Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have addressed three aspects of the abnormal sensitivity of SV40 transformed ataxia-telangiectasia (A-T) fibroblasts to X-irradiation, namely: (a) the radiogenic perturbations in cell-cycle traverse analysed by flow cytometry; (b) the involvement of 3-aminobenzamide-sensitive processes in cellular recovery in terms of viability and release from G2 + M phase delay; and (c) the functional and structural integrity of cells delayed in G2 + M phase using acridine orange as a probe for cellular RNA content and chromatin structure. We report that A-T cells show a dose-dependent and survival-related abnormal retention in G2 + M phase due to the lack of a recovery process, despite the capacity of such cells to synthesize ribosomal RNA and maintain the structural integrity of chromatin. Evidence is presented that the recovery process is dependent upon poly(ADP ribosyl)ation activity in both normal and A-T cells except that in the latter cell type recovery potential is rapidly saturated in terms of X-ray dose.
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PMID:Abnormal retention of X-irradiated ataxia-telangiectasia fibroblasts in G2 phase of the cell cycle: cellular RNA content, chromatin stability and the effects of 3-aminobenzamide. 258 11

We have recently shown that 3-acetamidobenzamide (3-AAB), a highly effective inhibitor of ADP-ribosyl transferase (ADPRT), can act as a post-irradiation (electrons) sensitizer on the mouse lymphoma cell lines L5178Y R and S. We have now shown that this compound sensitizes human derived skin fibroblasts but to a lesser extent. Fibroblasts derived from normal, Friedreich's ataxia, and ataxia-telangiectasia individuals were equally sensitized by 3-AAB to electron radiation. 3-AAB was also effective in sensitizing the mouse lymphoma lines to fast neutron irradiation. In addition DNA strand break repair was retarded as had been found after electron irradiation. 3-Nitrobenzamide is structurally a potentially dual action radiation sensitizer with electron affinic and ADPRT inhibitory properties. It is a weaker inhibitor of ADPRT compared to 3-AAB, and results in a smaller sensitization of mouse lymphoma cells in air. However, a much greater sensitization is achieved in anoxia. This greater sensitization appears to be a synergistic rather than an additive combination of its electron affinic and ADPRT inhibitory properties.
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PMID:The effects of benzamide ADP-ribosyl transferase inhibitors on cell survival and DNA strand-break repair in irradiated mammalian cells. 300 43

The effects of modification of poly(ADP-ribosyl)ation reactions have been examined in normal (F107) and ataxia telangiectasia (AT23) fibroblasts following damage by methyl methanesulphonate (MMS) and u.v. light. The technique of benzoylated DEAE (BD)-cellulose chromatography was utilized to estimate both the extent and nature of the damage to DNA induced by these agents and to examine the effects of an inhibitor of poly(ADP-ribose) synthetase, 3-aminobenzamide (3AB), on these parameters. Single strand breakage, determined by nucleoid sedimentation, and levels of poly ADP(ribose) synthesis were monitored. Increase in the proportion of DNA containing single-stranded regions, as measured by stepwise elution from BD-cellulose, was observed following MMS damage in both cell types. In the presence of 3AB, a further accumulation of DNA containing single-stranded regions occurred, with the effect being more prominent in AT23 fibroblasts. U.v. light damage did not induce increased binding to BD-cellulose in normal cells, and the increase observed in AT23 cells was much less than that seen following alkylation damage. Examination of the nature of single-stranded damage by caffeine gradient elution from BD-cellulose following MMS treatment revealed discrete structural lesions, which were enhanced in the presence of 3AB. A similar effect was exerted by arabinofuranosyl cytosine. The behaviour of these intermediates, which could be associated with repair, was not in accord with the suggestion that 3AB inhibits only the ligation stage of the repair process. Our results suggest that specific intermediate stages in DNA repair are sensitive to 3AB, and it seems likely that these stages occur prior to ligation.
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PMID:Inhibition of poly(ADP-ribose) synthesis may affect DNA repair prior to ligation. 380 93

Post-irradiation changes in DNA synthesis and ADP-ribosyltransferase (ADPRT) activity in L5178YS and L5178YR, radiation sensitive and resistant murine lymphoma cells are described. DNA synthesis was inhibited to a greater extent in L5178YS than in L5178YR cells. The stimulation of ADPRT activity by irradiation was not significantly different between these two cell lines. These observations contribute to other evidence which has failed to confirm a general association of ADP-ribosylation with the DNA synthesis inhibition response. The contrast between the response of L5178Y cells and the corresponding behaviour of ataxia telangiectasia cells and normal human cells indicate that entirely different mechanisms are involved in determining the differences in radiosensitivity in these two systems.
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PMID:Post-irradiation inhibition of scheduled DNA synthesis and stimulation of ADP-ribosylation in sensitive and resistant L5178Y murine lymphoma cells. 631 90

There is substantial evidence that ADP-ribosylation is stimulated in response to DNA strand breaks produced directly by a damaging agent or during excision repair processes. The report of a reduced stimulation of ADPRT activity in irradiated ataxia telangiectasia cells has recently stimulated a wide interest in the role of ADP-ribosylation in cellular radiation response. The resulting studies, some of which are presented at this conference, demonstrate that cellular recovery from radiation damage can be significantly impaired if ADP-ribosylation is inhibited to a sufficiently low level. The implication is that the repair of DNA lesions is affected. This review summarizes the involvement of the enzyme ADPRT and the extent of ADP-ribosylation in the repair of DNA damage and of cellular recovery.
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PMID:Introductory review: involvement of ADP-ribosylation in cellular recovery from some forms of DNA damage. 632 Aug 50

The cellular basis for the enhanced sensitivity to ionising radiation and some DNA damaging chemicals in ataxia-telangiectasia (AT) cells is not clearly understood. Abnormalities in cell-cycle traverse, chromosome stability and DNA synthesis patterns have suggested that a chromatin associated defect may be the primary lesion in AT. This study involves an attempt to define such an anomaly by the use of a vital DNA specific bis-benzimidazole dye (Hoechst 33342) and deoxyribonuclease II as probes for chromatin organisation in intact and permeabilised human cells respectively. Despite similar DNA binding characteristics (determined by flow cytometry) of Ho33342 in normal and AT transformed fibroblasts, the AT cells show: (i) enhanced cell killing and increased accumulation of cells in G2 phase of the cell-cycle [both biological responses being relatively resistant in AT cells to modification by an inhibitor of poly (ADP ribosyl)ation], (ii) no resistance of de novo DNA synthesis to Ho33342-induced inhibition, (iii) elevated levels of slow-rejoining ligand-induced DNA strand-breaks, and (iv) enhanced expression of chromatin regions accessible to an exogenously supplied endonuclease. The results are interpreted on the basis that a chromatin anomaly of enhanced nuclease susceptibility, involving a minor fraction of the genome, may be a controlling factor in the expression of the various in vivo and in vitro characteristics of AT cells.
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PMID:Relationship between a chromatin anomaly in ataxia-telangiectasia cells and enhanced sensitivity to DNA damage. 648 55

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 synthesis of poly(adenosine diphosphoribose) [poly(ADR-R)] follows the DNA strand breakage produced by a number of physical and chemical agents, including X-radiation, and may be important for repair of several types of DNA damage. The reduction or abolition of its synthesis following X-irradiation might explain the enhanced sensitivity of ataxia-telangiectasia (A-T) cells to X-ray. We have examined 8 lines of human fibroblasts (including 4 A-T lines) for stimulation of the synthesis of poly(ADP-R) by X-irradiation. Similar amounts of X-ray-stimulated synthesis of poly(ADP-R) were detected in 4 lines of A-T fibroblasts, and in fibroblasts from a xeroderma pigmentosum (XP) patient, a Fanconi's anemia (FA) patient and 2 normal patients. 6 lines of human lymphoblastoid lines were also examined for X-ray-stimulated poly(ADP-R) synthesis. 4 A-T lines displayed an unusually high synthesis of poly(ADP-R) in unirradiated cells compared with 2 normal lines. Despite this complication, some but not all, of the A-T lymphoblastoid lines did synthesize poly(ADP-R) following X-irradiation similarly to the normal lines. Thus, deficient poly(ADP-R) synthesis following X-irradiation is not likely to explain the enhanced sensitivity of all A-T cells to this DNA-breaking agent.
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PMID:Ataxia-telangiectasia cells are not uniformly deficient in poly(ADP-ribose) synthesis following X-irradiation. 683 65

Poly (ADP-ribose) polymerase is a eukaryotic chromosomal enzyme which utilizes the ADP-ribose moiety of NAD to synthesize the nucleic acid homopolymer (ADP-ribose)n (ref. 1). The precise function of (ADP-ribose)n has not been fully established although it does covalently modify chromosomal proteins by ADP-ribosylation. Here we demonstrate that gamma-ray irradiation of lymphoblastoid cells from normal subjects results in depressed DNA synthesis and increased (ADP-ribose)n synthesis. Irradiation of lymphoblastoid cells from patients with the autosomal recessive disease ataxia telangiectasia (AT), however, failed to depress DNA synthesis and did not elevate (ADP-ribose)n levels. We have confirmed that (ADP-ribose)n is synthesized in response to DNA damage and we propose that this polymer may function in the recovery from DNA damage by suppressing DNA synthesis.
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PMID:Unusual levels of (ADP-ribose)n and DNA synthesis in ataxia telangiectasia cells following gamma-ray irradiation. 743 91

Among a number of tissues and peripheral blood cells in chicken, leukocytes, bone marrow cells, liver and spleen showed high ADP-ribosyltransferase activity, with leukocytes having the highest. Density gradient centrifugation of the leukocytes revealed that the leukocyte ADP-ribosyltransferase originates in the polymorphonuclear cells, so called heterophils. Subcellular distribution of the cells showed the localization of the enzyme in the granule fraction. Based on the obtained amino acid sequences of arginine-specific ADP-ribosyltransferase purified from chicken peripheral heterophils, two arginine-specific ADP-ribosyltransferase cDNAs (designated AT1 and AT2) were obtained from chicken bone marrow cells. Each cDNA encodes a different peptide of 312 amino acid residues. Homology of the deduced amino acid sequences between AT1 and AT2 was 78.3%. Arginine-specific ADP-ribosyltransferase activity was detected in culture medium of COS 7 cells transiently transfected with AT1 cDNA, while activity from the cells transfected with AT2 cDNA was found in both culture medium and cell lysate. AT1 transferase required 2-mercaptoethanol (MSH) for the activity and in the presence of NaCl, the activity was inhibited while the AT2 enzyme was activated by either agent. Highly conserved regions were observed among the deduced amino acid sequences of AT1, AT2, chicken erythroblast and rabbit and human skeletal muscle ADP-ribosyltransferases, and rodent T-cell surface antigen RT6. Two forms of the transferase with much the same properties as AT1 and AT2 proteins, regarding the effect of NaCl and MSH, were detected in bone marrow cells. Based on these results it seems that AT1 and AT2 cDNAs encode the two forms of arginine-specific ADP-ribosyltransferase detected in chicken bone marrow cells.
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PMID:Molecular cloning and characterization of arginine-specific ADP-ribosyltransferases from chicken bone marrow cells. 919 46


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