Showing papers on "Sister chromatid exchange published in 1991"

Use of human hepatoma cells for in vitro metabolic activation of chemical mutagens/carcinogens

Abstract: An established human hepatoma cell strain (Hep G2) was used in micronuclei (MN) and sister chromatid exchange (SCE) assays to evaluate the clastogenic potential of several indirectly-acting mutagenic carcinogens. Benzo[a]pyrene, cyclophosphamide, dimethyl nitrosamine, hexamethylphosphoramide, pyrene and safrole were selected for this study based on the positive and negative results reported with conventional in vitro assays employing rat liver S9 fraction for metabolic activation. Two directly-acting mutagens, methyl methanesulphonate and mitomycin C, were also included in this study. In this system, the human hepatoma cells act as the metabolic activation source as well as the target cell for DNA damage. The results obtained demonstrate that the Hep G2 cells are metabolically competent to activate different classes of mutagens into biologically active metabolites. The non-carcinogen pyrene did not induce any increase in the frequencies of MN and SCE in Hep G2 cells. Furthermore, a good correlation was found between positive and negative data obtained for the tested chemicals in this in vitro assay with literature data obtained in in vivo tests using rodents.

Cytogenetic effects of pulsing electromagnetic field of human lymphocytes in vitro: chromosome aberrations, sister-chromatid exchanges and cell kinetics

Abstract: Exposure of human lymphocyte cultures to a pulsing electromagnetic field (PEMF; 50 Hz, 1.05 mT) for various durations (24, 48 and 72 h) resulted in a statistically significant suppression of mitotic activity and a higher incidence of chromosomal aberrations. Furthermore, the shorter exposure times (24 and 48 h) did not cause a significant delay in cell turnover (cell proliferation index) or an increase in the baseline frequency of sister-chromatid exchanges (SCE). However, cultures continuously exposed to PEMF for 72 h exhibited significant reduction of the cell proliferation index (CPI) and an elevation of SCE rate. These results suggest that exposure to PEMF may induce a type of DNA lesions that lead to chromosomal aberrations and cell death but not to SCE, except probably at longer exposure times.

Is the Genotoxic Effect of Arsenic Mediated by Oxygen Free Radicals

Abstract: Previous investigations have shown that trivalent arsenic is inducing chromosomal aberrations and sister chromatid exchanges (SCEs). In a search for the genotoxic mechanism we have studied the effects

Recommended protocols based on a survey of current practice in genotoxicity testing laboratories. IV, Chromosome aberration and sister-chromatid exchange in Chinese hamster ovary, V79 Chinese hamster lung and human lymphocyte cultures

Abstract: A recommended protocol has been developed for chromosomal aberration and sister-chromatid exchange assays in CHO, V79 and human lymphocyte cultures. The protocol was based on the responses to a detailed questionnaire completed by North-American and European governmental, university, and contract laboratories using these tests. This report identifies those modifications to previously described methods that are used on a regular basis and clarifies confusing or inconsistent practices. These protocols can be modified for use in other types of cells.

Cytogenetic biomonitoring of an Italian population exposed to pesticides: chromosome aberration and sister-chromatid exchange analysis in peripheral blood lymphocytes

Abstract: Chromosome aberrations (CA) and sister-chromatid exchanges (SCE) were measured in lymphocytes of (A) 32 healthy individuals working in the flower industry and exposed to pesticides, (B) 32 individuals exposed as above and hospitalized for bladder cancer, and (C) 31 controls. Compounds to which floriculturists were exposed included 18 nitro-organic herbicides and fungicides, 9 nitro-organic fungicides, 12 organophosphate and organothiophosphate insecticides, 4 hydrocarbon derivative herbicides and 5 inorganic fungicides and insecticides. 150 and 70 metaphases per individual were scored for CA and SCE, respectively. A significant increase in the incidence of CA and SCE was observed in both exposed groups. Cancer patients showed the presence of rare rearrangements (dicentrics, rings and quadriradials) that were not observed in controls and were present at a lower frequency in healthy exposed people. Hyperdiploid and polyploid metaphases were also significantly increased in the 2 exposed groups compared to controls. Stratifying for age or smoking habits, although affecting the significance of individual data, did not change the substance of the results.

DNA adduct formation in mice treated with ochratoxin A.

Abstract: Several authors have reported the occurrence of renal and hepatic tumours in mice and rats exposed to ochratoxin A in long-term studies. The compound was not mutagenic, however, in various microbial and mammalian gene mutation assays, either with or without metabolic activation. Contradictory results were obtained for induction of unscheduled DNA synthesis and sister chromatid exchange. We showed previously that ochratoxin A causes DNA damage, manifested as single-strand breaks in mouse spleen cells and in vivo. These findings, which suggest that ochratoxin A is weakly genotoxic to mammalian cells, prompted us to search for DNA adducts using a modified 32P-postlabelling method, the sensitivity of which was improved by treatment with nuclease P1. DNA was isolated from liver, kidney and spleen excised from mice 24, 48 and 72 h after oral treatment with ochratoxin A at 0.6, 1.2 and 2.5 mg/kg body weight. Several adducts were found in the DNA of the three organs, the levels varying greatly. After administration of 2.5 mg/kg body weight, 40 adducts per 10(9) nucleotides were found in kidney DNA and 7 adducts per 10(9) nucleotides in liver after 72 h. The levels of most of the adducts increased from 24 to 72 h, but those of others diminished after 24 or 48 h. Adducts were found in spleen only at 24 and 48 h. These results confirm the genotoxicity of ochratoxin A.

Mechanisms of tandem duplication in the Duchenne muscular dystrophy gene include both homologous and nonhomologous intrachromosomal recombination.

Abstract: Three tandem duplications were previously identified in patients with Duchenne muscular dystrophy and were shown in each case to have a subset of dystrophin gene exons duplicated. The origin of these duplications was traced to the single X chromosome of the maternal grandfathers, suggesting that an intrachromosomal event (unequal sister chromatid exchange) was involved in the formation of these duplications. In the present study, a DNA segment containing the duplication junction and the normal DNA that corresponds to both ends of the duplicated region have been cloned. Subsequent mapping studies confirmed the tandem arrangement (head to tail) of these duplications and revealed their sizes to be 130 kb, approximately 300 kb, and 35-80 kb, respectively. Sequence analysis of the duplication junctions showed that one duplication was due to homologous recombination between two repetitive elements (Alu sequences) and the other two were due to recombination between unrelated nonhomologous sequences. In the latter cases, the preferred cleavage sites of the eukaryotic type I and II DNA topoisomerases were found at the junctions of these duplications, suggesting a possible role of these enzymes in the chromatid exchange events. This study provides the first insight into the molecular basis of gene duplications formed through unequal sister chromatid exchange in humans.

Etoposide (VP-16-213)-induced gene alterations: potential contribution to cell death.

Abstract: We have shown previously a good correlation between etoposide-induced sister chromatid exchanges (SCE) and cytotoxicity. A semisynthetic derivative of podophyllotoxin, etoposide is also called Vepesid (Bristol; code designation VP-16-213, abbreviated VP-16). Since SCE represent DNA recombinational events, we hypothesized that VP-16-induced SCE might result in nonhomologous recombination in which segments of DNA were either deleted or added, leading to an alteration of gene sequences responsible for essential cell proteins. Alterations of such essential genes and consequent interference with formation of their products could consequently lead to cell death. To evaluate whether VP-16 treatment caused sufficient levels of DNA sequence alterations to interfere with gene product formation, we isolated hypoxanthine (guanine) phosphoribosyltransferase (HPRT)-deficient mutants from Chinese hamster V79 cells grown in the presence or absence of VP-16. DNA from 3 spontaneous mutants and 10 VP-16-induced mutants was analyzed by Southern blot hybridization to a full-length hamster HPRT cDNA probe. Most of the VP-16-induced mutants showed partial deletions and/or rearrangements of the HPRT gene. In contrast, spontaneous mutants showed negligible deletions or rearrangements. These results provide strong support for our hypothesis that deletion of genetic sequences may constitute an important component of the mechanism of VP-16-induced cell death.

1,3-Butadiene and its epoxides induce sister-chromatid exchanges in human lymphocytes in vitro

Abstract: Sister-chromatid exchanges (SCEs) were induced in human lymphocytes by 1,3-butadiene and its epoxides 3,4-epoxy-1-butene and 1,2:3,4-diepoxybutane. After a pulse treatment of 2 h, 1,3-butadiene produced a weak but reproducible increase in SCEs both with and without S9 mix. The response was similar in cultures of whole blood and of isolated lymphocytes. The 2 epoxide metabolites of butadiene, studied in whole-blood lymphocyte cultures without exogenous metabolic activation, were highly active SCE inducers. The lowest effective concentrations of butadiene, monoepoxybutene, and diepoxybutane were 2000 microM, 25 microM and 0.5 microM, respectively. A slight but dose-dependent increase in SCEs was also observed without an exogenous metabolic system after a 48-h treatment with 1,3-butadiene. Already the lowest concentration tested (500 microM) was effective. Again, the response was similar in cultures of whole blood and isolated lymphocytes, suggesting that the lymphocytes are capable of metabolically activating 1,3-butadiene.

Single-strand breaks, chromosome aberrations, sister-chromatid exchanges, and micronuclei in blood lymphocytes of workers exposed to styrene during the production of reinforced plastics.

Abstract: Chromosome aberrations (CA), micronuclei (MN, cytokinesis-block (CB) method), and sister-chromatid exchanges (SCE) were analysed in blood lymphocytes of 17 workers and 17 control subjects. The mean urinary mandelic acid level (average 9.4 mmol/l) and styrene glycol in blood (average 2.5 mumol/l) implied exposure to about 300 mg/m3 of styrene in the plant. The number of CA was significantly higher in non-smoking workers compared with nonsmoking controls. A significant correlation was observed between duration of exposure and individual CA level of all workers. No significant effects were observed in MN or SCE. Single-strand breaks (SSB) in DNA of isolated lymphocytes were studied in nine of the workers and eight of the controls by the DNA-unwinding technique. The results showed an increase in SSB among the exposed workers. The present findings support earlier reports on the increase of structural CA in blood lymphocytes of workers in the reinforced plastic industry, and also show that SSBs are elevated in such workers.

Frequency of sister chromatid exchange in peripheral lymphocytes of male pesticide applicators.

Abstract: In the present study 61 male pesticide applicators who worked in cotton fields and regularly sprayed pesticides such as DDT, BHC, endosulfan, malathion, methyl parathion, phosphamidon, dimethoate, monocrotophos, quinalphos fenvelrate, and cypermethrin were analyzed for sister chromatid exchanges, mitotic index, and cell cycle kinetics in peripheral lymphocytes. Subjects who handled pesticides were non-smokers and teetotalers and the data were compared with the matched control group. Statistical analysis revealed that the frequency of sister chromatid exchanges was significantly higher among the pesticide applicators at all the durations of exposure when compared to controls. Subjects exposed to pesticides also showed cell cycle delay and decrease in mitotic index when compared to the control group.

Investigations of the frequency of DNA strand breakage and cross-linking and of sister chromatid exchange in the lymphocytes of electric welders exposed to chromium- and nickel-containing fumes.

Abstract: A total of 39 electric welders exposed to chromium and nickel were compared with 18 controls standardized for age, smoking habits and sex with respect to the frequency of sister chromatid exchange (SCE) and of DNA strand breakage and cross-linking (measured by the method of alkaline filter elution) in their blood lymphocytes. A significant correlation was found between the frequency of SCE and of individual DNA strand breakage and the concentration of chromium in the urine. Less DNA from the welders than from the control group was eluted through the two filter types used (polycarbonate and polyvinylidene fluoride filters). This must be interpreted as resulting from the presence of DNA-protein cross-links, which has the secondary effect of leading to a relative reduction in the measurable frequency of strand breakage amongst the welders. The present results are in good agreement with in vitro and in vivo investigations that confirm the importance of DNA-protein cross-links for the carcinogenic effect of chromium.

Absence of a synergistic effect between moderate‐power radio‐frequency electromagnetic radiation and adriamycin on cell‐cycle progression and sister‐chromatid exchange

Abstract: In our laboratories we are conducting investigations of potential interactions between radio-frequency electromagnetic radiation (RFR) and chemicals that are toxic by different mechanisms to mammalian cells. The RFR is being tested at frequencies in the microwave range and at different power levels. We report here on the 1) ability of simultaneous RFR exposures to alter the distribution of cells in first and second mitoses from that after treatment by adriamycin alone, and 2) on the ability of simultaneous RFR exposure to alter the extent of sister chromatid exchanges (SCEs) induced by adriamycin alone. This chemical was selected because of its reported mechanism of action and because it is of interest in the treatment of cancer. In our studies, Chinese hamster ovary (CHO) cells were exposed for 2 h simultaneously to adriamycin and pulsed RFR at a frequency of 2,450 MHz and a specific absorption rate of 33.8 W/Kg. The maximal temperature (in the tissue-culture medium) was 39.7 +/- 0.2 degrees C. The experiments were controlled for chemical and RFR exposures, as well as for temperature. Verified statistically, the data indicate that the RFR did not affect changes in cell progression caused by adriamycin, and the RFR did not change the number of SCEs that were induced by the adriamycin, which adriamycin is known to affect cells by damaging their membranes and DNA.

Mutagenicity and effects of ochratoxin A on the frequency of sister chromatid exchange after metabolic activation.

Abstract: Primary cultures of hepatocytes derived from untreated rats were incubated in the presence of ochratoxin A for 24 h. Five different strains of histidine auxotroph Salmonella typhimurium were exposed to conditioned cell culture medium before being tested for mutagenicity. A clear hepatocyte-mediated mutagenic response was observed in TA1535, TA1538 and TA100. In addition, sister chromatid exchange frequency was increased in human peripheral lymphocytes that had been incubated in the presence of conditioned medium derived from ochratoxin A-exposed hepatocytes.

Induction of sister-chromatid exchanges (SCE), polyploidy, and micronuclei by plant flavonoids in human lymphocyte cultures. A comparative study of 19 flavonoids.

Abstract: Nineteen naturally occurring flavonoids were studied with regard to their SCE-inducing potency and their capability of inducing polyploidy and micronuclei in human lymphocyte cultures. The cells were treated for a period of 48 h. The flavone C-glycosides, vitexin and orientin, exhibited a moderate SCE-inducing activity, whereas the other compounds displayed only weak effects or were inactive. Polyploidy was induced by procyanidins consisting of 3 or 4 flavanol units and to a lesser extent by flavone, flavonol, and anthocyanidin aglycones. The aglycones as well as the C-glycosides and the O-glycosides, spiraeoside and luteolin-7-glucoside, were more or less active in inducing micronuclei in the lymphocytes. The flavonol O-glycosides, rutin and hyperoside, and the monomeric and dimeric flavanols failed to produce any genotoxic effects. The results are discussed with respect to a possible structure-activity relationship.

Cytogenetic characterization of the ionizing radiation-sensitive Chinese hamster mutant irs1.

Abstract: The X-ray-sensitive mutant V79 cell line irs1 was characterized with respect to chromosomal aberrations induced by 137Cs, mitomycin C (MMC), and decarbamoyl mitomycin C (DCMMC). To measure chromosome damage induced at different cell cycle stages, irs1 and the parental V79-4 cell lines were pulse-labeled with bromodeoxyuridine (BrdUrd) at the time of exposure and harvested at various intervals corresponding to exposure in G1, S, and G2 phases of the cell cycle. Metaphase spreads were stained with an anti-BrdUrd antibody, followed by a fluorescein-conjugated second antibody. With propidium iodide as a counter stain, cells were scored for aberrations. Compared to the parental V79 cells, irs1 cells had: (1) greatly increased sensitivity to all 3 agents; (2) a high frequency of chromatid exchanges after exposure in each phase of the cell cycle; and (3) more sensitivity to the agent causing crosslinks (MMC) than its monofunctional analog (DCMMC). The finding of chromatid-type damage in cells exposed to ionizing radiation during G1 is atypical of normal cells, but is similar to observations made in several mutant rodent cell lines and in ataxia telangiectasia cells. Our results suggest that the defect in irs1 cells can manifest itself as misrepair or misreplication during all phases of the cell cycle and leads to a high incidence of chromatid exchanges and deletions.

Modulation by Co(II) of UV-induced DNA repair, mutagenesis and sister-chromatid exchanges in mammalian cells.

Abstract: In bacterial test systems, Co(II) has been shown to be antimutagenic in combination with several chemical and physical agents. To investigate whether such modulations also applu to mammalian cells, the effect of Co(II) on UV-induced mutagenesis, sister-chromatid exchanges as well as DNA damage and its removal was determined. Co(II) itself is weakly mutagenic at the HPRT locus and increases the frequency of sister-chromatid exchanges. Additionally, at both endpoints the metal ions enhance the genotoxicity of UV light. To discriminate between an enhancement of DNA damage and an interference with repair processes, the number of pyrimidine cyclobutane dimers was determined by HPLC. While the induction of these DNA lesions is not affected by Co(II), their removal is inhibited at concentrations of 75 μM Co(II) and higher. Analysis of the kinetics of strand-break induction and closure after UV irradiation by nucleoid sedimentation reveals an accumulation of strand breaks in the presence of Co(II). This indicates that either the polimerization or the ligation step in exision repair is affected. Since similar interactions with the processing of UV-induced DNA damage have been observed with other carcinogenic and/or mutagenic metal ions, this appears to be a common mechanism of metal genotoxicity.

Cytogenetic studies of ethyl acrylate using C57BL/6 mice.

Abstract: The clastogenicity of ethyl acrylate (EA) was examined in vivo by injecting i.p. five male C57BL/6 mice per dose group with either 125, 250, 500 or 1000 mg/kg EA dissolved in saline. Controls received solvent only. Acrylamide (100 mg/kg), because of its similarity in structure and mode of action to EA, was used as a positive control. Twenty-four hours after injection, the animals were anesthetized and the spleens aseptically removed. Splenocytes were isolated on density gradients and cultured with concanavalin A to stimulate cell division. In half the cultures bromodeoxyuridine was added at 21 h for analysis of chromosome aberrations (CAs) in first division cells and sister chromatid exchange (SCE) in second division cells. In the remaining cultures cytochalasin B was added to produce binucleated cells for scoring of micronuclei (MN). There was no significant increase in SCE or CAs at any of the doses of EA examined. At the highest dose examined (1000 mg/kg), EA did cause a small but significant increase in binucleated cell MN. Acrylamide caused an increase in MN and SCEs in splenocytes. Because others have found EA to be clastogenic in vitro, isolated splenocytes were exposed to a wide range of concentrations of EA during the G0 stage of the cell cycle or 23 h after mitogen stimulation during the late G1 or early S phase of the cell cycle. Although EA was toxic for both exposure regimens, significant increases in chromatid-type aberrations were found only when the target cells were treated 23 h after mitogenic stimulation. No statistically significant increase in SCE frequency was found after either treatment regimen. These data suggest that EA is only clastogenic at near toxic concentrations during a specific stage of the cell cycle.

Chromosome aberrations, micronuclei and sister-chromatid exchanges (SCEs) in rat liver induced in vivo by hepatocarcinogens including heterocyclic amines.

Abstract: The induction of chromosome aberrations, micronuclei and SCEs was studied in hepatocytes of F344 rats exposed in vivo to hepatocarcinogens. Hepatocytes were isolated and allowed to proliferate in Williams' medium E supplemented with epidermal growth factor. Cells were fixed after a culture period of 48 h. Oral administration of dimethylnitrosamine at doses of 2.5–20 mg/kg body weight (bw) induced (1) chromosome aberrations in up to 27% of the metaphase cells 2–48 h after its administration, (2) SCEs with a frequency of up to 0.9 per chromosome 2–48 h after its administration, and (3) micronuclei in up to 2.9% of the cells 16–48 h after its administration. Oral administration of 2-acetylaminofluorene at doses of 6.25–200 mg/kg bw induced (1) chromosome aberrations in up to 35% of the metaphase cells after 2–48 h, (2) SCEs at up to 0.9 per chromosome and (3) micronuclei in up to 2.5% of the cells with a maximum after 4 h. Oral administration of CCl 4 , a non-genotoxic hepatocarcinogen, at a dose of 1600 mg/kg bw did not induce chromosome aberrations, SCEs or micronuclei within 4–72 h. Intraperitoneal injections of Trp-P-1, Glu-P-1, MeIQx, IQ and nitro-IQ resulted in chromosome aberrations in up to 16% of the metaphase cells and SCEs at up to 0.9 per chromosome, while injections of Trp-P-2 and Glu-P-2 produced SCEs at up to 0.7 and 1.1 per chromosome, respectively. The present method of in vivo cytogenetic assay using rats without partial hepatectomy or mitogen treatment in vivo should be useful for evaluating the tumor-initiating activities of hepatocarcinogens.

Comparison of methods for the biomonitoring of nurses handling antitumor drugs.

Abstract: Urinary mutagenicity, thioethers in urine, and sister chromatid exchanges and micronuclei in peripheral lymphocytes were determined for 60 nurses handling cytostatic drugs and 60 referents matched for sex, age, and smoking habits. Safety hoods were used by most of the nurses. The exposed nurses had more sister chromatid exchanges and higher urinary mutagenicity, as measured by Salmonella typhimurium TA 98, than the referents. There were no differences in the other tests. No dose-response relationship was established for any parameter. It was concluded that urinary mutagenicity with the Salmonella strain is the most sensitive test for monitoring nurses handling cytostatic drugs. Determining sister chromatid exchanges may also be a viable test, but it has the drawback of uncertainty as to whether the changes are attributable to present or past exposure. Only comparisons of rather large groups are useful, and a study design requiring matched referents would seem to be optimal.

Metabolic formation, synthesis and genotoxicity of the N-hydroxy derivative of the food mutagen 2-amino-1-methyl–6-phenylimidazo (4, 5–b) pyridine (PhIP)

Abstract: Hepatic microsomes from rats pretreated with PCB were found to metabolize the food mutagen 2-amino-1-methyl-6-phenylimidazo(4,5-b)pyridine (PhIP) to two major metabolites, one of which was identified as the N-hydroxy derivative, 2-hydroxy-amino-1-methyl-6-phenylimidazo(4,5-b)pyridine (N-OH-PhIP). This identification was based on mass spectral (MS), UV and HPLC data by comparison with N-OH-PhIP prepared by chemical synthesis, as well as the specific activity of the compound in the Ames Salmonella test. Synthetic N-OH-PhIP was prepared by catalytic reduction of the nitro derivative of PhIP, which was synthesized from PhIP by diazotization and reaction with sodium nitrite. N-OH-PhIP was mutagenic to Salmonella typhimurium TA98 without metabolic activation and had a specific mutagenic activity of 2700 revertants/nmol. N-OH-PhIP thus seems to be a proximate mutagenic metabolite of PhIP. Other direct acting mutagens were not detected in the microsomal incubation mixture after HPLC separation. N-OH-PhIP also induced sister chromatid exchange (SCE) in Chinese hamster ovary cells (CHO cells) without metabolic activation. The specific activity of N-OH-PhIP in this assay was approximately 3 times higher than the activity of PhIP with microsomal activation.

Random segregation of chromatids at mitosis in Saccharomyces cerevisiae.

Abstract: Previous experiments suggest that mitotic chromosome segregation in some fungi is a nonrandom process in which chromatids of the same replicative age are destined for cosegregation. We have investigated the pattern of chromatid segregation in Saccharomyces cerevisiae by labeling the DNA of a strain auxotrophic for thymidine with 5-bromodeoxyuridine. The fate of DNA strands was followed qualitatively by immunofluorescence microscopy and quantitatively by microphotometry using an anti-5-bromodeoxyuridine monoclonal antibody. Chromatids of the same replicative age were distributed randomly to daughter cells at mitosis. Quantitative measurements showed that the amount of fluorescence in the daughter nuclei derived from parents with hemilabeled chromosomes diminished in intensity by one half. The concentration of 5-bromodeoxyuridine used in the experiments had little effect on the frequency of either homologous or sister chromatid exchanges. We infer that the 5-bromodeoxyuridine was distributed randomly due to mitotic segregation of chromatids and not via sister chromatid exchanges.

Individual susceptibility to induced chromosome damage and its implications for detecting genotoxic exposures in human populations.

Abstract: In a previous study, we observed a bimodal distribution of sensitivity to sister chromatid exchange (SCE) induction by diepoxybutane (DEB) in lymphocytes from healthy individuals. Twenty-four % of the participants had increased sensitivity to in vitro induction of SCEs and chromosomal aberrations. These same participants also had significantly higher frequencies of uninduced or baseline SCE frequencies. In the present study, we measured baseline and DEB-induced SCE frequencies in 55 healthy female volunteers. Eleven of 55 [20%] women were relatively sensitive to DEB induction of SCEs. Baseline SCE frequencies in these sensitive individuals [10.4 ± 0.7 (SD) SCEs/cell] were significantly higher [P

Metabolic activation and cytogenetic effects of 2-amino-1-methyl-6-phenylimidazo[4,5-b] pyridine (PhIP) in Chinese hamster ovary cells expressing murine cytochrome P450 IA2.

Abstract: We have utilized Chinese hamster ovary cell lines which stably express a murine cytochrome P450IA2 (P(3)450) cDNA to characterize more fully the mechanisms of genotoxicity of heterocyclic amines derived from cooked meats. To verify that these cell lines were capable of converting promutagens into active metabolites, we studied the microsomal metabolism and cytogenetic effects of 2-amino-1-methyl-6-phenylimidazo-[4,5-b]pridine (PhIP). Microsomal preparations derived from excision repair-deficient Chinese hamster ovary cells expressing the mouse cytochrome P(3)450 cDNA (UV5P3) converted PhIP to the genotoxic N-hydroxy-PhIP metabolite. Cytotoxic activity in UV5P3 was observed at concentrations of PhIP as low as 1 microM. Cytotoxicity of PhIP was an order of magnitude lower in a matched repair-proficient cell line (5P3R2) expressing the P(3)450 cDNA. PhIP produced a concentration-dependent increase in sister chromatid exchange (SCE) in UV5P3. N-Hydroxy-PhIP, at concentrations as low as 0.1 microM, produced an increase in SCE in both UV5P3 and in UV5 cells which lack the P(3)450 cDNA. Incubation of PhIP with UV5P3 cells increased the frequency of micronuclei (MN) in cytokinesis-blocked cells. Chromatid gaps, but not aberrations also were induced by treatment with PhIP. N-Hydroxy-PhIP produced increases in MN and chromatid gaps in both UV5 and UV5P3 cell lines; chromosomal aberrations were induced in UV5P3 cells. These results suggested that UV5P3 cells metabolize sufficient quantities of PhIP to produce cytogenetic damage and further indicated that N-hydroxylation of PhIP was requisite for mammalian genotoxicity.

Increased frequency of sister-chromatid exchange and chromatid breaks in lymphocytes after treatment of human volunteers with therapeutic doses of paracetamol.

Abstract: Paracetamol was given to 10 healthy human volunteers in 3 doses of 1 g each during a period of 8 h. Blood samples for lymphocyte cultures were taken before and 24 h after paracetamol administration. A small but significant increase was found in the frequency of sister-chromatid exchanges (SCE) after intake of paracetamol (0.187 ± 0.030 per chromosome before and 0.208 ± 0.024 per chromosome after). After exposure the mean frequency of chromatid breaks per 100 cells was significantly increased (2.16 ± 1.33 versus 0.33 ± 0.50 before exposure). Exposure of human lymphocytes in vitro showed that concentrations of paracetamol above 0.1 mM induced inhibition of replicative DNA synthesis. Increased SCE was found in lymphocytes exposed to 1–10 mM paracetamol for 2 h. Furthermore, 0.75–1.5 mM paracetamol exposure for 24 h increased the frequency of chromatid and chromosome breaks in the lymphocytes. The paracetamol-induced SCE and chromosome aberrations may be secondary effects of paracetamol-induced inhibition of DNA synthesis or due to covalent binding of paracetamol metabolite(s) to DNA.