Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, a new syndrome of early onset cerebellar ataxia with hypoalbuminemia (EOCA-HA) was reported in Japan. The clinical features of EOCA-HA overlap with those of Friedreich's ataxia (FA), and primary hypoalbuminemia is a characteristic laboratory finding of this syndrome. Genetic linkage analysis of EOCA-HA including this newly reported family revealed that the gene for EOCA-HA is located on the long arm of chromosome 9 as FA. However, several recombination events were observed between D9S15 in EOCA-HA, whereas no recombination events were seen in FA. We report on two siblings with EOCA-HA and discuss the clinical and laboratory features. The patients were a 25-year-old man (patient 1) and a 23-year-old man (patient 2). Their parents marriage was non-consanguineous. The mode of inheritance is compatible with autosomal recessive mode. Clinically, they showed cerebellar ataxia as the initial symptom in the late infantile period and subsequently showed choreoathetosis and ocular motor apraxia at the age of approximately fifteen years. Deep tendon reflexes were reduced in late infancy and finally disappeared. Amyotrophy and sensory impairment of the legs developed at approximately twenty. Abnormal electrocardiogram and diabetes mellitus were not observed. On X-ray CT scan or MRI, the cerebella of both patients were mildly atrophic. Clinical features in these siblings were indistinguishable from those of ataxia telangiectasia, but immunodeficiency syndrome was absent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Siblings of early onset cerebellar ataxia with hypoalbuminemia]. 778 Dec 24

A gene, ATM, that is mutated in the autosomal recessive disorder ataxia telangiectasia (AT) was identified by positional cloning on chromosome 11q22-23. AT is characterized by cerebellar degeneration, immunodeficiency, chromosomal instability, cancer predisposition, radiation sensitivity, and cell cycle abnormalities. The disease is genetically heterogeneous, with four complementation groups that have been suspected to represent different genes. ATM, which has a transcript of 12 kilobases, was found to be mutated in AT patients from all complementation groups, indicating that it is probably the sole gene responsible for this disorder. A partial ATM complementary DNA clone of 5.9 kilobases encoded a putative protein that is similar to several yeast and mammalian phosphatidylinositol-3' kinases that are involved in mitogenic signal transduction, meiotic recombination, and cell cycle control. The discovery of ATM should enhance understanding of AT and related syndromes and may allow the identification of AT heterozygotes, who are at increased risk of cancer.
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PMID:A single ataxia telangiectasia gene with a product similar to PI-3 kinase. 779 89

Ataxia-telangiectasia is a progressive recessive disease featuring neurodegeneration, immunodeficiency, chromosomal instability, radiation hypersensitivity and increased predisposition to cancer. Impaired induction of the tumor suppressor protein p53 after gamma-irradiation was recently reported. All together these characteristics may be compatible with an inability to correctly regulate the apoptotic pathway of cell death in this syndrome. We show here that lymphocyte cultures from AT patients are characterized by a 3 times more elevated spontaneous level of apoptotic cells compared to normal ones. In spite of this, 24 h after exposure to gamma-irradiation (5 to 10 Gy), AT lymphocytes show a dramatically reduced capacity to undergo apoptosis compared to normal cells. We obtained similar results on EBV-transformed lymphoblasts. Interestingly, lymphoblasts from obligate heterozygous for the AT mutation(s) show the same features as AT lymphoblasts, i.e. an elevated frequency of spontaneous and a reduced level of radio-induced apoptotic figures in comparison to normal cultured cells. In conclusion, we show here, for the first time, that mutation(s) in AT gene(s) results in an impaired ability to correctly regulate the apoptotic pathway of cell death.
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PMID:[Changes in the radiation-induced apoptotic response in homozygotes and heterozygotes for the ataxia-telangiectasia gene]. 788 43

Lymphoproliferative disorders and selected carcinomas which occur as complications of primary or secondary immunodeficiencies are frequently fatal. The incidence rates of these cancers vary from 1% to as high as 25% among specific groups of persons with primary (genetically-determined) immunodeficiencies as well as acquired immunodeficiencies, including immunosuppressed organ transplant recipients and individuals infected with HIV. Lymphoproliferative disorders including Epstein Barr virus (EBV) associated B cell lymphoproliferative disease (BLPD) and Hodgkin's disease represent the predominant category of tumors in both primary and acquired immunodeficiencies. EBV is an important cofactor common to many, but not all, B cell "lymphomas." Immunodeficient individuals who are at risk for developing EBV BLPD may demonstrate both inadequate immune responses to the virus as well as generalized immunoregulatory dysfunction reflected as imbalances in cytokine production favoring the proliferation of transformed B lymphocytes. Historically, the success of treatment of lymphoproliferative disorders in immunodeficiencies with conventional multi agent chemotherapies and/or radiation has been limited by unfavorable tumor response rates and high morbidity and mortality related to intercurrent opportunistic infections. With improvements in supportive care and the use of recombinant biologic response modifiers such as alpha interferon and/or other immunotherapies to treat EBV BLPD, survival of immunodeficient hosts following tumor diagnosis may improve. In addition to lymphoproliferative disorders, patients with congenital immunodeficiencies associated with IgA deficiency (including ataxia telangiectasia and Common Variable Immunodeficiency) are at increased risk for gastrointestinal carcinomas. Early detection and surgical excision of such tumors can result in prolonged survival in such patients.
Immunodeficiency 1994
PMID:Lymphoproliferative disorders and other tumors complicating immunodeficiencies. 803 67

The TCL1 locus on chromosome 14 band q32.1 is frequently involved in the chromosomal translocations and inversions with the T-cell receptor genes observed in several T-cell tumors, including T-prolymphocytic leukemias, acute and chronic leukemias associated with the immunodeficiency syndrome ataxia-telangiectasia, and adult T-cell leukemia. All breakpoints cloned in this area have been mapped to 14q32.1, an area distant approximately 10,000 kb from the immunoglobulin heavy-chain gene locus on chromosome 14q band 32.3. Except for two cases of inversion, no physical linkage of the cloned breakpoints has been reported, nor has a gene been identified in this region. Taking advantage of chromosome-walking techniques and of the P1 phage, we cloned and characterized 450 kb of the germ-line TCL1 locus, starting from the breakpoints of two independent T-cell leukemias. We show that all molecular rearrangements characterized so far map to these clones, indicating not only that this region is the target of chromosomal rearrangements occurring in this area but also that both inversion and translocations occur within a 300-kb region in the T-cell leukemias. In the attempt to identify a candidate oncogene responsible for the malignant transformation, a CpG island centromeric to the inversions and to the translocations has been identified. Two probes near the CpG island have detected sequences conserved among species, as well as two transcripts in the K562 human erythroleukemia cell line. On the basis of these data, a model of activation of the putative TCL1 oncogene is suggested.
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PMID:Chromosome walking on the TCL1 locus involved in T-cell neoplasia. 841 91

Yesterday's immunodeficiencies emphasized the clinical and familial associations of the syndromes and date from the 1920s (ataxia-telangiectasia, chronic mucocutaneous candidiasis), the 1930s (Wiskott-Aldrich syndrome), skipping the 1940s, but blossoming in the 15-y period from 1950 to 1965. In this period, primary immunodeficiencies affecting all the major limbs of the immune system were first described (1950: severe combined immunodeficiency; 1952: X-linked agammaglobulinemia; 1957: chronic granulomatous disease; 1965: C2 deficiency). Today's immunodeficiencies, as detailed in Stiehm's Immunologic Disorders in Infants and Children (Edition 1, 1973; Edition 2, 1980; and Edition 3, 1989) emphasize the immunologic and genetic aspects of immunodeficiency. These increased from 43 syndromes in the 1973 edition (34 primary, nine secondary) to 94 syndromes in the 1989 edition (66 primary, 28 secondary). This means that about two primary and one secondary immunodeficiencies have been uncovered annually. Tomorrow's immunodeficiencies, to be covered in Edition 4, will include new clinical and immunologic observations and molecular and biochemical studies that characterize some unique immunodeficiencies. These include the following six groups of defects: 1) neutropenic syndromes with hypogammaglobulinemia, including the WHIM syndrome; 2) phenotypic genetic syndromes with immunodeficiency including Bloom's syndrome and Schimke's immuno-osseous dysplasia; 3) natural killer cell defects associated with a) other primary immunodeficiencies, b) other nonimmunologic illness, and c) primary natural killer defects; 4) T-cell membrane defects; 5) IL defects; and 6) miscellaneous phagocytic illnesses including periodontitis and the asplenia syndrome.
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PMID:New and old immunodeficiencies. 843 70

Ataxia telangiectasia (AT) is an autosomal recessive disorder characterized by progressive cerebellar ataxia, oculocutaneous telangiectasias, immunodeficiency with recurrent infections, IgA and IgE deficiency, and increased incidence of malignancies. The pathognomonic biological abnormalities consist of spontaneous chromosomal instability resulting in a high in vivo occurrence of cells with translocations, especially involving chromosomes 7 and 14, and a relative insensitivity of DNA replication in vitro to radiation exposure. We report on a patient with the biological hallmarks of AT but with atypical clinical manifestations. Although progressive cerebellar ataxia was present, the neurological picture was broader than that usually seen in AT and included peripheral polyneuropathy and spinal atrophy. On the other hand, telangiectasias, recurrent infections, malignancies, IgA deficiency, or other immunological abnormalities were not present. This illustrates that the clinical picture of AT is broad and nonspecific, and highlights the diagnostic value of cytogenetic analysis and studies of radioresistance of DNA synthesis.
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PMID:Atypical clinical presentation of ataxia telangiectasia. 845 62

A substantial proportion of patients with primary immunodeficiency diseases develop tumors, particularly those of lymphoreticular system caused by Epstein-Barr virus (EBV). Primary immunodeficiency renders patients susceptible to EBV by reducing immune reactions and surveillance abilities against the virus or inducing overreaction of the responding cells to the antigens. Recent progress in molecular biology has unraveled the genes responsible for several types of primary immunodeficiency diseases. The cloning of the ATM gene demonstrated that the mutations in this gene were observed in the members of all the families affected with ataxia telangiectasia (AT), indicating the crucial role of this gene in the pathogenesis of AT. The protein encoded by the ATM gene shows a high sequence homology with several proteins which are presumed to be involved in the regulation of the cell cycle transition. Accumulating evidence indicates that AT-derived cells are sensitive to irradiation due to the abnormalities in p53-dependent cell cycle arrest at G1 phase. Thus, the ATM product may regulate the cell cycle at G1 phase in a p53-dependent manner and the defect of the gene may lead to the accumulation of cells with DNA damages, thereby causing malignant transformation.
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PMID:[Primary immunodeficiency diseases]. 853 51

A brother and sister are described with severe microcephaly of prenatal onset, normal intellectual and motor development, chromosomal breakage and cellular immunodeficiency, which is characteristic of the autosomal recessive condition, Nijmegen breakage syndrome. The proband was a girl who presented at 15 months, with normal developmental milestones and an extremely small head circumference of 36 cm. Twenty per cent of her lymphocytes showed spontaneous translocations involving chromosome 7p13, 7q35, 14q11, and 14q32. The lymphocytes also showed excessive x ray induced chromosome damage. She had T cell lymphopenia, but normal immunoglobulins, and a normal alpha fetoprotein. A brother was born shortly after her diagnosis was made. He also had extreme microcephaly of 28 cm, with similar spontaneous and x ray induced chromosomal breakage, and T cell lymphopenia. Neither child has clinical evidence of immunodeficiency. To test the hypothesis that Nijmegen breakage syndrome and ataxia telangiectasia are allelic disorders, haplotype analysis was carried out in the family using DNA markers spanning the AT locus on chromosome 11q22. The affected boy had a different haplotype from his affected sister. Thus in this family, the Nijmegen breakage syndrome is not allelic to the ataxia telangiectasia locus on chromosome 11q, and the two conditions are genetically distinct. The normal intellect in these children raises questions about normal brain development in the presence of severe microcephaly.
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PMID:Severe microcephaly with normal intellectual development: the Nijmegen breakage syndrome. 855 61

Ataxia-telangiectasia (A-T) is an autosomal recessive disorder involving cerebellar degeneration, immunodeficiency radiation sensitivity, and cancer predisposition. A-T heterozygotes are moderately cancer prone. The A-T gene, designated ATM, was recently identified in our laboratory by positional cloning, and a partial cDNA clone was found to encode a polypeptide with a PI-3 kinase domain. We report here the molecular cloning of a cDNA contig spanning the complete open reading frame of the ATM gene. The predicted protein of 3056 amino acids shows significant sequence similarities to several large proteins in yeast, Drosophila and mammals, all of which share the PI-3 kinase domain. Many of these proteins are involved in the detection of DNA damage and the control of cell cycle progression. Mutations in their genes confer a variety of phenotypes with features similar to those observed in human A-T cells. The complete sequence of the ATM gene product provides useful clues to the function of this protein, and furthers understanding of the pleiotropic nature of the A-T mutations.
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PMID:The complete sequence of the coding region of the ATM gene reveals similarity to cell cycle regulators in different species. 858 78


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