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)

In this study, a sensitive host cell reactivation (HCR) technique was used to examine the repair capacity for DNA damaged by sunlamp exposure in fibroblast strains derived from 5 normal individuals and 8 patients representing three different diseases associated with DNA repair deficiencies. Adenovirus type 2 (Ad 2) was exposed to radiation from a GE 275 W sunlamp and subsequently used to infect fibroblast monolayers. At 48 hr after infection, cells were scored for the presence of viral structural antigens (Vag) using indirect immunofluorescent staining. Previous reports using this technique showed a substantial reduction in the HCR of sunlamp-exposed Ad 2 for infection of excision repair deficient fibroblasts from patients with xeroderma pigmentosum. In contrast, the HCR of Vag synthesis for sunlamp-exposed Ad 2 was in the normal range for the three ataxia telangiectasia, three Bloom's syndrome, and two Huntington's disease fibroblasts strains.
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PMID:Host cell reactivation of sunlamp-exposed adenovirus in fibroblasts from patients with Bloom's syndrome, ataxia telangiectasia, and Huntington's disease. 182 56

Ionizing radiation sensitive, mutant human lymphoblastoid cell lines derived from patients with Huntington's disease (HD), or ataxia telangiectasia (AT) both showed cross sensitivity to bleomycin, as assayed by reduced cell viability and increased frequency of chromosome aberrations compared to normal controls. In contrast to AT cells which failed to show inhibition of DNA synthesis after exposure to ionizing radiation, or bleomycin treatment, the sensitive cells from HD patients had depressed rates of DNA synthesis after damage with these agents, similar to that seen in normal cells. In terms of progression through the cell cycle bleomycin damaged AT cells moved from G1 into S and from S to G2 + M at almost the same rate as untreated cells. Bleomycin treated HD cells showed a large proportion of cells blocked in G1, cells were slowed down in S, the rate of entry to G2 + M was reduced and only 5% of cycling cells reached G2. Progress through the cell cycle in normal cells exposed to bleomycin showed a partial block in G1 and the rate of entry to G2 + M was reduced. These differences in response of normal, AT and HD cells to ionizing radiation and bleomycin treatment indicates that the defect underlying the sensitivity is different in HD cells from that in AT cells.
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PMID:Responses of Huntington's disease and ataxia telangiectasia lymphoblastoid cells to bleomycin. 619 97

The effects of ionizing radiation on cell-cycle progression in lymphoblastoid cell lines derived from ataxia telangiectasia (AT) and Huntington's disease (HD) patients, and from normal individuals, were studied using DNA flow cytometric analysis. A dose of 100 rad gamma irradiation blocked a proportion of normal and HD cells in G1. A higher radiation dose applied to normal cells increased the number of cells blocked in G1 and significantly delayed cells which were in S at the time of irradiation from reaching G2 DNA content. The reduced cumulative mitotic index in irradiated cultures of normal cells 2 h after irradiation suggests that cells in G2 at the time of irradiation are delayed before entering mitosis. After irradiation HD cells responded similarly to normal cells except that a greater proportion of HD cells were blocked in G1. AT cells do not show the normal delay in progression from G1 to S, or from S to G2 in the first cycle after irradiation. The cumulative mitotic index was reduced in irradiated cells, implying that they are delayed in G2. Thus AT cells did not recognize or respond to signals from damaged DNA which in normal and HD cells caused a proportional block in G1 and an S-phase delay. The only point of arrest in cell-cycle progression in irradiated AT cells was in G2.
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PMID:Perturbations of cell-cycle progression in gamma-irradiated ataxia telangiectasia and Huntington's disease cells detected by DNA flow cytometric analysis. 622 33

The repair of potentially lethal damage following treatment with gamma radiation was investigated in human fibroblasts held in a non-cycling state by maintenance in a medium containing 0.5% foetal calf serum. Normal cells were found to be competent in the repair of PLD. Ataxia-telangiectasia cells were deficient as was a heterozygote suggesting that a failure to repair PLD may make it possible to detect such heterozygotes. Fibroblasts from Huntington's disease patients were either slightly or no more sensitive than cells from normal individuals. Cultures from two individuals in the former class showed limited capacity to repair PLD but cells from the latter class were as competent as normals. Thus assays of radiosensitivity where conditions allow for the repair of PLD may maximise small differences in sensitivity. Cells taken from three patients suffering from Basal Cell Naevus Syndrome were also shown to be defective in the repair of PLD. The existence of such a defect may be related to the increased frequency of basal cell cancer observed in exposed fields following irradiation of such individuals.
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PMID:Deficient recovery from potentially lethal damage in some gamma-irradiated human fibroblast cell strains. 623 93

Of 2.1 million patients seen in 25 years at the University College Hospital, Ibadan, Nigeria, only 25 suffered from heredodegenerative disorders of the nervous system. Six patients had hereditary ataxia, 10 essential tremor, 4 Huntington's chorea, 2 ataxia telangiectasia, and 3 Charcot-Marie-Tooth disease.
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PMID:Hereditary neurodegenerative disorders in Nigerian Africans. 623 May 42

The influence of inhibitors of poly(ADP-ribose) polymerase such as 3-aminobenzamide (3AB) and benzamide (B) on the spontaneously occurring as well as mutagen induced chromosomal aberrations, sister chromatid exchanges (SCEs) and point mutations has been studied. In addition, we have measured the influence of 3AB on DNA repair following treatment with physical and chemical mutagens. Post treatment of X-irradiated mammalian cells with 3AB increases the frequencies of induced chromosomal aberrations by a factor of 2 to 3. Both acentric fragments and exchanges increase indicating that the presence of 3AB slows down the repair of DNA strand breaks (probably DNA double strand breaks), thus making breaks available for interaction with each other to give rise to exchanges. 3AB, when present in the medium containing bromodeoxyuridine(BrdUrd) during two cell cycles, increases the frequencies of SCEs in Chinese hamster ovary cells (CHO) in a concentration dependent manner leading to about a 10-fold increase at 10 mM concentration. Most 3AB induced SCEs occur during the second cell cycle, in which DNA containing bromouridine (BU) is used as template for replication. BU containing DNA appears to be prone to errors during replication. The extent of increase in the frequencies of SCEs by 3AB is correlated with the amount of BU incorporated in the DNA of the cells. The frequencies of spontaneously occurring DNA single strand breaks in cells grown in BrdUrd containing medium are higher than in the cells grown in normal medium and this increase depends on the amount of BU incorporated in the DNA of these cells. We have studied the extent of increase in the frequencies of SCEs due to 1 mM 3AB in several human cell lines, including those derived from patients suffering from genetic diseases such as ataxia telangiectasia (A-T), Fanconi's anemia (FA), and Huntington's chorea. None of these syndromes showed any increased response when compared to normal cells. 3AB, however, increased the frequencies of spontaneously occurring chromosomal aberrations in A-T and FA cells. 3AB does not influence the frequencies of SCEs induced by UV or mitomycin C (MMC) in CHO cells. However, it increases the frequencies of SCEs induced by ethyl methanesulfonate (EMS) and methyl methanesulfonate (MMS). Under the conditions in which 3AB increases the frequencies of spontaneously occurring as well as induced SCEs, it does not increase the frequencies of point mutations in hypoxanthine-guanine phosphoribosyltransferase (HGPRT) locus. 3AB does not influence the amount of repair replication following dimethylsulphate (DMS) treatment of human fibroblasts, or UV irradiated human lymphocytes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Influence of inhibitors of poly(ADP-ribose) polymerase on DNA repair, chromosomal alterations, and mutations. 631 38

An enzyme that enhances the activity of DNA polymerase I (EC 2.7.7.7) for gamma-irradiated calf thymus DNA was demonstrated in cellular extracts of normal human fibroblasts and lymphoid-cell lines. This enzyme was found to be deficient in all cellular extracts of fibroblasts and lymphoid-cell lines examined from patients with the autosomal recessive disease ataxia telangiectasia. The activity in cellular extracts from normal fibroblasts was removed when heated to 100 degrees C for 2 min or when the assay was performed at 4 degrees C. No significant deficiency in primer-activating enzyme activity was observed in cell-free extracts of lymphoid lines from patients with xeroderma pigmentosum, Huntington's chorea or neurofibromatosis, or from an ataxia telangiectasia heterozygote.
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PMID:An enzyme activity in normal and ataxia telangiectasia cell lines which is involved in the repair of gamma-irradiation-induced DNA damage. 645 Dec 16

Cells from patients with ataxia telangiectasia, a rare autosomal recessive disease characterized by primary neuronal degeneration, are abnormally sensitive to the DNA-damaging chemical N-methyl-N'-nitro-N-nitrosoguanidine. We have conducted experiments to determine whether more common primary neuronal degenerations also have a hypersensitivity to this radiomimetic chemical. Fibroblast strains from 13 control donors and from 13 patients with inherited primary neuronal degenerations were treated in vitro with the chemical, and the strains' sensitivity to the chemical was then determined by measuring their ability to divide and form colonies. Twelve of the 13 patient strains, including the 6 Huntington disease and the 4 familial dysautonomia strains, were abnormally sensitive. This hypersensitivity, which is believed to reflect defective repair of the chemically-induced DNA damage, might provide the basis for presymptomatic and prenatal diagnostic tests for these disorders and for elucidating their pathogenesis.
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PMID:Hypersensitivity to N-methyl-N'-nitro-N-nitrosoguanidine in fibroblasts from patients with Huntington disease, familial dysautonomia, and other primary neuronal degenerations. 645 14

3-Aminobenzamide (3-AB), an inhibitor of poly(ADP-ribosylation), is lethal to human fibroblasts with damaged DNA. Its cytotoxicity was determined relative to a number of factors including the types of lesions, the kinetics of repair, and the availability of alternative repair systems. A variety of alkylating agents, UV or gamma irradiation, or antimetabolites were used to create DNA lesions. 3-AB enhanced lethality with monofunctional alkylating agents only. Within this class of compounds, methylmethanesulfonate (MMS) treatments made cells more sensitive to 3-AB than did treatment with methylnitrosourea (MNU) or methylnitronitrosoguanidine (MNNG). 3-AB interfered with a dynamic repair process lasting several days, since human fibroblasts remained sensitive to 3-AB for 36-48 hours following MMS treatment. During this same interval, 3-AB caused these cells to arrest in G2 phase. Alkaline elution analysis also revealed that this slow repair was delayed further by 3-AB. Human mutant cells defective in DNA repair differed in their responses to 3-AB. Among mutants sensitive to monofunctional alkylating agents, ataxia telangiectasia cells were slightly more sensitive to 3-AB than control cells, while Huntington's disease cells had a near-normal response. Among UV-sensitive strains, xeroderma pigmentosum variant (XPV) cells were more sensitive to 3-AB after MMS than were XP complementation group A (A) cells, which responded normally. Greater lethality with 3-AB could be dependent on inability of the mutant cells to repair damage by other processes.
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PMID:Factors modifying 3-aminobenzamide cytotoxicity in normal and repair-deficient human fibroblasts. 674 52

The sensitivities of fifteen human fibroblast cell strains to the lethal effects of alkylation damage produced by N-methyl-N-nitrosourea (MNU) and N-ethyl-N-nitrosourea (ENU) have been investigated. Nine cell strains were also investigated for their sensitivities to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). Included in our survey are representative strains derived from donors with the repair defective syndromes xeroderma pigmentosum (XP) and ataxia-telangiectasia (A-T), as well as strains derived from patients with Cockayne's syndrome, Bloom's syndrome, Huntington's disease and strains derived from individuals with unclassified syndromes. On the basis of our survival data we report that hypersensitivity to MNU is shown by two A-T strains (AT3BI and AT5BI), an XP strain (XP3BR), and strain 46BR derived from a patient with hypogammaglobulinaemia. This sensitivity to methylating agents is also shown by strains 46BR and XP3BR when treated with MNNG, but not for strain AT5BI. Sensitivity to ENU is shown by strain 11961 (derived from a sun-sensitive individual), XP3BR and a single Cockayne's syndrome strain CS697CTO. Of the strains studied only XP3BR was sensitive to both ethylating and methylating agents and only 46BR showed a greater than two-fold increase in sensitivity compared to normal.
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PMID:The response of a variety of human fibroblast cell strains to the lethal effects of alkylating agents. 706 35

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