Black leaf streak of bananas in Fiji

Black leaf streak of bananas, caused by Mycosphaerella sp., prevented fruit of export quality forming and bunches maturing. Some infected leaves lived less than 50 days and were seldom retained until harvest. Maneb or benomyl applied in oil/water emulsions gave good control and benomyl was so effective that plants had ten leaves at harvest and some leaves survived for 245 days. Plants sprayed with maneb or benomyl flowered I month early. No benomyl residues were detected in the fruit exported to New Zealand. The control of black leaf streak by sprays containing oil has caused other leaf diseases to become more prevalent and the ensuing complex disease situation is discussed.     

The effects of organic pesticides on inner membrane permeability in <Emphasis Type="Italic">Escherichia coli</Emphasis> ML35

We have tested whether some pesticides might cause inner membrane leakage in ML35 Escherichia coli cells, which express β-galactosidase (lacZ; EC 3.2.1.23) constitutively but lack the permease (lacY) required for substrate entry. The activity of β-galactosidase (indicative of substrate leakage through the inner membrane) was increased by various concentrations of pesticides, including the organometallic fungicides maneb and mancozeb, the insecticide Thiodan, and the herbicide Ally, as well as by antibiotics such as ampicillin, gramicidin D, and the calcium ionophore A23187. The enzyme activity was increased by up to ∼30% when the E. coli ML35 strain was exposed to various concentrations (between 50 and 250 ppm) of both fungicides. Thiodan had only a slight effect on β-galactosidase activity (increase of 12.8%), whereas, among the antibiotics, the calcium ionophore at 20 μg/ml caused a significant increase in enzyme activity by up to 61.8%. This effect is similar to that of sodium dodecyl sulfate, used as positive control (∼70% increase). Accumulation of maneb and mancozeb by bacterial cells was also studied taking advantage of their metal content and using atomic absorption spectrophotometry. In parallel with the increase in enzyme activity, both fungicides accumulated in the cells as a function of their concentration. Time course experiments (3, 6, and 9 h) of fungicide accumulation and of bacterial growth at various pesticide concentrations were also carried out. Maneb seems to inhibit the bacterial growth better than mancozeb. In addition, maneb uptake increases with time up to 9 h at all tested concentrations, whereas the accumulation of mancozeb is similar at all the exposure times tested. This indicates a different uptake and/or metabolizing strategy by E. coli cells for the two fungicides.     

Paraquat, but not maneb, induces synucleinopathy and tauopathy in striata of mice through inhibition of proteasomal and autophagic pathways

SNCA and MAPT genes and environmental factors are important risk factors of Parkinson's disease [PD], the second-most common neurodegenerative disease. The agrichemicals maneb and paraquat selectively target dopaminergic neurons, leading to parkinsonism, through ill-defined mechanisms. In the current studies we have analyzed the ability of maneb and paraquat, separately and together, to induce synucleinopathy and tauopathy in wild type mice. Maneb was ineffective in increasing α-synuclein [α-Syn] or p-Tau levels. By contrast, paraquat treatment of mice resulted in robust accumulation of α-Syn and hyperphosphorylation of Tau in striata, through activation of p-GSK-3β, a major Tau kinase. Co-treatment with maneb did not enhance the effects of paraquat. Increased hyperacetylation of α-tubulin was observed in paraquat-treated mice, suggesting cytoskeleton remodeling. Paraquat, but not maneb, inhibited soluble proteasomal activity on a peptide substrate but this was not associated with a decreased expression of 26S proteasome subunits. Both paraquat and maneb treatments increased levels of the autophagy inhibitor, mammalian target of rapamycin, mTOR, suggesting impaired axonal autophagy, despite increases in certain autophagic proteins, such as beclin 1 and Agt12. Autophagic flux was also impaired, as ratios of LC3 II to LC3 I were reduced in treated animals. Increased mTOR was also observed in postmortem human PD striata, where there was a reduction in the LC3 II to LC3 I ratio. Heat shock proteins were either increased or unchanged upon paraquat-treatment suggesting that chaperone-mediated autophagy is not hampered by the agrichemicals. These studies provide novel insight into the mechanisms of action of these agrichemicals, which indicate that paraquat is much more toxic than maneb, via its inhibitory effects on proteasomes and autophagy, which lead to accumulation of α-Syn and p-Tau.     

Validation of a high-performance liquid chromatographic assay method for pharmacokinetic evaluation of busulfan

The development and validation of a high-performance liquid chromatographic (HPLC) assay for determination of busulfan concentrations in human plasma for pharmacokinetic studies is described. Plasma samples containing busulfan and 1,6-bis(methanesulfonyloxy)hexane, and internal standard, were prepared by derivatization with sodium diethyldithio-carbamate (DDTC) followed by addition of methanol and extraction with ethyl acetate. The extract was dried under nitrogen and the samples reconstituted with 100 μl of methanol prior to HPLC determination. Chromatography was accomplished using a Waters NovaPak octadecylsilyl (ODS) (150×3.9 mm I.D.) analytical column, NovaPak ODS guard column, and mobile phase of methanol-water (80:20, v/v) at a flow-rate of 0.8 ml/min with UV detection at 251 nm. The limit of detection was 0.0200 μg/ml (signal-to-noise ratio of 6) with a limit of quantitation (LOQ) of 0.0600 μg/ml for busulfan in plasma. Calibration curves were linear from 0.0600 to 3.00 μg/ml in plasma (500 μl) using a weighting scheme. Precision of the assay, as represented by C.V. of the observed peak area ration values, ranged from 4.41 to 13.5% (13.5% at LOQ). No day-to-day variability was observed in predicted concentration values and the bias was low for all concentrations evaluated (bias: 0 to 4.76%; LOQ: 2.91%). The mean derivatization and extraction yield observed for busulfan in plasma at 0.200, 1.20 and 2.00 μg/ml was 98.5% (range 93.4 to 107%). Plasma samples containing potential busulfan metabolites and co-administered drugs, which may be present in clinical samples, provided no response indicating this assay procedure is selective for busulfan. This method was used to analyze plasma concentrations following administration of a 1 mg/kg oral busulfan dose.     

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.     

Histopathological changes induced by maneb and carbaryl on some tissues of rainbow trout, Oncorhynchus mykiss

Acute toxicity of the pesticides, maneb and carbaryl, to juvenile rainbow trout were evaluated under static-renewal test conditions. Actual concentrations of maneb ranged from 0.10 mg/L to 2.00 mg/L and carbaryl ranged from 0.20 mg/L to 3.90 mg/L. The concentrations of maneb that killed 50% of the rainbow trout (3.27 ± 0.9 g) within 24-h (24-h; LC₅₀), 48-h, 72-h and 96-h were 1.19 ± 0.12, 1.04 ± 0.11, 0.92 ± 0.12 and 0.81 ± 0.14 mg/L (95% confidence limits), respectively. LC₅₀ values of carbaryl for 24-h, 48-h, 72-h and 96-h were 2.52 ± 0.71, 2.16 ± 0.63, 1.71 ± 0.46 and 1.39 ± 0.15 mg/L, respectively. None of the unexposed control fish died and the first fish died 6 h after exposure to maneb (≥1.30 mg/L), and carbaryl (≥2.60 mg/L). Lamellar edema, separation of epithelium from lamellae, lamellar fusion, swelling of the epithelial cells and epithelial cell necrosis were observed on maneb and carbaryl exposed fish. Gills also had scattered areas of focal lamellar hyperplasia. Fish exposed to pesticides had inflammation and focal necrosis in liver, trunk kidney and spleen. Maneb and carbaryl had similar histopathological lesions. In order, the most affected organs were gill, trunk kidney and liver.     

CYP2E1-mediated oxidative stress regulates HO-1 and GST expression in maneb- and paraquat-treated rat polymorphonuclear leukocytes

Cytochrome P4502E1 (CYP2E1), glutathione-S-transferase A4-4 (GSTA4-4), and inducible nitric oxide synthase (iNOS) are implicated in maneb- and paraquat-induced toxicity leading to various pathological conditions. The study aimed to investigate the role of CYP2E1 in maneb- and paraquat-induced oxidative stress in rat polymorphonuclear leukocytes (PMNs) and its crosstalk with iNOS-mediated nitrosative stress and GSTA4-4-linked protective effect, if any and their consequent links with the nuclear factor erythoid 2-related factor 2 (Nrf2) activation and heme oxygenase-1 (HO-1) expression. Rats were treated with/without maneb and/or paraquat for 1, 2, and 3 weeks along with vehicle controls. Subsets of rats were also treated with diallyl sulfide (DAS) or aminoguanidine (AG) along with the respective controls. Maneb and paraquat augmented the reactive oxygen species (ROS), lipid peroxidation (LPO) and 4-hydroxy nonenal (4-HNE) contents, and superoxide dismutase (SOD) activity in the PMNs. However, maneb and paraquat attenuated the reduced glutathione (GSH) level and the expression/activity of total GST and GST-pi. Maneb and paraquat increased the expression/activity of CYP2E1, GSTA4-4, iNOS, Nrf2 and HO-1, and nitrite content. CYP2E1 inhibitor, DAS noticeably alleviated maneb- and paraquat-induced ROS, LPO, 4-HNE, SOD, Nrf2 and HO-1, GST, GSH, and GST-pi while iNOS, nitrite content and GSTA4-4 levels were unchanged. Conversely, AG, an iNOS inhibitor, attenuated maneb- and paraquat-directed changes in nitrite, LPO, iNOS but it did not alter ROS, GSH, SOD, GST, GST-pi, Nrf2, HO-1, CYP2E1, and GSTA4-4. The results demonstrate that CYP2E1 induces iNOS-independent free radical generation and subsequently modulates the Nrf2-dependent HO-1 and 4-HNE-mediated GST expression in maneb- and paraquat-treated PMNs.     

In vivo sister chromatid exchange in cells of various organs of the mouse

In vivo sister chromatid exchange (SCE) in mouse cells derived from various organs was studied by infusing BrdU from the tail vein. It was found that at BrdU concentrations ranging from 2.2–13.5 g/g/h, the SCE frequency in bone marrow cells seemed to stay at a constant level (1.5–2/cell/two cell cycles) whereas it started to rise as the BrdU dose exceeded this dose range. When BrdU within this dose range was infused continuously from the tail vein for appropriate hours to label chromosomes in various organs, the average SCE frequencies per cell were found to be 1.64 in bone marrow cells, 1.82 in spermatogonia, 1.99 in splenic cells, 2.89 in intestinal cells and 3.69 in cells from adjuvant stimulated lymph nodes. It is suggested that the spontaneous level of the in vivo SCE frequency might be about 1.5–2/cell/two cell cycles in the mouse. In cells derived from intestine and adjuvant stimulated lymph node, some unknown factors might work as a inducer of SCEs resulting in a significant increase in the SCE frequency in these organs.     

Sister chromatid exchanges are preferentially induced at expressed and nonexpressed common fragile sites

Summary To investigate the relationship between common fragile sites and sister chromatid exchange (SCE), lymphocyte cultures were treated with aphidicolin and bromodeoxyuridine (BrdU) and analyzed using a sequential GSCE staining protocol. A total of 1163 SCEs were mapped to their corresponding G-band sites, which were assigned to one of the following four categories: fragile sites expressed; fragile sites nonexpressed; nonfragile sites with breaks; or nonfragile sites with no breaks. The designated common fragile sites were found to be preferred locations for SCE formation, not only when these sites were expressed as visible gaps or breaks, but even when they were nonexpressed in the cell. SCEs were also more likely to occur at nonfragile sites with breaks than at nonfragile with no break sites. Further, SCEs were found to be distributed nonrandomly across fragile sites and nonfragile sites, and among the fragile sites, the high frequency SCE sites were highly correlated with the high frequency breakage sites. These data support the hypothesis of common steps in the mechanism of aphidicolin-induced SCE formation and common fragile site expression.     

Preliminary studies on the genetic variability of six Hungarian common carp strains using microsatellite DNA markers

Genetic variation in six Hungarian common carp (Cyprinus carpio L.) strains was evaluated using 12 microsatellite loci. The domesticated (Tatai, Biharugrai and Szarvasi) strains were derived from fish farms. Two of wild strains (Tiszai and Dunai) were sampled from brood stocks maintained at fish farms for breeding, and Kis-Balatoni wild carp were sampled from the Small Balaton Lake. Pairwise Fst-values (0.013–0.161) were highly significant (p<0.0001), demonstrating differentiation among strains. The mean number of alleles ranged between 3.9 and 8.2. Overall mean observed heterozygosity was lower (0.557) than the mean expected heterozygosity (0.700). By strain, the only exception to this trend was the Dunai (Danubian), which showed higher mean observed heterozygosity (0.764) than expected (0.602). For five loci the Dunai strain showed extremely high levels of heterozygosity (1.00). Two wild strains exhibited a number of loci (Tiszai, 4; Dunai, 6) that were not in Hardy–Weinberg equilibrium. A relatively high number of private alleles overall (n=26), as well as differences in allele frequencies supported our ability to assign most individual fish (over 90%) to each strain.     

Bromodeoxyuridine (BrdU) template and thymodine pool effects on high frequencies of sister-chromatid exchange (SCE) in Bloom syndrome cells and a mutant cell line (AsHa) originated from ataxia telangiectasia

The effect of bromodeoxyuridine (BrdU)-substituted DNA template and thymidine (dT) pool on excess sister-chromatid exchanges (SCEs) was studied in Bloom syndrome (BS) cells and an ataxia telangiectasia (AT)-derived mutant cell line (AsHa). When BS endomitotic cells were labeled with low and high (or high and low) BrdU concentrations during S₁ and S₂, only the BrdU concentration during S₁ phase affected the observed SCE. In BS cells about a 10-fold increase in SCEs occurs during or following replication on a BrdU-substituted template (high-high and high-low BrdU labeling) relative to the normal DNA template. SCEs decreased to about half in AsHa cells labeled with various BrdU doses (40, 60, 80 and 100 μg/ml) during only S₁, compared with those labeled during S₁ and S₂. Co-cultivation of AsHa and BS cells resulted in a significant reduction in SCE level from 70 to 13–17 in BS cells, lowered the BrdU concentrations necessary for sister-chromatid differential (SCD) staining from 40 to 10 μg/ml with normal SCE level and resulted in decreased level of SCEs at high BrdU concentrations (80–100 μg/ml) 12–14 SCE) in AsHa cells, compared with the originally increased SCE level (36.65 SCE at 100 μg/ml) without co-culture. However, co-cultivation between AsHa and normal cells lowered the BrdU dose necessary for SCD staining from 40 to 30 μg/ml; the dT pool possibly balanced at this level, which is clearly higher than that at co-cultivation between AsHa and BS cells. The reason for the very high BrdU doses needed to achieve SCD would seem to be that AsHa cells have high levels of thymidylate (TMP) synthetase, which maintain a large endogenous thymidine pool. This has been confirmed by direct measurement. These findings strongly support that excess and decreased dT pools are closely related to the condition necessary for high SCE induction.     

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.     

Effect of Fungicide (Maneb) on Antioxydant System and Carbon Assimilation in Leaves of Sorghum Plants

The effects of Maneb on antioxidant potentials and carbon assimilation were studied in leaves sorghum (Sorghum bicolor L.) plants (C₄ species). The plants were sprayed by three doses; recommended dose (2.5 g/L), twice and three times higher at 25, 40 and 55 days after planting (DAP). The leaves were harvested at 5, 10 and 15 days after treatment (DAT) and proteins content, activities of antioxidative enzymes catalase (CAT), guaiacol peroxidase (POD), glutathione reductase (GR), glutathione-S-transferases (GST) and glyoxalase I (GlyI) as well as activity of key enzyme in primary fixation of atmospheric CO₂ phosphoenolpyruvate carboxylase (PEPC) and chlorophyll content were estimated. The protein content was found increased under Maneb treatment. While the POD and GR activities appear unaffected, CAT activity increased at 10 and 15 DAT. Whereas the GST activity increased significantly in plants treated with 5 g/L at 5 DAT and in plant exposed to 2.5 g/L at 10 DAT. The activity and proteins levels of GlyI were increased progressively with increasing fungicide treatment. This increase was more pronounced at 5 DAT; being 1.7 and 1.5 fold for 5 and 7.5 g/L, respectively. However, both PEPC activity and chlorophyll content seem unchanged in presence of fungicide even at high concentration. These results indicate that sorghum leaves have a well-developed systems of protection from carbonyl stress.     

Chromosome studies on lymphocytes of patients under cytostatic therapy

Summary Lymphocyte cultures from the peripheral blood of 38 patients undergoing a cytostatic interval therapy with a regimen of methyl-CCNU (1-[2-chloroethyl-3-(4-methyl-cyclohexyl)]-1-nitrosourea), 5-fluorouracil, and vincristine (each 5-day course of therapy was followed by a therapy interval of 4 weeks) were supplied with 5-bromodeoxyuridine (BUDR) for the whole culture time to determine the sister chromatid labelling pattern. From a total of 92 individual blood samples sister chromatid exchange (SCE) studies were performed including analyses before the start of the therapy, and immediately and 4 weeks after each course of therapy. In addition, the frequency of first, second, and third metaphases in the 72-h cultures was estimated using the characteristic labelling patterns.A distinct increase of SCE frequency over the control level (i.e., lymphocyte cultures of patients before the start of therapy) was observed at all phases of therapy. It was clearly correlated with the number of courses of therapy up to course 7, later on the SCE rate remained more or less at the level reached. The influence of the composition of each drug regimen on the SCE rate was less pronounced than it was on the breakage rate. Moreover, although a clear correlation existed between the individual rates of breakage and SCE, the formation of the latter appeared to reflect a long-term effect of the therapy rather than did the formation of break aberrations. In addition, as the intercellular variability of the number of SCEs per cell was much higher than that of breaks, the interindividual variability (variation of the mean values for each patient) was small compared to the respective variability of breakage rates.The proportion of first, second, and third metaphases present in 72-h cultures evidently was influenced by single courses of therapy. The observed delay of proliferation was also reflected in different amounts of chromosome damage. Although the BUDR treatment enhanced the cytostatic effect of the therapy on the lymphocytes in culture rendering SCE analysis rather difficult in several cases, the other data of this study and in particular the experiences with the long-term effect make it imperative to include BUDR-labelling in further cytogenetic studies in subjects with exceptional exposure to chemicals. However, the SCE method can by no means, replace the classic cytogenetic analysis.     

Automatic fermentation control based on a real-time in situ SIRE biosensor regulated glucose feed

Monitoring and regulation of fermentations is of a paramount industrial and academic importance in order to keep conditions optimal during the entire process. Established techniques employed today include HPLC and spectrophotometry, which both have the disadvantage that broth samples have to be drawn from the fermentor and that they often require sample pre-treatment. The objectives of this study was to design and evaluate a software controlled automatic real-time SIRE biosensor connected to a glucose feed solution pump for in situ based monitoring and regulation of the glucose concentration during a yeast fermentation process. The maximal frequency for the measuring-regulation cycles was 30/h. A 10 mM mean glucose concentration level was successfully maintained within +/-0.013 mM during 60 min fermentations at various concentrations of yeast (10, 20, 40 and 80g/l). The on/off-regulator used caused some expected fluctuations (oscillations) of the glucose concentration around the mean value (+/-0.12 mM at 10 g/l, +/-0.26 mM at 20 g/l, +/-0.51 mM at 40 g/l, and +/-0.99 mM at 80 g/l). A 7-h fermentation process (10 mM glucose and 20 g/l yeast) was successfully monitored and regulated. The obtained measuring data were found to be 8.5-22.9% lower than data obtained with a commercially available spectrophotometric kit. The difference increased linearly (-0.26 mM/h), during the fermentation process and indicated that some clogging of the in situ positioned probe occurred. The speed and the automatisation adaptability of the presented device suggest advantages compared to established techniques.     

Tylosin production by Streptomyces fradiae using raw cornmeal in airlift bioreactor

Using a 50-l airlift bioreactor, for the effective production of tylosin from Streptomyces fradiae TM-224 using raw cornmeal as the energy source, various environmental factors were studied in flask cultures. The maximum tylosin concentration was obtained at 32 degrees C and pH between 7.0 and 7.5. When seed was inoculated after 24 h of culture, the maximum tylosin concentration, 5.7 g/l, was obtained after 4 days of culture. Various concentrations of raw cornmeal were tested to investigate the optimum initial concentration for the tylosin production. An initial raw cornmeal concentration of 80 g/l gave the highest tylosin concentration, 5.8 g/l, after 5 days of culture. Of the various nitrogen sources, soybean meal and fish meal were found to be the most effective for the production of tylosin. In particular, with the optimal mixing ratio, 12 g/l of soybean meal to 14 g/l of fish meal, 7.2 g/l of tylosin was obtained after 5 days of culture. To compare raw cornmeal and glucose for the production oftylosin in the 50-1 airlift bioreactor for 10 days, fed-batch cultures were carried out under the optimum culture conditions. When raw corn meal was used as the energy source, the tylosin production increased with increasing culture time. The maximum tylosin concentration after 10 days of culture was 13.5 g/l, with a product yield from raw cornmeal of 0.123 g/g of consumed carbon source, which was about 7.2 times higher than that obtained when glucose was used as the carbon source.     

Sister chromatid exchange in lymphocytes from patients with Acute lymphoblastic leukemia

Summary Sister chromatid exchange (SCE) frequencies were studied in peripheral lymphocytes from 16 patients with newly diagnosed acute lymphoblastic leukemia (ALL) prior to the initiation of chemotherapy. The mean SCE frequency ( ±SE) for these patients was 12.2±0.2 per metaphase, which was significantly higher (P(0.001) than the mean SCE score for 14 agematched controls, 7.6±0.2. Five of these patients were studied again while they were receiving maintenance therapy consisting primarily of daily 6-mercaptopurine and weekly methotrexate. Their remission SCE levels remained significantly higher than controls (P(0.005). In addition, SCE levels were studied in 7 long-term survivors of ALL. Three of these patients had been receiving continuous maintenance therapy for at least 3 years. Their mean SCE scores were significantly greater than controls (P(0.005). The other 4 patients had finished their final course of chemotherapy at least 8 months prior to the time of sampling, and their mean SCE scores were not significantly different from controls (P>0.10). These data indicate that untreated patients with ALL have increased SCE levels which remain elevated during periods of remission maintained with chemotherapy. However, longterm survivors of ALL who are in remission and off chemotherapy do not demonstrate significantly increased SCE frequencies.     

Spontaneous level of sister chromosome exchanges and their distribution in human cells]

Blood of practically healthy donors of both sexes (27 females and 23 males) was cultured under the standard conditions during 96 hours. Bromodeoxyuridine (BUdR) was added at the final concentration of 10 mkg/ml 28 hours before harvesting. The slides were stained with acridine orange and Giemsa for differential staining of chromatids. In each culture sister chromatid exchanges (SCE) were analysed in 50 cells, and the part of cells undergoing the first, second and third mitoses at the time of harvesting, was calculated. According to the mean number of SCE per cell, the distribution of individuals was consistent with the normal law, the mean being 6.525 and standard deviation--0.956. A significant heterogeneity in the speed of cell cycle of cultures was observed. The coefficient of variation for the part of cells undergoing the first mitosis was 50%, for the cells in the second mitosis--15%, and for the cells in the third mitosis--154%. Correlation analysis showed a positive dependence of the mean level of SCF upon the age of a donor and upon the part of cells in the second mitosis in this individual. No reliable correlation of the SCE level with the donor's sex was observed. The distribution of cells, obtained from the culture of one individual, was best approximated by beta-distribution, and the distribution of cells obtained from the cultures of different individuals--by gamma-distribution. In both there was obtained a satisfactory approximation by Pearson's distribution of the 1 type, and significant deviations were found from the normal, Poison's and the negative binomial distribution. The conditions were found of similarity of empirical distribution of SCE in cells to the normal one. For that, it is not the value of SCE for a separate cell that should be used as a unit of measurement, but the mean from the values of frequencies for 5-10 cells. Hence, it was shown that for the evaluation of the mean frequency of SCE with the precision of 1 exchange in separate individuals it is necessary to analyse 40 cells, and to observe the 15% increase of spontaneous SCE level under the action of deleterious factors--8 individuals are enough to analyse.     

Effects of mitomycin C on sister chromatid exchange in normal and Bloom's syndrome cells

Bloom's syndrome lymphocytes, which are characterized by a high incidence of sister chromatid exchanges (SCE: 80.6 per cell), were treated with mitomycin C (MMC) and the effect of the chemical on SCE frequency compared with that in normal cells. Raising the concentration of MMC from 1 X 10(-9) to 1 X 10(-7) g/ml led to about 10-fold increase (61.7 SCE per cell) in the SCE frequency over the base line in normal lymphocytes (6.4 SCE per cell), though chromosome aberrations remained at a relatively low frequency. MMC caused about a two-fold rise in SCE in cells of Bloom's syndrome (128.8 SCE at 10(-9) g/ml; 139.3 SCE at 10(-8) g/ml). The frequency of chromosome aberrations in Bloom's syndrome cells at concentrations of MMC of 1 X 10(-9) and 1 X 10(-8) g/ml was 0.350 and 0.825 per cell, respectively, and low when compared to the increased number of SCE. The increased frequency of SCE in normal and Bloom's syndrome cells is in contrast to the reported findings with cells from Fanconi's anemia and xeroderma pigmentosum. The distribution of SCE in MMC-treated normal cell correlates with that of spontaneous SCE in cells of Bloom's syndrome.     

Genotype- and age-associated in vivo cytogenetic alterations following mutagenic exposures in mice

We studied mice from eight genetic strains at two ages (young, 10 weeks; and old, more than 80 weeks) for cytogenetic alterations (sister chromatid exchange (SCE), micronuclei, and metaphase indices) following challenges by two known mutagens: N-nitrosoethyl urea (ENU, 17 mg/kg) and cyclophosphamide (CP, 4.5 mg/kg) on bone marrow cells in vivo. The data were used to evaluate the effect of age, genotype, and differential aging patterns of genotypes in relative susceptibility to chromosomal breakage and instability in otherwise normal individuals. The older animals had a higher frequency of micronuclei, reduced metaphase indices, and lower SCE/cell as compared with their younger counterparts. Treatment with both mutagens significantly increased micronuclei and SCEs/cell in almost all strains at both ages but had little effect on the frequency of cells in metaphase. Among individual differences for SCEs/cell at most treatment combinations were not significant. In general, the induced SCEs (treatment-control) are significantly higher in older animals, variable among strains, and relatively higher as a result of CP than the ENU treatment. When the age effect was evaluated as the difference of SCE/cell in old and SCE/cell in young animals of each genotype-treatment combination, an age-dependent pattern was evident. In the presence of a mutagen the pattern in aging response was highly variable and strain (genotype) dependent. This variability may be viewed as subtle inherent genetic predisposition of sensitivity to mutagens that could be evaluated only using sensitive measures (e.g., SCE and not micronuclei) following more than one mutagenic challenges. These subtle differences could become pronounced when these parameters are evaluated at different ages on the same genotype.(ABSTRACT TRUNCATED AT 250 WORDS)