UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A human gene encoding a putative RNA helicase, designated DDX10, was identified 400 kb telomeric to the ataxia-telangiectasia gene at chromosome 11q22-q23. The predicted amino acid sequence shows very high similarity to a subgroup of DEAD-box RNA helicases involved in ribosome biogenesis. This novel gene encodes a 3.2-kb transcript in a variety of human tissues. A processed pseudogene of DDX10 was detected at chromosome 9q21-q22. We observed a rare trinucleotide repeat length polymorphism within the coding sequence of DDX10.
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PMID:A human gene (DDX10) encoding a putative DEAD-box RNA helicase at 11q22-q23. 866 Sep 68

Ataxia telangiectasia (AT) is characterized by neurological deterioration, immunodeficiency, spontaneous chromosomal instability, hypersensitivity to ionizing radiation, predisposition to cancer, particularly T cell leukaemia and lymphoma, and premature ageing. The most commonly observed defect affecting telomeres in humans is telomeric fusions, particularly in T lymphocytes in AT patients. Rarely, some tumour cells, like senescent cells, have dicentric chromosomes that may arise as a result of telomeric sequence loss. We show that the AT mutation in the homozygous state confers a predisposition to accelerated telomere shortening with increasing age in peripheral blood lymphocytes (PBLs), which may be linked to premature senescence. We also show that telomeric fusions are associated with large (> 90%) preleukaemic translocation clones in T cells. We propose that these fusions may result from a compound effect of accelerated telomere shortening, together with a growth advantage of cells in large clones which leads to further telomere loss. Fusions are not observed in leukaemic cells in these patients. There is no evidence that either accelerated telomere loss per se or telomeric fusions are important in tumourigenesis. Telomerase is present in both normal and AT lymphocytes and so neither telomere shortening nor telomeric fusions can be explained by the absence of telomerase.
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PMID:Accelerated telomere shortening in ataxia telangiectasia. 867 36

Chromosome 11q23 is frequently a site of chromosomal translocation in both acute leukemias and chronic lymphoproliferative disorders. In the former, an 8 kb region within the MLL gene is consistently involved, whereas in the latter breakpoints appear to be heterogeneous. In a B cell acute leukemia cell line with t(14;18)(q32.3;q21.3) we have previously demonstrated a reciprocal translocation between the LAZ3/BCL6 gene at 3q27 and the B cell specific transcriptional coactivator gene BOB-1 at 11q23.1, implicating BOB-1 as a potential proto-oncogene. To confirm the chromosomal localization of BOB-1 we have mapped it by FISH to 11q23.1. It lay immediately telomeric of the ATM gene. We have also investigated the frequency of BOB-1 rearrangements in a panel of 32 cell lines and 71 patient samples. In one case of T cell prolymphocytic leukemia-a disease where 11q23 abnormalities are observed-a chromosomal rearrangement was identified 3.3-0.9 kb centromeric of the 3' end of the gene. Thus, there is a heterogeneity of breakpoints associated with BOB-1 while the frequency of the gene's involvement in lymphoproliferative diseases is low.
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PMID:Heterogeneity of breakpoints at the transcriptional co-activator gene, BOB-1, in lymphoproliferative disease. 875 68

Chromosomal instability with a high frequency of telomere fusion is characteristic of ataxia-telangiectasia cells both in vivo and in vitro. We have measured telomere length and found it to be consistently reduced in both diploid and SV40-transformed cells A-T fibroblasts, relative to control cells. We examined a few possible mechanisms which might account for telomeric length reduction, including telomerase activity in transformed cells and endogenous nuclease activities, but found no differences between A-T and control cells in these parameters.
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PMID:Reduced telomere length in ataxia-telangiectasia fibroblasts. 881 33

Previous reports have suggested that heterozygotes for ataxia-telangiectasia (A-T) have an increased risk of cancer, in particular breast cancer. The ATM gene, responsible for A-T, was recently cloned. Loss of heterozygosity (LOH) in the chromosome band 11q23, where the ATM gene is located, has been reported in several types of tumours including breast carcinomas. Whether the ATM gene is the target, and the sole target, for the LOH seen in this region is not yet known. In this study, 169 primary breast carcinomas and 10 metastases were examined for allelic imbalance (AI) using 10 microsatellite markers mapping to 11q23.1. Nine of the markers reside within a 10 Mb region surrounding the ATM gene, whereas the tenth locus, APOC-3, is located more than 12 Mb telomeric from this region. The highest frequencies of alteration were found for APOC-3 (45%), and for two markers located approximately 200 and 900 kb telomeric from ATM, D11S1294 (44%) and D11S1818 (44%). The marker located within the ATM gene, D11S2179, was altered in 37% of the informative tumours. The present deletion map indicates that three distinct regions at 11q23.1 may be involved in breast cancer development; one between the markers D11S1294 and D11S1818, a second close to APOC-3, and a third that is possibly the ATM-gene itself.
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PMID:Loss of heterozygosity at 11q23.1 in breast carcinomas: indication for involvement of a gene distal and close to ATM. 907 70

We have constructed YAC, PAC, and cosmid contigs in the ataxia-telangiectasia gene region and used the assembled clones to isolate expressed sequences by exon trapping and hybridization selection. In the interval between D11S1819 and D11S2029, exons and cDNAs for potentially 13 different genes were identified. Three of these genes, F37, K28, and 6.82, are large novel genes expressed in a variety of different tissues. K28 shows sequence homology to the Rab GTP binding protein family and gene 6.82 homology to the rabbit vasopressin activated calcium mobilizing receptor, while gene F37 has no homology to any known sequence in the database. Three further clones, exon 6.41 and cDNAs K22 and E74, from the interval between D11S1819 and D11S2029, appear to be expressed endogenous retrovirus sequences. The fourth large novel genes, E14, together with two further possible novel genes, E13 and E3, was identified from exons and cDNAs in the more telomeric 300-kb interval between markers D11S2029 and D11S2179. These are in addition to the genes for mitochondrial acetoacetyl-CoA-acetyltransferase (ACAT) and the ATM gene in the same region. Genes E3, E13, and E14 do not show homology to any known genes. K28, 6.82, ACAT, and ATM all appear to have the same transcriptional orientation toward the telomere.
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PMID:Construction of a transcription map around the gene for ataxia telangiectasia: identification of at least four novel genes. 911 94

Ataxia telangiectasia (AT) is an autosomal recessive gene disorder, and ATM, a housekeeping gene, has been identified as the gene responsible for AT. Recently we found that another housekeeping gene, NPAT, is located upstream of ATM on human chromosome 11. The two housekeeping genes are transcribed in opposite directions and share a 0.5-kb 5' flanking sequence. The structure and organization of NPAT were determined by direct sequencing of cosmid clones carrying the gene and by application of the long and accurate (LA)-PCR method to amplify regions encompassing the exon/intron boundaries and all of the exons. The gene spans at least 44 kb and consists of 18 exons and 17 introns. It has been suggested that AT heterozygotes have an increased risk of developing cancer, especially breast cancer in women. Frequently, loss of heterozygosity at loci on 11q22-q24 has been observed in DNA isolated from tumors of the breast, uterine cervix, and colon, perhaps suggesting the location of a tumor suppressor gene in 11q22-q24. For investigation of the role of NPAT in AT and these tumors with allelic loss of 11q22-q24, appropriate primer sequences and PCR conditions for amplification of all the NPAT exons from genomic DNA were determined. We previously reported that no recombinations are found among Atm, Npat, and Acat1 (acetoacetyl-CoA thiolase) loci as determined by fine genetic linkage mapping of the mouse AT region. The results of the LA-PCR analysis using NPAT- and ACAT-specific primers and human genomic DNA allowed us to map ACAT 12 kb centromeric to NPAT.
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PMID:The structure and organization of the human NPAT gene. 920 9

Telomeres are maintained in germ line cells and immortal cell lines, but shorten with each cell division in most somatic cells. Blood lymphocytes from individuals with ataxia telangiectasia (AT) demonstrate an accelerated rate of telomere shortening and high levels of telomere associations. This accelerated loss of telomeres in somatic cells in AT could be due to either the loss of more telomeric DNA with every cell division or an increased rate of cell division. The gene for AT shares homology with the yeast TEL1 gene, in which mutations result in abnormally shortened telomeres. Thus, mutations in the gene for ataxia telangiectasia may also influence the ability of germ line cells and immortal cell lines to properly maintain telomere homeostasis. To investigate a possible defect of telomere maintenance in AT we have analyzed 8 simian virus 40 (SV40)-immortalized AT cell lines and twelve SV40-immortalized non-AT cell lines for both telomerase activity and telomere length. The results demonstrate that telomere length in AT cells is maintained via telomerase or an alternative (ALT) pathway in a manner indistinguishable from cell lines derived from normal cells. We also investigated telomere dynamics in one telomerase-positive AT cell line by analyzing the changes in the length of a single telomere, and found that this telomere maintained its equilibrium mean length (EML) similar to normal cell lines with stable chromosomes. The combined results show no significant differences between the telomeres of immortal AT and non-AT cell lines, demonstrating that the absence of wild-type ATM does not result in a fundamental defect in telomere maintenance in these cells.
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PMID:Normal telomere maintenance in immortal ataxia telangiectasia cell lines. 935 46

DNA-dependent protein kinase (DNA-PK) is a nuclear protein serine/threonine kinase that is activated by DNA double strand breaks (DSBs). It is a component of the DNA DSB repair apparatus, and cells deficient in DNA-PK are hypersensitive to ionising radiation and radio-mimetic drugs. In addition, DNA-PK is required to generate the antigen binding sites of T-cell receptor and immunoglobulin molecules, and the phenotype of the severe combined immunodeficient (scid) mouse is due to a DNA-PK deficiency. Recent data suggest that DNA-PK may also have roles in controlling transcription, apoptosis, and the length of telomeric chromosomal ends. Finally, DNA-PK is related to other proteins involved in DNA damage detection, including the protein defective in the human neurodegenerative and cancer predisposition syndrome ataxia-telangiectasia. Studies on DNA-PK should provide a better understanding of degenerative disease and cancer, and may lead to improved therapies for these conditions.
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PMID:DNA-dependent protein kinase. 937 73

The ATM gene product, which is defective in the cancer-prone disorder ataxia telangiectasia, has been implicated in mitogenic signal transduction, chromosome condensation, meiotic recombination and cell cycle control. The ATM gene has homology with the TEL1 gene of yeast, mutations of which lead to shortened telomeres. To test the hypothesis that the ATM gene product is involved in telomere metabolism, we examined telomeric associations (TA), telomere length, and telomerase activity in human cells expressing either dominant-negative or complementing fragments of the ATM gene. The phenotype of RKO colorectal tumor cells expressing ATM fragments containing a leucine zipper (LZ) motif mimics that of ataxia telangiectasia (A-T) cells. These transfected RKO cells relative to transfected controls had a higher frequency of cells with TA and shortened telomeres, but no detectable change in telomerase activity. In addition, the percentage of cells with TA after gamma irradiation was higher in the transfected RKO cells with dominant negative activity of the ATM gene, compared to control cells. SV40 transformed fibroblasts derived from an A-T patient and transfected with a complementing carboxyl terminal kinase region of the ATM gene had a reduced frequency of cells with TA, with no effect on the telomere length or telomerase activity. The present studies using isogenic cells with manipulated ATM function demonstrate a role for the ATM gene product in telomere metabolism.
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PMID:Influence of ATM function on telomere metabolism. 940 Sep 92

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