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)

Ataxia telangiectasia (AT) is an autosomal recessive disorder characterized by cerebellar ataxia, telangiectasia, immunodeficiency, elevated alpha-fetoprotein levels, chromosomal instability, predisposition to cancer, and radiation sensitivity. We report the identification of a new, double missense mutation in the ataxia telangiectasia gene (ATM) of a Dutch family. This homozygous mutation consists of two consecutive base substitutions in exon 55: a T-->G transversion at position 7875 of the ATM cDNA and a G-->C transversion at position 7876. These transversions were confirmed by polymerase chain reaction/primer-induced restriction analysis with CelII. The double base substitution results in an amino acid change of an aspartic acid to a glutamic acid at codon 2625 and of an alanine to a proline at codon 2626 of the ATM protein. Both amino acids are conserved between the ATM protein and its functional homolog, the Atm gene product in the mouse. Furthermore, the Chou-Fasman and Robson predictions both demonstrate a change in the secondary structure of the ATM protein carrying the D2625E/A2626P mutation. These findings suggest that the double base substitution in the ATM gene is a disease-causing mutation.
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PMID:A double missense mutation in the ATM gene of a Dutch family with ataxia telangiectasia. 952 87

Ataxia-Telangiectasia (A-T) is a rare autosomal recessive disease characterised by cutaneous telangiectasia, cerebellar ataxia, immunodeficiency, high sensitivity to ionising radiation, chromosomal instability and an increased risk of cancer. The gene mutated in A-T patients, ATM, is located on chromosome 11q22-23. ATM heterozygotes are thought to have a high tendency to develop malignancies, such as breast cancer. In order to determine the contribution of heterozygous ATM mutation to cancer, studies of cancer-affected patients have been undertaken in non site-specific cancer families and sporadic breast cancer cases. No evidence of an important role of ATM heterozygous mutations has been shown. In order to give another contribution to these results, we tried to define a specific family phenotype according to the most common cancers observed in ATM heterozygotes. Breast and gastric cancers appear to be the most frequent malignancies in A-T carriers and one ATM germ-line mutation has been described in a breast/gastric cancer family. Therefore we further investigated the role of ATM mutation in additional breast/gastric cancer families. In eighteen families associating these two malignancies, we used the protein transcription/translation test to detect ATM mutations in the index case from each family. We found one case of ATM mutation which did not cosegregate with the gastric cancer in the family.
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PMID:No evidence for constitutional ATM mutation in breast/gastric cancer families. 959 4

Ataxia-telangiectasia (A-T) is an autosomal recessive human disorder that, because of its multisystem nature, is of interest to scientists and clinicians from many disciplines. A-T patients have defects in the neurological and immune systems, telangiectasia in the eyes and face, and are, in addition, cancer-prone and radiation-sensitive. A-T cell lines have a range of diverse phenotypes including sensitivity to ionizing radiation and defects in cell-cycle checkpoint control. The ATM protein is a member of the PI 3-kinase-like superfamily, and it has been widely accepted that A-T cells represent mammalian cell-cycle checkpoint mutants and that the radiation sensitivity is a consequence of this defect. However, several lines of evidence suggest that A-T cells have distinct repair and checkpoint defects. A-T cells therefore appear to harbour dual checkpoint/repair defects. Here, we review the evidence supporting this contention and consider its implications for an analysis of the A-T phenotype.
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PMID:Splitting the ATM: distinct repair and checkpoint defects in ataxia-telangiectasia. 972 63

Ataxia telangiectasia (A-T) is a rare autosomal recessive disorder characterized by cerebellar ataxia, oculocutaneous telangiectasia, and variable degrees of humoral and cellular immunodeficiency. Affected individuals are known to exhibit a high incidence of lymphoma and leukemia. Because of increased chemosensitivity, the treatment of A-T patients with malignancies requires extremely careful planning and caution with respect to the use of chemotherapy. The authors report on a 12-year-old boy with A-T who developed B-cell lymphoma. He received a half-dose of the drugs administered according to the acute lymphoblastic leukemia (ALL) protocol issued by our children's cancer study group (9104 Standard Risk Protocol, Tokai Pediatric Oncology Study Group). As a result, he continues to be in complete remission and free of treatment complications 32 months after the diagnosis of B-cell lymphoma.
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PMID:Ataxia telangiectasia associated with B-cell lymphoma: the effect of a half-dose of the drugs administered according to the acute lymphoblastic leukemia standard risk protocol. 978 9

Ataxia-telangiectasia (AT) is a complex, autosomal recessive disorder characterized by cerebellar ataxia, believed to result from progressive neurodegeneration, and telangiectasia, dilation of blood vessels within the eyes and parts of the facial region. AT patients suffer from recurrent infections caused by both cellular and humoral immune deficiencies and as a population, are significantly predisposed to cancer, particularly lymphomas and leukemias. Early attempts at treating these malignancies with radiotherapy revealed another hallmark of AT, a profound hypersensitivity to the cytotoxic effects of ionizing radiation (IR) which is recapitulated at the cellular level in culture. Predisposition to cancer and radiosensitivity observed in AT has been linked to chromosomal instability, abnormalities in genetic recombination, and defective signaling to programmed cell death and several cell cycle checkpoints activated by DNA damage. These earlier observations predicted that the gene defective in AT may encode a protein which plays a crucial role in sensing DNA damage and transducing signals that promote cell survival. Through the combined efforts of linkage analysis and positional cloning, a single gene was identified on chromosome 11q22-33 by Shiloh and colleagues and was found to be mutated in all four complementation groups previously characterized in cell lines derived from AT patients (Savitsky et al., 1995a,b). The predicted ATM gene product shows considerable homology to an emerging family of high molecular weight, phosphatidylinositol-3 kinase (PI-3 K)-related proteins involved in eukaryotic cell cycle control, DNA repair, and DNA recombination (Zakian, 1995). This landmark discovery has triggered a resurgence of biochemical and genetic studies focusing on ATM function which has brought forth insights regarding ATM activity and its role in DNA damage signaling.
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PMID:The role of ATM in DNA damage responses and cancer. 991 92

An 8 year old boy who had Langerhans cell histiocytosis when he was 15 months old showed psychomotor regression from the age of 2 years. Microcephaly, severe growth deficiency, and ocular telangiectasia were also evident. Magnetic nuclear resonance imaging showed cerebellar atrophy. Alphafetoprotein was increased. Chromosome instability after x irradiation and rearrangements involving chromosome 7 were found. Molecular study failed to show mutations involving the ataxia-telangiectasia gene. This patient has a clinical picture which is difficult to relate to a known breakage syndrome. Also, the relationship between the clinical phenotype and histiocytosis is unclear.
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PMID:Ataxia, ocular telangiectasia, chromosome instability, and Langerhans cell histiocytosis in a patient with an unknown breakage syndrome. 1005 Oct 19

Ataxia-telangiectasia (AT) is an autosomal recessive multisystem disorder presenting in childhood with progressive cerebellar ataxia, oculocutaneous telangiectasia, immune deficiency, radiosensitivity, and cancer predisposition. The gene for AT, designated ATM (AT, mutated) encodes a protein with a carboxy-terminal phosphoinositide-3 kinase domain which is involved in cell cycle checkpoints and other responses to genotoxic stress. Most of the patients with the classical AT phenotype are homozygous or compound heterozygous for severe mutations causing truncation or destabilization of the ATM protein. Patients with a milder forms of disease, called AT variants, have been found to be either homozygous for milder mutations or compound heterozygotes for null alleles and mild mutations. In order to define the clinical phenotype of patients homozygous (or compound heterozygotes) for other, milder mutations, we decided to search for ATM mutations in patients with either sporadic or familial idiopathic ataxia. Thirty-four patients with idiopathic cerebellar ataxia, aged 3-77 years, were screened for mutations in the ATM coding region. There were 12 familial cases. None of the patients had abnormal immunoglobulin or alpha-fetoprotein levels, and none had mutations in the ATM coding region. In this heterogeneous group of patients with cerebellar ataxia we found no mutations in the ATM gene. We conclude that mutations in the ATM gene are probably not a common cause for cerebellar ataxia other than AT.
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PMID:Absence of mutations in ATM, the gene responsible for ataxia telangiectasia in patients with cerebellar ataxia. 1046 Apr 51

Ataxia telangiectasia (A-T) is an autosomal recessive disease affecting multiple systems, including the development of the cerebellum and thymus. This results in a progressive cerebellar ataxia with onset between 1-3 years, telangiectasia occurs within the subsequent 3-5 years. We localized the A-T gene by linkage analysis to chromosome 11q22-23, between the markers D11S384, and D11S535, and constructed a series of contigs using three BACs and twelve cosmids, spanning a region of approximately 400 kb. We developed a set of sequence-tagged site (STS) markers from the ends of the BACs and cosmids. The A-T gene was isolated from within this region. It is now possible to precisely orient specific BACs, cosmids, and STSs with respect to the exons of the A-T gene (ATM). We anticipate that this information will be useful for further studies of functional domains and regulatory elements within the ATM gene, as well as for other genes in this region. In addition, these clones can be used for FISH studies of deletions, translocations and for loss of heterozygosity in various tumors.
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PMID:Physical map of the region surrounding the ataxia-telangiectasia gene on human chromosome 11q22-23. 1056 8

Quantification of radiation-induced apoptosis in peripheral blood lymphocytes (PBLs) has been proposed as a possible screening test for cancer-prone individuals and also for the prediction of normal tissue responses after radiotherapy. We have used the TUNEL assay (terminal transferase nick-end labeling) 24 h after irradiation with 4 Gy at high dose rate to assess interindividual differences in radiation-induced apoptosis between (1) a panel of normal individuals, (2) ataxia telangiectasia (AT) homozygotes and heterozygotes, and (3) breast cancer patients who had received radiotherapy 8-13 years ago, including a number of patients who had suffered adverse responses to radiation. With this protocol, we show clear differences in radiation-induced apoptosis between individuals, and good reproducibility in the assay. In agreement with previous reports using EBV-transformed lymphoblasts, we show a very poor induction of apoptosis in AT homozygotes and a reduced level in AT heterozygotes compared to normal individuals. A similar reduced level compared to normal individuals was seen in the breast cancer patients. Despite a wide range of values in the breast cancer patients and good reproducibility on repeat samples, there was no correlation of rates of apoptosis with the severity of breast fibrosis, retraction or telangiectasia. The reduced rate of apoptosis observed in the breast cancer cases may be associated with genetic predisposition to breast cancer; however, we conclude that assays of lymphocyte apoptosis are unlikely to be of use in predicting normal tissue tolerance to radiotherapy.
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PMID:Detection of individual differences in radiation-induced apoptosis of peripheral blood lymphocytes in normal individuals, ataxia telangiectasia homozygotes and heterozygotes, and breast cancer patients after radiotherapy. 1079 Feb 78

ATM (ataxia-telangiectasia mutated) gene plays a central role in the DNA-damage response pathway. We characterized the ATM protein expression in immortalized cells from AT and AT-variant patients, and heterozygotes and correlated it with two ATM-dependent radiation responses, G1 checkpoint arrest and p53-Ser 15 phosphorylation. On Western blots, the full-length ATM protein was detected in eight of 18 AT cases, albeit at 1-32% of the normal levels, whereas a truncated ATM protein was detected in a single case, despite the prevalence among cases of truncation mutations. Of two ataxia without telangiectasia [A-(T)] cases, one expressed 20% and the other approximately 70% of the normal ATM levels. Noteworthy, among ten asymptomatic heterozygous carriers for AT, normal amounts of ATM protein were found in one and reduced by 40-50% in the remaining cases. The radiation-induced phosphorylation of p53 protein at serine 15, largely mediated by ATM kinase, was defective in AT, A(-T) and in 2/4 heterozygous carriers, while the G1 cell cycle checkpoint was disrupted in all AT and A(-T) cases, and in 3/10 AT heterozygotes. Altogether, our study shows that AT and A(-T) cases bearing truncation mutations of the ATM gene can produce modest amounts of full-length (and only rarely truncated) ATM protein. However, this limited expression of ATM protein provides no benefit regarding the ATM-dependent responses related to G1 arrest and p53-ser15 phosphorylation. Our study additionally shows that the majority of AT heterozygotes express almost halved levels of ATM protein, sufficient in most cases to normally regulate the ATM-dependent DNA damage-response pathway.
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PMID:ATM protein and p53-serine 15 phosphorylation in ataxia-telangiectasia (AT) patients and at heterozygotes. 1086 1

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