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ABSTRACT: The effects of vitamin E supplementation were evaluated in cultured human normal fibroblasts exposed to ultraviolet A radiation (320-380 nm) (UVA). Cells were incubated in medium containing alpha-tocopherol, alpha-tocopherol acetate or the synthetic analog Trolox for 24 h prior to UVA exposure. DNA damage in the form of frank breaks and alkali-labile sites, collectively termed single-strand breaks (SSB), was assayed by the technique of single cell gel electrophoresis (comet assay), immediately following irradiation or after different repair periods. The generation of hydrogen peroxide (H2O2) and superoxide ion (O2.-) was measured by flow cytometry through the oxidation of indicators into fluorescent dyes. It was observed that pretreatment of cells with any form of vitamin E resulted in an increased susceptibility to the photoinduction of DNA SSB and in a longer persistence of damage, whereas no significant change was observed in the production of H2O2 and O2.- reactive oxygen species, compared to untreated controls. These findings indicate that in human normal fibroblasts, exogenously added vitamin E exerts a promoting activity on DNA damage upon UVA irradiation and might lead to increased cytotoxic and mutagenic risks.
Photochemistry and Photobiology 05/2001; 73(4):370-7. · 2.41 Impact Factor
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ABSTRACT: In order to further investigate the mechanism of action of bridged lipophilic bis-pyridinium oximes previously observed to interfere with mitochondrial metabolism and to induce growth arrest and apoptosis in HeLa cells (Nocentini et al., Biochem Pharmacol 53: 1543-1552, 1997), we studied the effects of a bis-pyridinium oxime with a polymethylene chain N = 12 (BP12) on isolated rat liver mitochondria. Respiration in the absence of ADP with succinate plus rotenone as substrate was not affected after treatment with various concentrations of BP12 up to 10 microM, while the ADP-stimulated respiration was slowed down, with a parallel decrease in ATP synthesis. No effects of BP12 were detected on membrane potential, ATPase activity, and inorganic phosphate transport, but the adenine nucleotide translocase was inactivated and a permeability transition of the inner membrane was induced in the presence of calcium. These data suggest that mitochondrial impairment of ATP synthesis and the formation of the permeability transition pore may be responsible for apoptotic cell death already observed in cells treated with BP12.
Biochemical Pharmacology 02/2000; 59(3):261-6. · 4.70 Impact Factor
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S Nocentini
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ABSTRACT: The repair kinetics for rejoining of DNA single- and double-strand breaks after exposure to UVC or gamma radiation was measured in cells with deficiencies in DNA ligase activities and in their normal counterparts. Human 46BR cells were deficient in DNA ligase I. Hamster EM9 and EM-C11 cells were deficient in DNA ligase III activity as a consequence of mutations in the XRCC1 gene. Hamster XR-1 cells had mutation in the XRCC4 gene, whose product stimulates DNA ligase IV activity. DNA single- and double-strand breaks were assessed by the comet assay in alkaline conditions and by the technique of graded-field gel electrophoresis in neutral conditions, respectively. 46BR cells, which are known to re-ligate at a reduced rate the DNA single-strand breaks incurred during processing of damage induced by UVC but not gamma radiation, were shown to have a normal repair of radiation-induced DNA double-strand breaks. EM9 cells exhibited a reduced rate of rejoining of DNA single-strand breaks after exposure to ionizing radiation, as reported previously, as well as UVC radiation. EM-C11 cells were deficient in the repair of radiation-induced-DNA single-strand breaks but, in contrast to EM9 cells, demonstrated the same kinetics as the parental cell line in the resealing of DNA breaks resulting from exposure to UVC radiation. Both EM9 and EM-C11 cells displayed a significant defect in rejoining of radiation-induced-DNA double-strand breaks. XR-1 cells were confirmed to be highly deficient in the repair of radiation-induced DNA double-strand breaks but appeared to rejoin DNA single-strand breaks after UVC and gamma irradiation at rates close to normal. Taken together these results indicate that: (1) DNA ligase I is involved only in nucleotide excision repair; (2) DNA ligase IV plays an important role only in repair of DNA double-strand breaks; and (3) DNA ligase III is implicated in base excision repair and in repair of DNA double-strand breaks, but probably not in nucleotide excision repair.
Radiation Research 05/1999; 151(4):423-32. · 2.68 Impact Factor
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ABSTRACT: We have previously shown that fibroblasts from ultra-violet (UV) hypersensitive xeroderma pigmentosum patients (XP) are markedly deficient in catalase activity resulting in high intracellular levels of hydrogen peroxide (H2O2) following UV irradiation. No direct correlation between catalase activity and repair ability was found since XP variant cells which are proficient in nucleotide excision repair (NER) showed activities as low as those found in NER deficient classical XP groups A and D. However, in contrast to the skin cancer prone XP patients, another NER deficient syndrome, trichothiodystrophy (TTD), which does not exhibit any cancer predisposition, was found to present normal catalase activity. Moreover, it was found that a variety of SV40 transformed human cell lines also showed decreased catalase activities. Our previous data showed that a molecular analysis of the normal, XP, TTD or transformed human fibroblast cell lines did not reveal any differences in levels of catalase transcription or amount of catalase protein subunits. These results incited us to examine the structure/function relationship of the tetrameric active enzyme form of catalase (which is the only one able to carry out H2O2 dismutation) with its cofactor NADPH. In the present study, we have measured the effects on catalase activity after adding NADPH either to acellular extracts or during cell culture of the different cell types. The NADPH levels were also quantified directly in intact cells using flow cytometry. Our results show a clear relationship between low catalase activity and striking decrease in intracellular NADPH levels.
Free Radical Biology and Medicine 04/1998; 24(5):809-16. · 5.42 Impact Factor
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ABSTRACT: When tested on HeLa cells, bis-pyridinium oximes (BPO), a family of newly synthesized molecules whose charged pyridinium moieties are linked by a linear polymethylene chain of variable length (N = 3 to 12) have been shown to possess an inhibitory effect on cell growth and finally to provoke cell death. BPO-affected cells displayed reduced mitochondrial oxygen consumption and ATP stores and were blocked in the G1 phase of the cell cycle. Mitochondrial membrane potential, as assayed with the dye 3,3'-diexyloxacarbocyanine iodide [DiOC6(3)], increased in BPO-treated cells with time of exposure. Cell growth inhibition as well mitochondrial dysfunction were observed only with derivatives having a long polymethylene linking chain (N > or = 6). Furthermore, the concentration of the compound eliciting such effects was inversely related to the number of methylene groups in the linking chain. None of the BPO with N = 6 to 12 modified the mitochondrial DNA content, relative to the nuclear DNA content. In BPO (N = 8 and N = 12)-treated cells, chromatin fragmentation and internucleosomal DNA cleavage occurred massively, indicating that the death mode induced by these compounds is apoptosis. The possible pathway of action and the potential pharmacological interest of these compounds are discussed.
Biochemical Pharmacology 06/1997; 53(10):1543-52. · 4.70 Impact Factor
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ABSTRACT: 6,4,4'-Trimethylangelicin (TMA)-photoinduced monoadducts (MAs) were detected and quantified on DNA of normal human and Fanconi's anemia (FA) fibroblasts (complementation groups A and D) by immuno-electron microscopy. TMA-modified DNA was extracted from the cells just after photoreaction, or after a subsequent 24 h repair period, for analysis of the MA processing capabilities of the different cell lines. Unmodified DNA was extracted from the control cells in parallel. The immunoreaction with antibody 7E3 was performed on single-stranded DNA fragments obtained by heat-formamide denaturation. On single-stranded DNA fragments scanned in the electron microscope, IgG-labeled MA sites appeared as isolated or clustered IgG molecules, which were not homogeneously distributed. The isolated IgG and the different clusters (doublets, triplets or near-neighbors (within a distance of 250 nucleotides)) were measured separately for induction frequency and removal. Few interstrand cross-links (CLs) were present on X-shape DNA fragments. At time zero, the distribution patterns of TMA-photoinduced IgG-labeled MA sites and CLs, and their amount per 10(6) nucleotides, were similar in the three cell lines. After the 24 h repair period, FA cells from two different genetic complementation groups demonstrated impaired incision-excision repair capabilities for both MAs (singlets or clusters) and CLs when compared with normal cells. In each cell line, the relative proportions of TMA-induced lesions remaining at time 24 h were similar to those initially induced. This implies analogous processing kinetics towards the TMA-photoinduced clusters of MAs and CLs in a given cell line.
Journal of Photochemistry and Photobiology B Biology 05/1997; 38(2-3):220-7. · 2.81 Impact Factor
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S Nocentini
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ABSTRACT: The induction and resealing of DNA strand breaks in a cell line with a proven defect in DNA ligase I, 46BR, and in two Bloom's syndrome cell lines, YBL6 and GM 1492, were compared to those observed in normal human 1BR/3 fibroblasts after treatment with a variety of genotoxic agents whose lesions are processed by different repair pathways. This analysis was performed using the single-cell gel electrophoresis assay. The three types of cells were found to have similar capabilities to recognize and incise ultraviolet photoproducts and also demonstrated similar amounts of DNA breaks immediately after gamma irradiation. During post-treatment incubation, 46BR cells showed a marked DNA re-ligation defect after ultraviolet radiation damage, GM 1492 cells demonstrated a highly reduced DNA joining ability after relatively high doses of ultraviolet radiation, and YBL6 cells were particularly affected in DNA re-ligation after damage by 4-nitroquinoline-1-oxide. The two Bloom's syndrome cell lines and 46BR cells had a nearly normal ability to reseal breaks resulting from gamma irradiation or treatment with xanthine plus xanthine oxidase. These findings suggest that different DNA ligases may be involved in different DNA repair pathways in human cells.
Radiation Research 12/1995; 144(2):170-80. · 2.68 Impact Factor
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ABSTRACT: The dioxinocoumarin derivatives 5H-[2]benzopyrano-[3,4-g][1,4]benzodioxin-5-one (I), 5H-[2]benzopyrano-[3,4-g][2,3]-dihydro-[1,4]benzodioxin-5-on e II, 6H-[2]benzopyrano[3,4-f]-1,4-benzodioxin-6-one (III) and 6H-[2]benzopyrano[3,4-f]-2,3-dihydro-1,4-benzodioxin-6-one (IV) were synthesized. Their biological effect was studied in the presence and absence of UVA radiation, and compared with that of 8-methoxypsoralen (8-MOP) and angelicin derivatives on T7 phage, diploid yeast (Saccharomyces cerevisiae) and HeLa cells. The photobiological activities of compounds I and III were stronger than that of 8-MOP in phage inactivation and DNA synthesis inhibition in HeLa cells, whereas compounds II and IV, with a saturated dioxin ring, showed very poor activity. The photosensitizing activity of dioxinocoumarins on phage inactivation decreased by a factor of two to three in the absence of oxygen. Treatments with compound I and UVA in the presence of oxygen modified the helical structure and stability of phage DNA and proteins. Compounds I and II were more active than IV for photoinduced cell killing in yeast, although always less active than 8-MOP. At comparable photocytotoxic levels, compounds I and III were as strong inducers of cytoplasmic "petite" mutants in yeast as angelicin, suggesting a possible monofunctional mode of action with cellular DNA.
Journal of Photochemistry and Photobiology B Biology 08/1994; 24(2):129-39. · 2.81 Impact Factor
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ABSTRACT: Several dioxinocoumarin derivatives have been synthesized for photochemotherapeutical purposes. The physicochemical properties of 3,4-benzo-6,7-dioxinocoumarin and its biological activity in the dark were studied with regard to future photobiological applications. It was found that molecular aggregates are formed in aqueous solution at a concentration higher than 10(-5) mol l-1. In the dark, 3,4-benzo-6,7-dioxinocoumarin inactivates T7 phage and inhibits the growth of HeLa cells in a concentration-dependent manner. The dark inactivation of T7 phage was quantitatively characterized. It was found to be higher than that of 8-methoxypsoralen (8-MOP) and approximately equal to 4,6,4'-trimethylangelicin (TMA). From the inactivation kinetics and the lack of a quenching effect of polynucleotides on the fluorescence emission of the drug, it appears that, apart from the induction of DNA damage, other events are implicated in T7 phage dark inactivation. These results are important for the interpretation of the photobiological effects of this type of compound.
Journal of Photochemistry and Photobiology B Biology 08/1993; 19(2):119-24. · 2.81 Impact Factor
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S Nocentini
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ABSTRACT: Several observations reported in the literature suggest that singlet oxygen (1O2) might play a role in the clastogenic process in Fanconi anemia (FA) cells, and that the antioxidant status of xeroderma pigmentosum (XP) may also be altered. In order to test the ability of FA and XP cells, relative to normal cells, to cope with 1O2 damage, the effects of photosensitization by hematoporphyrin (HP) have been determined (i) on host cell reactivation (HCR) of damaged infecting herpes simplex virus (HSV) or transfecting SV40 DNA, and (ii) on DNA template capability and clonogenicity of treated cells. Results showed no significant difference among the three types of cells, either for the survival of HP-photosensitized HSV, or for the yields of SV40 virus following transfection of cultures with damaged viral DNA. The treatment of cells with HP plus 365-nm light leads to a dose-dependent, homothetic reduction of 18S and 28S ribosomal RNA (rRNA) synthesis, presumably through a mechanism other than the formation of transcription termination sites. After a 24-h post-exposure incubation, the rate of rRNA synthesis was restored to higher than normal levels in all cell lines. Finally, two FA cell lines showed a higher survival to HP photosensitization than two normal cell lines. Another FA cell line and XP-A and XP-C cells were in the range of sensitivity of the two normal strains for this treatment. These results indicate that FA cells possess an antioxidant defense system at least as efficient as that of normal cells for processing 1O2-induced damage.
Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 01/1993; 284(2):275-85. · 2.85 Impact Factor
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ABSTRACT: Bis-pyridium oximes and methoximes from a newly synthesized series are weak DNA binders (K = 3.10(4) M-1 under physiological conditions). From the number of binding sites per phosphate, 0.25, the ionic strength dependence of the binding constant and the negative electric dichroism, it is concluded that monointercalation is the mode of association. In contrast to methoxy compounds, the oxime derivatives are able both to induce the mutated "petite" phenotype in yeast S. cerevisiae and to cause "in vitro" extensive condensation of single stranded DNA. This reaction is postulated to be relevant to the mutational process that leads to "peptide" cells. The absence of nuclear mutation is interpreted in terms of sequestration of the drug in mitochondria under the effect of the organelle inner membrane electrochemical potential.
Biochemical and Biophysical Research Communications 09/1992; 186(3):1567-74. · 2.48 Impact Factor
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ABSTRACT: The 3,3'-[omega,omega'-alkanediylbis(oxy)]bis[2- (hydroxyimino)methyl]-1-methylpyridinium derivatives bearing a linking chain of 4, 5 and 6 methylene groups are accumulated in mitochondria with increasing efficiency under the effect of the electrical potential. Accumulation does not take place with derivatives carrying a 2 and 3 methylene-long linking chain. The uptake process is saturable. The efficiency of the various derivatives to induce the "petite" phenotype in yeast reflects the uptake rate observed with purified mitochondria.
Biochemical and Biophysical Research Communications 10/1991; 179(2):992-9. · 2.48 Impact Factor
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S Nocentini
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ABSTRACT: Recently, it was shown that the photoactivation of 7-methylpyrido[3,4-c]psoralen (MPP), a highly phototoxic monofunctional compound, as well as leading to the direct cycloaddition of the molecule to pyrimidine bases, also induces the dimerization of adjacent pyrimidines in DNA in vitro (Moysan et al., 1988). For other psoralens, e.g., 8-methoxypsoralen (8-MOP), such a formation of pyrimidine dimers does not occur (Costalat et al., 1989). The relatively low number of pyrimidine dimers which one can estimate from such in vitro results to be formed in vivo in cell DNA after highly lethal MPP photosensitization does not indicate that these dimers have important direct biological consequences. They could, however, interact with MPP adducts and eventually greatly potentiate their action. In order to test this hypothesis, experiments were designed to mimic the photosensitization by MPP. CV-1 TC-7 cells were irradiated at 254 nm, to produce pyrimidine dimers, and subsequently treated with 8-MOP or angelicin plus 365-nm light, to produce psoralen adducts. The clonogenicity of these cells was compared to that of cells damaged only by irradiation at 254 nm or by psoralens plus 365-nm light. It was observed that, for the same amount of induced adducts, the lethal effect of photosensitization by MPP remains much higher than that of photosensitization by 8-MOP coupled to a large excess of pyrimidine dimers induced with 254-nm light. In fact, with both 8-MOP and angelicin, close to additive effects were observed between pyrimidine dimers and psoralen adducts.(ABSTRACT TRUNCATED AT 250 WORDS)
Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 06/1990; 235(3):203-7. · 2.85 Impact Factor
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ABSTRACT: The induction and fate of psoralen-photoinduced DNA interstrand cross-links in the genome of Fanconi's anemia (FA) fibroblasts of complementation groups A and B, and of normal human fibroblasts, were investigated by quantitative analysis of totally denatured DNA fragments visualized by electron microscopy. 8-Methoxypsoralen (5 x 10(-5) M) interstrand cross-links were induced as a function of the near ultraviolet light dose. With time of postexposure incubation, a fraction of interstrand cross-links disappeared in all cell lines. However, 24 h after treatment, this removal was significantly lower in the two FA group A cell lines examined (34-39%) than in the FA group B and normal cell lines (43-53 and 47-57%, respectively). These data indicate that FA cells are at least able to recognize and incise interstrand cross-links, as normal cells do, although group A cells seem somewhat hampered in this process. This is in accord with data obtained on the same cell lines using another biochemical assay (D. Papadopoulo, D. Averbeck, and E. Moustacchi. Mutat. Res., DNA Repair Rep., 184: 271-280, 1987). Since the fate of cross-links in FA constituted a controversial matter, it is important to stress that two different methodologies applied to genetically well defined cell lines led to the same conclusions.
Cancer Research 05/1990; 50(8):2443-8. · 7.86 Impact Factor
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ABSTRACT: DNA ligase activity was studied in several untransformed or virus-transformed human cell lines from normal donors and from Bloom's syndrome (BS) patients. This proneness genetic disease is characterized by several cytological abnormalities and cancer proneness and, recently, some transformed cell lines from these patients were described to present a reduced activity of DNA ligase I. Results presented in this work indicate that: (i) the total DNA ligase activity in crude extract from untransformed or transformed cell lines from several BS patients was significantly higher than in control cells; (ii) the partial purification of the enzyme after gel filtration on fast protein liquid chromatography of crude extracts from lymphoblastoid BS cells showed that the enzyme activity was eluted in a major 180 kDa form in which activity was higher than in control cells; (iii) the activity gel analysis of these enzyme fractions revealed that DNA ligase of human cells was correlated to a major 130 kDa polypeptide and, in BS cells, the extent of the activity of this band was equal or higher than that in control untransformed or transformed cells.
Nucleic Acids Research 05/1989; 17(8):3091-106. · 8.03 Impact Factor
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ABSTRACT: Human hereditary diseases such as xeroderma pigmentosum, Fanconi's anemia, ataxia telangiectasia, and Bloom's syndrome are characterized by a proneness for developing cancer associated with abnormalities in the processing of DNA damage. The molecular defects responsible for predisposing human tissues to cancer are still not well understood, despite the fact that a considerable amount of work has already been done on this problem. In this paper, we show that in human tumor cell lines, in cells transformed by DNA tumor viruses, and in cells derived from certain cancer-prone disorders, the level of activity of a 42-kDa deoxyribonuclease is many times higher than in diploid untransformed control cells. This suggests that this activity is linked to, or may play a role in, malignant transformation.
Molecular Carcinogenesis 02/1989; 2(4):179-83. · 3.16 Impact Factor
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ABSTRACT: To determine the possible role of DNA polymerase alpha, beta and gamma during the repair period following ultraviolet (lambda max : 254 nm) irradiation of monkey CV-1 cells, we measured the three enzymatic activities by using specific tests, either in crude extracts or after fractionation by sucrose gradient (5--20%) centrifugation at high salt concentration. When compared to the unirradiated control, we could not detect any significant variation in the levels of activity of DNA polymerases alpha, beta and gamma at any time (0, 12 to 48 h) after ultraviolet irradiation of the cells with doses ranging from 9 to 52.5 J.m-2.
Nucleic Acids Research 05/1979; 6(4):1591-605. · 8.03 Impact Factor
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ABSTRACT: The DNA ligase activity of monkey kidney CV-1 cells has been measured at different stages of culture growth and after different time intervals following ultraviolet irradiation. Results indicate that: - The level of enzyme activity is about twice higher in non synchronous, rapidly dividing cells than in confluent cultures. - UV-irradiation of cells induces a "de novo" synthesis of DNA ligase. - This induction is dose dependent in its extent and kinetics, and may lead to a DNA ligase level in UV-irradiated stationary cultures of the same order as observed in unirradiated exponentially growing cells. - This induction seems to be independent of semiconservative DNA synthesis since it is not affected by fluorodeoxyuridine.
Nucleic Acids Research 12/1978; 5(11):4317-28. · 8.03 Impact Factor
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Photochemistry and Photobiology 09/1977; 26(2):125-7. · 2.41 Impact Factor
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ABSTRACT: In an enzymological approach to study DNA repair mechanisms induced by carcinogen-treatment of mammalian cells, we have investigated how DNA ligase activity is affected by the treatment with several compounds producing different DNA lesions. Stationary cultures of human fibroblasts were exposed to various doses of carcinogens (UV-light at 254 nm, N-acetoxy-acetyl-aminofluorene, ethyl-methane sulfonate, N-methylnitro-nitrosoguanidine, mitomycin C and 4-nitroquinoline-N-oxide) at different time-intervals before preparing crude cellular extracts and assaying for ligase activity. Results have shown that: 1. UV-irradiation, AAAF, 4NQO or MMC treatment of cells induces a two-fold increase in the ligase activity compared to control cells within 48 hours following the treatment. 2. A partial purification of the enzyme from these cellular crude extracts by sedimentation through sucrose gradients has shown: a. DNA ligase activity from control cells presents a profile composed of two distinct peaks sedimenting respectively at about 4S and 7S; b. the carcinogen treatment of either repair-proficient human fibroblasts or repair-deficient xeroderma pigmentosum cells (complementation group A) seems to induce a specific increase of the 4S-form of DNA ligase.
Biochimie 64(8-9):743-8. · 3.02 Impact Factor
