78) is predominantly expressed in neurons within the cerebral cortex, hippocampus, substantia nigra, thalamus, and medulla oblongata. When we compared DSCR1 (Adapt78) mRNA expression in post-mortem brain samples from Alzheimer's disease patients and individuals who had died with no Alzheimer's diagnosis, we found that DSCR1 (Adapt78) mRNA levels were about twice as high in age-matched Alzheimer's patients as in controls. DSCR1 (Adapt78) mRNA levels were actually three times higher in patients with extensive neurofibrillary tangles (a hallmark of Alzheimer's disease) than in controls. In comparison, post-mortem brain samples from Down syndrome patients (who suffer Alzheimer's symptoms) also exhibited DSCR1 (Adapt78) mRNA levels two to three times higher than controls. Using a cell culture model we discovered that the amyloid beta(1-42) peptide, which is a major component of senile plaques in Alzheimer's, can directly induce increased expression of DSCR1 (Adapt78). Our findings associate DSCR1 (Adapt78) with such major hallmarks of Alzheimer's disease as amyloid protein, senile plaques, and neurofibrillary tangles.
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PMID:Chronic overexpression of the calcineurin inhibitory gene DSCR1 (Adapt78) is associated with Alzheimer's disease. 1148 93


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