Frequency of sister-chromatid exchange (SCE) in bone-marrow cells of severely malnourished animals during early life

The frequency of sister-chromatid exchange (SCE) was examined in bone-marrow cells of 21-day-old Wistar rats malnourished during lactation and well-nourished controls of the same age. Malnutrition was obtained by increasing the litter size to 15 pups per mother. SCE were scored in 25 consecutive second-division metaphases in the femoral bone marrow cells from each animal. The average SCE in the malnourished animals was significantly higher than in the control group (p less than 0.01). The distribution of SCE per mitosis was also significantly higher in the malnourished animals (p less than 0.001). These results indicate that malnutrition per se during early life can increase SCE in the bone marrow of experimental animals.     

Proliferation index in bone marrow cells from severely malnourished rats during lactation.

The aim of this study was to determine if severe malnutrition affects the proportion of proliferating bone marrow cells in malnourished rats during lactation. Sister chromatid staining of metaphases was used as a parameter, as well as the morphology, size and color of bromodeoxyuridine labeled interphase nuclei. The BrdU proliferation labeling index was statistically lower in malnourished rats (20.4%), than in well-nourished controls (35.1%). A difference was also found between the two groups in the proportion of metaphases in first, second and third or successive cell cycle. The average generation time was longer in the malnourished group: 15.3 h, against 11.8 h for the controls. These results indicate that severe malnutrition affects both the proportion of bone marrow proliferating cells and their cell kinetics.     

Sister chromatid exchanges induced by cyclophosphamide in V79 cells cultured in diffusion chambers in mice

Chinese hamster cells V79 were cultured in diffusion chambers (DC) and implanted into mice. An exponential growth was observed from the 2nd to 4th day after implantation. The maximum growth was reached on the 6th day. After that, cell growth and viable cell counts decreased. Three days after implantation of DC with V79 cells, the hosts received 6 hourly injections of 0.2 ml of 5-bromodeoxyuridine (BUdR) solution at concentrations of 0.125 to 1.0 x 10(-2) M. DC were removed for chromosome and sister-chromatid exchanges (SCE) analyses 24 h after the first BUdR injection. The frequency of metaphases with differentially stained chromatids, with aberrations, and the number of SCE per cell increased with BUdR dose. The frequency of metaphases with differentially stained chromatids was also positively correlated with the duration of BUdR exposure or the number of hourly injections of BUdR-solution. The effects of cyclophosphamide (CY) in V79 cells in DC in mice were studied. Injections of CY at 2.5, 5, 10 and 15 microgram per gram of body weight to the hosts caused an increase in the number of SCE per cell in a linear manner. The results from this study indicate that V79 cells cultured in DC in mice may provide a potential test system for mutagenicity.     

Sister chromatid exchange in FR3T3 rat fibroblasts transformed by Simian virus 40

The frequency of Sister Chromatid Exchange (SCE) was determined at low (33 degrees C) and high (40.5 degrees C) temperatures in cell lines derived from FR3T3 rat fibroblast cells after transformation either with Wild-Type Simian Virus 40 (SV40-WT), with an origin-defective SV40 (SV40-ori-), or with the early temperature-sensitive mutant tsA30. Of these cell lines, SV40-WT-, SV40-ori--, and one class of tsA30-transformants (A-type) express the transformed phenotype both at 33 and 40.5 degrees C. The other tsA30-transformants (N-type) revert to a normal phenotype at high temperature. As compared with normal FR3T3 cells, all transformants exhibited, at 33 degrees C, increased numbers of metaphases with high SCE rates. At 40.5 degrees C, all cell lines which expressed a transformed phenotype (SV40-WT, tsA30 type A, SV40-ori-) exhibited substantially increased SCE rates. That this increase was not related to a possible induction of viral replication by BrdU, was proven by Southern blot analysis and by SCE data on SV40-ori--transformed cells. By contrast, no such temperature-induced increase of SCE rates was observed in tsA30-transformants of type N.     

Analyses of sister-chromatid exchange and cell-cycle kinetics in mouse T- and B-lymphocytes from peripheral blood cultures

A reliable mouse peripheral blood lymphocyte culture assay has been developed for sister-chromatid exchange analysis. Crucial aspects for optimal mitogenesis include: (1) the addition of 5 X 10(5) leucocytes/ml culture; (2) the use of animals with leucocyte counts from 5 to 7 X 10(6)/ml; and (3) the addition of 6% mouse plasma for the first 24 h of a total 54-h incubation. When 7 micrograms phytohemagglutinin/ml were used to stimulate T-lymphocytes, the mitotic index was 3.4 +/- 0.3%, 28 +/- 2.3% of the metaphases were in first-division, and the SCE frequency/metaphase was 7.3 +/- 0.2 (n = 14 mice). When B-lymphocytes were stimulated with 60 micrograms lipopolysaccharide/ml, the mitotic index was 4.5 +/- 0.3%, 64 +/- 3.3% of the metaphases were in first-division, and the SCE frequency/metaphase was 4.6 +/- 0.1 (n = 7 mice). This culture method consistently yields sufficient numbers of metaphases from both B- and T-lymphocytes for SCE and chromosome-breakage studies.     

Spontaneous and cyclophosphamide-induced sister-chromatid exchanges in diploid and endoreduplicated tetraploid metaphases of preimplantation mouse embryos

Endoreduplicated tetraploid metaphases could for the first time be induced in preimplantation mouse embryos by culture in the suboptimum medium MEM. In such endomitoses sister-chromatid exchange (SCE) frequency was approximately the same during the first and the second cell cycle. However, when morulae and blastocysts were cultured in the presence of cyclophosphamide metabolites SCE frequency was increased predominantly during the second cell cycle. Compared to diploid metaphases a decreased SCE frequency was found under both conditions of endomitoses induction, which may be related to DNA-repair processes.     

Chemical induction of sister-chromatid exchanges in human lymphocytes treated in G0 prior to stimulation by different mitogens and revealed 72 h later in second division cells

Frequencies of sister-chromatid exchanges (SCE) were determined in second-division metaphases of human lymphocytes, exposed for 1 h during the G0 phase to mitomycin C (MMC) alone or to cyclophosphamide (CP) in the presence of S9 mix. The cells were then cultured for 72 h in the presence of phytohemagglutinin (PHA), concanavalin A (Con A), Wistaria floribunda (WFA) or Lens culinaris (LcH-A) extracts. Large differences in mitotic indices (MI) and cell-cycle kinetics were observed among cells subjected to the various treatments. However, in the controls as well as in the cultures submitted to a G0 mutagenic exposure, the yield of SCE was not influenced by the mitogenic agent and was, therefore, independent of the proliferation properties of the cultured lymphocyte population.     

Changes in the number of sister chromatid exchanges in cultured Chinese hamster cells with limited proliferation. Additional studies

During "stationary phase ageing" of cultured Chinese hamster cells (B11dii-FAF28 line, 2372a clone), i. e. while decreasing the proliferation rate and in the stationary growth phase the frequency of spontaneous sister chromatid exchanges (SCE) progressively increases (from 2- to 23-day "age"); the frequency of thiophosphamide-induced (1h) SCE increases from 2- to 23-day "age" by the same value as the frequency of spontaneous SCE; the cells deepen into the R-phase of the cell cycle.     

Cell-cycle duration and sister-chromatid exchange frequency in cultured human lymphocytes

Whole heparinized blood samples from normal human donors were grown in culture media containing 10 μg/ml of bromodeoxyuridine. Lymphocytes were harvested after 58, 70, 72 and 80 h and scored for sister-chromatid exchanges (SCEs) under a fluorescence microscope. SCEs which occured during the first and second cell cycles were counted in second or third generation cells selected on the basis of their chromosome fluorescence patterns. The results of a preliminary study showed the mean SCE frequency per cell at 72 h to be 9.0 for second generation cells and 7.8 in third generation cells (P < 0.01). A second study, using culture medium with heat-inactivated fetal-calf serum, gave similar results (9.4 vs. 7.8, P 0.001) at 70 h. Therefore, the difference in SCE frequency between second and third generation cells at 70 or 72 h cannot be attributed to heat-labile substances of serum origin. An additional finding in the second study was that SCE frequencies in third division cells at 70 and80 h were the samee as those of second division cells at 58 h but significantly less (P < 0.001) than the frequency in second division cells at 70 h. These data were interpreted as arising from at least two different lymphocyte populations; one group of cells that is either slower growing or slower in phytohemagglutinin stimulation, with a higher SCE frequency which does not reach second division until 70 or 80 h, and a more rapidly dividing (or more quickly stimulated by phytohemagglutinin) population with a lower SCE frequency which reaches second division at 58 h and third division by 70–80 h. Whether or not this hypothesis is correct, the data show that SCE frequency varies significantly with cell-cycle duration. Since some carcinogens have been shown to alter cell kinetics (Craig-Holmes and Shaw, Mutation Res. 46 (1977) 375), changes in SCE frequency which are caused by a change in cell kinetics must be considered a factor in determining the mutagenicity of an agent by its ability to increase SCE frequency.     

Changes in the level of sister chromatid exchanges in cultured Chinese hamster cells undergoing limited proliferation

"Stationary phase ageing" of cultured Chinese hamster cells (when proliferation rate decreases and in the stationary growth phase) produces an increase in the frequency of spontaneous sister chromatid exchanges (SCE). Thiophosphamide-induced (24 h) frequency of SCE increases from 2-day to 5-day "age" and later (in the stationary phase) is practically the same. The "stationary ageing" cultured cells are suggested to be used as a model system for studying molecular-genetic age changes.     

Physical,chemical, and biological factors affecting sister-chromatid exchange induction in human lymphocytes exposed to mitomycin C prior to culture

In experiments to assess the effects of several biological, chemical, and physical variables on sister-chromatid exchange (SCE) induction in cultured lymphocytes exposed to mitomycin C (MMC) before PHA stimulation we observed: (1) high SCE frequencies in female cells, and normal SCE frequencies in Y-bearing metaphases in mixed cultures containing equal numbers of MMC-treated female lymphocytes and untreated male lymphocytes; (2) small, but statistically significant, decreases in SCEs with increasing pH after G₀ exposure in the pH range 6.6–7.6; (3) pronounced reductions in MMC-induced SCEs in lymphocytes exposed at 4°C vs. 37°C. In other studies, SCE induction was evaluated in cultures exposed during G₀ to MMC concentrations ranging from 0.25 to 2.5 μg/ml for varying time intervals ranging from 5 min to 24 h. For all concentrations tested SCE induction varied as a linear function of G₀ exposure time. To compare SCE induction between cultures, we calculated the mean frequencies of SCEs induced per metaphase/unit dose MMC/unit G₀ exposure time (SCE/μg/h). A mean frequency of 20.7 ± 4.8 SCE/μg/h was observed for 41 lymphocyte cultures suggesting that a single term adequately describes the rate of SCE induction following G₀ exposure to a 10-fold range in concentration of MMC for time intervals of 30 min to 24 h.     

Use of rat primary lung cells for studying genotoxicity with the sister-chromatid exchange and micronucleus assays

Primary culture of lung cells from CD rats was established for pulmonary genotoxicity studies using two genetic endpoints, sister-chromatid exchange (SCE) and micronucleus formation (MN). In the cell isolation study, a combined enzyme separation of rat lungs with trypsin (1.3 mg/ml) plus collagenase (50 U/ml) gave the highest yield of viable and colony-forming cells. For the MN assay, the cytokinesis block induced by cytochalasin B (CYB) was employed to enumerate MN in binucleated (BN) cells. Treatment of primary lung cells with 2 micrograms CYB/ml for two days appeared to be optimal for scoring micronuclei in CYB-induced BN cells. By this procedure, mitomycin C (MMC), triethylenemelamine, and benzo[a]pyrene caused a dose-related increase in micronucleated BN cells in vitro without metabolic activation. In the SCE assay, maximum second-division metaphases were obtained after cells were incubated with bromodeoxyuridine for 48-54 h. After this incubation time, high frequencies of SCE induced by MMC and 3-methylcholanthrene after in vitro exposure (without S9 activation) or in vivo exposure were observed. The results indicate that rat primary lung cells can metabolize polycyclic aromatic hydrocarbons and that this lung cell system is potentially useful for the detection of pulmonary genotoxicants.     

Moderate and severe malnutrition alters proliferation of spleen cells in rats

Objectives

Previous studies have shown alterations in bone marrow cell proliferation in malnourished rats, during lactation. The objective of this study was to determine in vivo effects of moderate and severe malnutrition on spleen cell proliferation in 21‐day‐old rat pups.

Materials and methods

Spleen cell proliferation was determined following administration of bromodeoxyuridine (BrdUrd) over a time course of 2, 4, 6 and 8 h. Incorporation of BrdUrd was detected using FITC‐conjugated anti‐BrdUrd monoclonal antibodies and total DNA content was detected and evaluated using propidium iodide using flow cytometry.

Results

Proportions of cells in S and G₂/M were reduced in the rats with moderate (MN2^nd) and severe (MN3^rd) malnutrition. BrdUrd incorporation was lower in both groups of malnourished rat. In cells of MN2nd individuals, length of G₁ became shorter, while length of S‐phase increased. In contrast, fraction of cells in proliferation was significantly lower in both groups of malnourished rat, with MN3rd group having lowest percentage of cell population growth. In this study, severe malnutrition did not significantly affect duration of phases of the cell cycle, although fractions of proliferating cells were dramatically reduced.

Conclusion

Moderate malnutrition increased time of cells in DNA synthesis and time of total cell cycle and severe malnutrition reduced growth fraction of spleen cells in malnourished rats during lactation.

     

Circadian variation of the cell proliferation in the jejunal epithelium of rats at weaning phase

Circadian variation in cell proliferation of the jejunal epithelium of 18-day-old rats was studied using the 2-h arrested metaphase score and crypt isolation method. A continuous decrease in the arrested metaphases occurred from 07.00 h to 13.00 h. From 17.00 h arrested metaphase values increased and were maintained at the higher level during the dark period as showed by Cosinor analyses (P < 0.05). These results indicate that in the young rat there is already a circadian variation in jejunal epithelial cell proliferation as early as 18 days. We can even suggest that the presence of a circadian rhythm at weaning contributes to the steady state of cell proliferation in the intestinal epithelium observed in adult life.     

Sister chromatid exchanges in bromine incorporation into DNA cytosine nucleotides. III. 5-bromodeoxycytidine as a DNA thymine precursor. The characteristics of the exchanges]

Cell movement through the mitotic cycle and sister chromatid exchanges (SCE) were studied in human blood lymphocytes cultured in the presence of 5-bromodeoxycytidine (BrdC, 0.05 mM) plus thymidine (dT 0.4, 0.8, and 1.0 mM). In controls, lymphocytes were cultivated in the presence of 5-bromodeoxyuridine (BrdU, 0.05 mM) and deoxycytidine (0.1 mM), or BrdC alone. All nucleosides were added to the cultures 28 hours prior to fixation and were maintained in the medium for 16 hours. As determined from percentage of metaphases of 1st to 3rd divisions, BrdC did not release from thymidine block. This fact leads us to conclude that BrdC in contrast to deoxycytidine does not serve as a cytosine precursor. No significant differences in the frequency of SCE and their distribution among chromosomes were found between cultures treated with BrdC and with BrdU.     

Effects of copper ions released from metallic copper on CHO-K1 cells

The aim of this study was to investigate the cytotoxic and genotoxic effect of copper extracts obtained from metallic copper in Chinese hamster ovary (CHO-K1) cell line using neutral red (NR), sister chromatid exchange (SCE), chromosomal aberrations (CA) and cell-cycle kinetics tests. Cells were cultured in Ham-F10 with different copper-containing extracts obtained after the immersion of copper disks for 1, 2, 3, 9, 12, 24, 48 and 72 h in culture medium. Results from cytotoxicity assay showed an inverted U-shape response evidenced in changes in lysosomal activity and mitotic index. The analysis of CA revealed an increase of abnormal metaphases for copper concentration (cCu) in the 5.67-7.42 mg/L dose-range (p<0.001). In addition, SCE frequencies were higher for treated cells when compared with controls in the 1.56-7.42 mg/L concentration range (p<0.001). The absence of metaphases indicated cytotoxicity for cCu≥10.85 mg/L. Results show that cells close to copper-containing materials releasing copper ions are susceptible to cytotoxic and genotoxic effects.     

Lack of induction of somatic aneuploidy in the mouse by nitrilotriacetic acid (NTA)

Nitrilotriacetic acid (NTA) was tested for the induction of aneuploidy in mouse bone marrow cells. Doses of 138 or 275 mg/kg of body weight were intraperitoneally injected 24 h after implantation of a bromodeoxyuridine tablet. Cell-replication kinetics was assessed by comparing the relative percentages of first, second and third metaphases in control and treated samples. The hyperploidy incidence was estimated in second metaphases only, together with the SCE/cell level. Mice injected with 1.8 mg/kg vinblastine (VBL) were used as positive controls. A slight delay of cell cycle was induced by NTA, as shown by regression analysis applied to average generation time values. No increase over the control level was observed for hyperploidy or SCE induction in NTA-treated mice. VBL induced both cell-cycle alteration and a highly significant (P less than 0.001) increase of the hyperploid cell frequency. On the basis of these and previous (Costa et al., 1988) observations it seems that the non-disjunctional activity of NTA in the mouse is confined to meiotic processes.     

A method for analysing sister-chromatid exchange in mouse preimplantation embryos

Analysis of sister-chromatid exchange (SCE) has been shown to be a sensitive and reproducible method for detecting the action of mutagens and carcinogens. We have succeeded in establishing a reliable technique which allows to perform SCE in preimplantation embryos in order to make the pre-uterine stages of development accessible to routine detection of DNA damage. Using the mouse strain and technique described, approximately 30-40% of mice will mate successfully after synchronization and spontaneous ovulation. From 3 pregnant females, about 30 four- to eight-cell embryos will be obtained, representing one experimental group providing approximately 50-80 two-S-phase labelled metaphases with a SCE frequency baseline below 6 exchanges.     

Cytogenetic mechanisms in the selective toxicity of cyclophosphamide analogs and metabolites towards avian embryonic B lymphocytes in vivo.

Cyclophosphamide (CP) is selectively toxic to avian and mammalian B lymphocytes, but the mechanisms of action are incompletely understood. We used a structure-activity approach to determine the cytogenetic mechanisms underlying the selective lymphoid toxicity in chicken embryos at 18-19 days of incubation. Two doses of 5-bromo-2'-deoxyuridine (BrdU; 3 mg/200 microliters x 2) were pipetted onto the inner shell membrane to label lymphocyte DNA over 20 h. A single dose of the CP analogs or metabolites was given 1 h after the initial BrdU application. After a terminal 3-h exposure to demecolcine to block cells in metaphase, the embryos were sacrificed at hour 20, and their bursae and thymi were removed for cytogenetic processing. Microscope slide preparations of metaphases were stained by the fluorescence-plus-Giemsa technique to differentiate the sister chromatids for an assessment of sister-chromatid exchange (SCE) induction and cell cycle progression based on replication cycle-specific staining patterns. Isophosphamide (1.25-40 mg/kg), phosphoramide mustard (0.7-45.7 mg/kg), and 4-methylcyclophosphamide (1.3-42.1 mg/kg) selectively damaged B cells as shown by dose-related reductions in the mitotic activity, inhibition of cell cycle kinetics, and approximately 9-15-fold increases in the SCE frequency above control. B cells were up to 392 times more susceptible to the toxicity of these three bifunctional alkylating agents compared to T cells based on reductions in the mitotic activity. At most of the drug doses tested, the T-cell mitotic index was not depressed significantly and was usually higher than the control value by as much as 50-60%. Importantly, monochloroethylcyclophosphamide (70-245 mg/kg; monofunctional alkylation) did not induce differential lymphoid toxicity, although a 9-fold increase in the SCE frequency of B cells was observed at the highest dose. Didechlorocyclophosphamide (181-422 mg/kg; acrolein generation only) was a weak SCE inducer (approximately 1.8-fold increase) and was not selectively toxic to B cells. Our data show that selective toxicity to B lymphocytes is strongly associated with bifunctional alkylation via the chloroethyl groups rather than with monofunctional alkylation and acrolein-mediated damage. In addition, the results with phosphoramide mustard and 4-methylcyclophosphamide emphasize that aldehyde dehydrogenase activity is not the primary determinant in the relative sparing of T lymphocytes in vivo.     

Modulation of SCE induction and cell proliferation by 2-mercaptoethanol in phytohemagglutinin-stimulated rat lymphocytes

2-Mercaptoethanol (2-ME) is used as a medium supplement to enhance the proliferation of lymphocytes culturedin vitro. In this study, we have examined the effects of 2-ME on cell growth and on SCE induction in cultures of unstimulated and phytohemagglutinin (PHA)-stimulated Fischer 344 rat lymphocytes. There were virtually no metaphases detected in cells cultured without PHA. In PHA-stimulated cultures, 2-ME decreased SCE-frequency but it enhanced SCE frequency in the presence of S to 12.5 µM bromodeoxyuridine (BRd U). Both mitotic and replication indices were increased in the PHA/2-ME system. The levels of incorporated exogenous thymidine, in the presence of 2-ME, were relatively low in unstimulated cells, suggesting that 2-ME is not mitogenic for T-cells. However, 2-ME enhanced PHA-induced response of T-cells as evidenced by increased levels of thymidine incorporation into cellular DNA. The growth promoting effects and the decrease in SCE frequency caused by 2-ME upon PHA stimulation indicate that 2-ME may alter the nature of interaction between PHA and cellular activating properties or the replicative processes.Abbreviations BRdU bromodeoxyuridine - FBS fetal bovine serum - SCE sister-chromatid exchanges - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - IL-2 interleukin-2 - 2-ME 2-mercaptoethanol - PBS phosphate buffered saline - PHA phytohemagglutinin - MI mitotic index - RI replication index - NADH nicotinamide adenine dinucleotide (reduced form)