Analyses for in vitro growth conditions,cytokinetics, and sister chromatid exchanges in lymphocytes cultured from the Sprague-Dawley rat

Summary Peripheral blood samples from Sprague-Dawley rats gave successful lymphocyte growth in GIBCO: IA, RPMI 1640, and Eagle's minimum essential medium (MEM) culture media. Various growth conditions, cytokinetics, and sister chromatic exchange (SCE) induction were studied using reconstituted GIBCO 1A only. Neither methoxyflurane anesthesia of the rats before sampling nor washing of the cells with phosphate buffered saline affected the mitotic index. Cultures treated with [³H]thymidine showed the lymphocytes entering into DNA synthesis after approximately 24 h. The time at which BUdR (5-bromo-2′ deoxyuridine) was added, i.e. 0 vs. 24 h incubation, had minimal effect on the mitotic index of cultures harvested at 48 h. However, when harvest was extended to 72 h, mitotic activity was greater in the cultures treated with BUdR at 24 h. No significant differences in mitotic index and the number of average lymphocyte division were detected in cultures exposed to 0.3 to 0.5 μg/ml BUdR at 24 h and harvested at 72 h. Although SCE frequencies increased in the presence of BUdR, the baseline level of SCEs was estimated to be 5 to 6/cell. Average generation time of the lymphocytes dividing between 48 and 72 h was 16.5 h. Because of its simplicity of culture and the reproducible nature of its in vitro growth kinetics, the Sprague-Dawley rat lymphocyte is a suitable model for cytogenetic investigations.     

Effects of 5-bromo-2-deoxyuridine concentration and alpha-naphthoflavone on the association between smoking and the frequency of sister-chromatid exchanges in lymphocytes from maternal and cord blood

The frequency of sister-chromatid exchanges was analyzed in maternal and cord blood lymphocytes obtained at delivery from 23 nonsmokers and 21 smokers. Lymphocytes were cultured under 3 conditions: in the presence of 100 microM 5-bromo-2-deoxyuridine (BUdR), 20 microM BUdR and 20 microM BUdR with 40 microM alpha-naphthoflavone (ANF). Under all assay conditions, frequencies of SCEs were consistently higher for maternal lymphocytes than for cord lymphocytes. There was no association between SCE values for cultures of the same blood specimen with 100 microM BUdR and 20 microM BUdR. When cultured with 100 microM BUdR, maternal lymphocytes from smokers had a mean SCE frequency of 13.5, which was significantly higher than the value of 11.1 observed for nonsmokers (p = 0.001 by the Wilcoxon rank sum test). Maternal smoking had no significant effect on overall frequencies of SCEs in maternal blood cultured with 20 microM BUdR either with or without ANF or when the differential between cells cultured with and without ANF was considered. Use of caffeinated beverages was associated with increased SCE values for maternal lymphocytes cultured with 20 microM BUdR (Tau beta = 0.36, p = 0.02 for the Kendall's Rank Correlation), but no such association was seen with 100 microM BUdR. For cord blood lymphocytes, however, neither smoking nor caffeine use were associated with SCE values obtained by any of the assay conditions used. The findings suggest that results of human monitoring studies using SCEs could differ depending on the concentration of BUdR used in cultures.     

Sister chromatid exchanges in human leukocyte chromosomes: Spontaneous and induced frequencies in early- and late-proliferating cells in vitro

Summary Human leukocyte cultures were pulse-treated with the trifunctional alkylating mutagen trenimon in a final concentration of 10^-7 M for 15–20 h after culture start, i.e., in the G₁ phase of the cell cycle. At 24 h after culture start bromodeoxyuridine (BUdR) was added to the trenimon-treated cultures and to several untreated cultures running in parallel. The series treated with BUdR only and the series treated with BUdR+trenimon were each used to prepare two cultures at different culture times. Mitoses were collected during consecutive intervals of 12 h from 30 h up to 102 h after culture initiation by colcemid. For all preparation times (42 h, 54 h, 66 h, 78 h, 90 h, and 102 h) the frequencies of first, second, and third and further mitoses were determined in the BUdR- and in the BUdR+trenimon-treated series. In the trenimon-treated series a clear cell cycle delay was detected as compared with the normal distribution of different types of mitoses found in series treated with BUdR only. Spontaneous and trenimon-induced sister chromatid exchange (SCE) frequencies were determined in second mitoses occurring at 66 h, 78 h, 90 h, and 102 h after culture start. For all these preparation times about six SCE per metaphase were consistently found in BUdR-treated, and about 19 SCE per metaphase in BUdR+trenimon-treated series, indicating a homogeneous sensitivity of early- and late-proliferating cells with respect to the induction of SCE.This paper is dedicated to Prof. B. Erich Wolf on the occasion of his 70th birthday     

Hypersensitivity of Bloom's syndrome fibroblasts to N-ethyl-N-nitrosourea

Fibroblast cells from two Japanese patients with Bloom's syndrome (BS) and normal donors were studied for the inactivation of colony-forming ability and the induction of sister-chromatid exchanges (SCEs) after N-ethyl-N-nitrosourea (ENU) treatment. The reduction of ENU-induced SCEs as a function of post-treatment incubation time was also compared between BS and normal fibroblasts. BS cells were approximately 4 times more sensitive than normal cells to the lethal effect of ENU and remarkably hypersensitive to the SCE induction by ENU. The post-treatment incubation of ENU-treated normal cells in the fresh medium resulted in a time-dependent decrease of the SCE level until 6 h after which time the SCE level remained the plateau of about 50% of the initial level. In contrast, the ENU-induced SCEs in BS cells decreased much more slowly with post-treatment incubation time and its half life was 24 h. These results collectively support the view that BS cells may be defective in the rapid repair of certain type(s) of DNA damages induced by ENU.     

Cell cycle progression and SCE rate of Bloom syndrome cells with/without co-cultivation in the presence/absence of normal cells

The present study was undertaken to examine cell cycle progression and SCE rate in three types of B-lymphoid cell line, viz., normal (KS-86), high-SCE Bloom syndrome (BS (BS2-2) and dimorphic BS (BS-SYW). In order to compare the dimorphic condition (BS-SYW) with artificial dimorphism (co-cultivation of BS2-2 with KS-86) these experiments were designed to test whether the BS B-lymphoid cell line cultures would influence the cell cycle progression and SCE rates of a normal B-lymphoid cell line, and vice versa. The present study resolved the controversy reported in the literature, by finding a definite time period under co-cultivation conditions when the SCE in normal cells was increased after 8 days of co-culture, whereas SCE in the BS cells decreased immediately with co-cultivation. In the dimorphic BS cell line (BS-SYW) the SCE frequency of a high-SCE cell population was also observed to be lower than that of a non-dimorphic BS cell line (BS2-2), thus corroborating the experimental observations under co-cultivation conditions. The decrease in BS SCE and increase in normal SCE (after a particular time period) is attributed to numerous causes discussed in relation to the cell cycle progression.     

Micropropagation and in vitro flowering of the bamboo Dendrocalamus hamiltonii Munro

Nicotinic acid, pyridoxine, and picloram were stable in a liquid MS culture medium (pH 5.5–5.6) during autoclaving and during cell-free incubation in the dark at 5°C or 25°C for up to 6 weeks. Thiamine loss under the same conditions was 16% at 5°C and 18% at 25°C. Five percent of the sucrose in the liquid medium was hydrolyzed during autoclaving. During cell-free incubation in the light (100 E m^–2 s^–1) at 25°C, pyridoxine was not detected after 6 days, while 78% of the picloram and 56% of the thiamine were degraded after 6 weeks. All of the niacin and pyridoxine, 13% of the picloram and 42% of the thiamine in a liquid MS culture medium were utilized in 4 days by potato (cv. Lemhi Russet) tuber suspension cultures growing in the dark at 25°C.Abbreviations BS Gamborg et al. medium (1968) - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - MS Murashige & Skoog (1962) - NAA naphthaleneacetic acid - PAA phenylacetic acid     

Effects of caffeine-pretreatment on SCE and chromosome aberrations induced by monofunctional- and bifunctional-mitomycin C in bloom syndrome lymphocytes

Bloom syndrome (BS) lymphocytes, which are characterized by a high incidence (75.4 per cell) of SCE, were treated with caffeine (CAF) during the first cell cycle and with monofunctional-(M-MC) and bifunctional-(MC)mitomycin C during the second cycle. The effect on the SCE level was synergistic. The CAF-pretreated cells in combination with M-MC and MC post-treatments, had significantly higher (SCE values 152.5 and 167.9 SCE per cell, resp.) than those treated with M-MC or MC alone during the second cycle (101.1 and 116.4 SCE per cell, resp.). M-MC and MC in the presence of BrdU (without CAF) for 2 cell cycles increased SCE to 157.6 and 169.4 per cell (about twice the control level). M-MC + CAF and MC + CAF treatments for 2 cell cycles did not produce a synergistic effect on the SCE frequency in BS cells; the SCE level was not significantly greater than that with M-MC or MC alone. Normal cells treated with MC and CAF for 2 cycles had a maximum SCE frequency of 156 per cell. This suggests that cells with SCE frequencies above this level may not be able to survive, i.e., this is the “saturation” level of SCE. However, CAF alone had almost no effect on SCE in either BS or normal cells and did not produce multiple chromosome aberrations. The lack of CAF effect on BS cells suggests that the lesions in DNA strands of BS cells which lead to SCE are double-strand lesions. In normal cells CAF is known to significantly slow down DNA-chain growth; the reduced rate of DNA-chain growth in BS is an inherent defect of the cells. Therefore, though CAF enhanced SCE and chromosome aberrations (shattered chromosomes) in combination with alkylating agents, CAF alone did not significantly increase the SCE rate in either BS cells or in normal cells. Thus, processes which may induce SCE are not only related to retarded rate of DNA-chain growth, but also to breaks in the template strand permitting double-strand exchanges to occur.     

Low-temperature storage of Rauvolfia serpentina Benth. ex Kurz.: An endangered,endemic medicinal plant

On a standard shoot culture medium, nodal cultures of Sarpagandha (Rauvolfia serpentina) could be maintained for nine months at 25° C by replacing cotton plugs with polypropylene caps as enclosures for culture tubes. Low temperature incubation of in vitro cultures appeared highly promising because cultures exhibited normal health even after 15 months of storage at 15° C; while 10°C and 5°C were found deleterious to growth of the cultures of R. serpentina.     

Sister-chromatid exchanges in human lymphocytes exposed during Go to four classes of DNA-damaging chemicals.

Human lymphocytes were treated prior to mitogenic stimulation with varying concentrations of 6 cytostatic drugs representing 4 classes of DNA-damaging chemicals. Afterwards the cells were washed to remove residual chemical and cultured in the presence of bromodeoxyuridine for analysis of sister-chromatid exchanges (SCEs). A dose-related increase in SCEs was observed in cells exposed during Go to the alkylating chemicals mitomycin C, chlorambucil, and thiotepa, while significant increases in SCEs were not noted in cultures exposed to methotrexate, cytarabine, or bleomycin. These findings suggest that not all classes of clatogenic chemicals which induce SCEs in proliferative cells substituted with BUdR are capable of inducing long-lived lesions in the DNA of Go lymphocytes that can lead to SCE formation.     

Use of Bromodeoxyuridine For Cell Kinetic Studies In Intact Animals

Abstract. A method is described for the use of BUdR for tracing cell proliferation patterns in the intestinal mucosa of intact mice.
The method has several distinct advantages over existing methods.
Bromodeoxyuridine (BUdR) is a well-established alternative to tritiated thymidine ([³H]TdR) as a tracer for studying DNA replication. However, its use in cytological as opposed to biochemical studies has been largely confined to examination of metaphase spreads, particularly analysis of sister chromatid exchange (Block, 1982). For this, BUdR incorporation into DNA has been demonstrated using the fluorescent dye Hoechst 33258, together with fluorescence microscopy (Latt, 1973), or Giemsa staining (Perry & Wolf, 1974). Recently, introduction of a monoclonal antibody which recognizes BUdR in single-stranded DNA (Gratzner, 1982) has enabled BUdR to be used for studying cell cycle kinetics in a manner exactly analogous to the use of [³H]TdR. This has been reported for whole cells in suspension and in monolayer (Dolbeare et al. , 1983; Dean et al. , 1984; Raza et al. , 1984). BUdR included in tissue culture medium is taken up and incorporated into newly synthesized DNA via the same pyrimidine salvage pathway as [³H]TdR (thymidine kinase). A concentration of as little as 10 μm—well below cytotoxic levels (Cerni, 1984)—is sufficient to give readily detectable labelling by immunocytochemistry with a pulse of less than 15 min. the validity of BUdR labelling for cell kinetic studies has been well established in comparisons with other methods by Dolbeare et al. (1983), Dean et al. (1984), and Raza et al. (1984).
We describe here the use of BUdR together with an immunocytochemical detection system applied to sections of wax-embedded tissues, which provides a convenient method of cell cycle analysis in intact animals.     

Relationship between heat-shock protein synthesis and thermotolerance in rainbow trout fibroblasts

Summary The role of heat-shock protein synthesis in the development of thermotolerance by rainbow trout fibroblasts was examined. During the first 6 h after being shifted from 22°C to 28°C, cells of the rainbow trout fibroblast line, RTG-2, rapidly synthesized the major heat-shock proteins (hsps), hsps 87, 70 and 27, and developed tolerance to 32°C. After 24 h at 28°C hsp synthesis was drastically reduced but thermotolerance was maintained. If these thermotolerant cells were shifted to 32°C, hsp synthesis continued at a very low level, but if they were subsequently returned to 22°C, synthesis of hsps 70 and 27 was induced again. The addition of actinomycin D during the first 6 h at 28°C prevented hsp synthesis and the development of thermotolerance. The presence of actinomycin D during the incubation of thermotolerant cultures at 32°C blocked the reinitiation of hsps synthesis at 22°C but had no effect on survival. Therefore, the hsps that accumulated at 28°C were sufficient to allow cells to survive a subsequent thermal stress at 32°C.     

Cytogenetic damages in the cells of allergy patients

The levels of cytogenetic damages in cell cultures of chemical industry workers suffering from different forms of allergy have been investigated. The levels of chromosomal aberrations in cells of allergic patients are shown to reliably increase as against those of healthy donors. Studies on SCE levels have shown no such differences between the patients and donors. The SCE levels have been determined at different periods of BUdR addition and cultures fixation under the effect of environmental factors.     

BUdR as a tracer of the possible mutagenic activity of Pb++ in human lymphocyte cultures.

The method of SCE was used as an indicator of the possible mutagenic activity of lead acetate in in vitro cultures of human lymphocytes. After determining the optimal concentration of BUdR, the cultures were treated with increasing doses of the metal. The negative results obtained with this method led us to examine other parameters, in particular the classical cytogenetic aberrations.     

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.     

Racial differences in alcohol sensitivity: A new hypothesis

Summary Cocultivation of fibroblast cells from a male patient with Bloom syndrome (BS) and a female control reduced the rate of sister chromatid exchanges in the BS cells from a mean of 54 SCE per metaphase (range 42–65) to 41 (range 24–59). Medium used to culture control cells for 48 h also reduced the rate of SCE (from 40–65 to 33–54), whereas medium used for only 24h altered the SCE rate only slightly (to 39–61). Dialyzed medium concentrate with molecular cutoff at 15,000 did not alter the SCE rate. These initial studies suggest that normal cells produce an agent, presumably lacking in BS cells, that is capable of mitigating the chromosomal manifestation of the BS mutation (bl) in bl/bl cells.     

Bloom syndrome B-lymphoblastoid cells are hypersensitive towards carcinogen and tumor promoter-induced chromosomal alterations and growth in agar.

The effects of the carcinogens (4NQO, 4-nitroquinoline-N-oxide; MNNG, N-methyl-N'-nitro-N-nitrosoguanidine; AFLG1, aflatoxin G1; AFLB1, aflatoxin B1; BNU, butylnitrosourea; MNU, methylnitrosourea) and the tumor promoter (TPA, 12-O-tetradecanoylphorbol-13-acetate) on sister chromatid exchanges (SCE), chromosome aberrations and colony formation (CF) were examined in three types of Bloom syndrome (BS) B-lymphoblastoid cell lines (B-LCLs); type I with normal SCE and normal karyotype; type II with high SCE and normal karyotypes; type III with high SCE and abnormal karyotypes. BS type I cells had the same SCE and CF response as normal cells to these carcinogens and TPA. In BS type II and III cells treated with carcinogens the SCE frequency increased to 140/cell from a baseline of 70/cell versus an increase of only 10/cell in normal cells. Colony formation occurred at the concentrations that caused the highest SCE. TPA caused a significant SCE increase and highly enhanced CF with dose dependency only in type III cells, suggesting that type III cells may be already in a pre-malignant state; type II cells appear to be one step behind those of type III in the process of becoming malignant. BS type II and III cells may be usable to establish a sensitive system to detect SCE-inducing agents.     

Demonstration of spontaneous sister chromatid exchanges in vivo

The frequency of sister chromatid exchanges (SCEs) was examined as a function of bromodeoxyuridine (BUdR) concentration in vivo. Oneyear-old Wistar rats were continuously infused with BUdR through the tail vein for 24 h, sacrificed, and mitotic preparations prepared from femur bone marrow. It was observed that from the minimum concentration of BUdR which permitted accurate scoring (1.9 μg/g wt/h) to a BUdR concentration of 7 μg/g wt/h, SCE frequency remained constant. Above 7 μg BUdR/g wt/h SCE frequency increased, saturating at higher BUdR concentrations. The stability of SCE frequency at low BUdR concentrations is interpreted to indicate the existence of spontaneous SCEs in vivo.     

Effects of cell fusion and deoxynucleosides on sister-chromatid exchanges in B-lymphoblastoid cell lines from 5 Bloom syndrome patients

The effect of cell fusion and deoxynucleosides (deoxyadenosine, dA; deoxyguanosine, dG; deoxycytidine, dC; thymidine, T) on sister-chromatid exchanges (SCEs) in Bloom syndrome (BS) was studied in two types of BrdU (bromodeoxyuridine)-sensitive and BrdU-resistant B-lymphoblastoid cell lines (LCLs) with respect to cellular proliferation in BrdU-labeled culture conditions. Cell fusion between BrdU-sensitive and BrdU-resistant BS B-LCLs did not exhibit complementation, although when any of the BS B-LCLs (retaining high SCE character) labeled with BrdU were fused with non-labeled normal cells, the hybrid cells had a normal level of SCE at the first mitosis after fusion. Deoxycytidine addition showed no effect on SCEs in normal cells but decreased SCEs in BS cells from the baseline level of 70 SCEs/cell to about 60 SCE/cell. Purine deoxyribonucleosides (dG and dA) caused a significant concentration-dependent increase in SCE frequency both in normal and BS cells. Although T caused a 2-fold increase in normal SCEs, it highly decreased BS SCE from 70 SCEs/cell to 35 SCEs/cell. FrdU did not greatly affect BS SCE in the presence of BrdU and T. These observations indicate strongly that BS cells may have a low thymidine pool compared with normal cells, which could account for a more efficient BrdU substitution in the DNA thus potentiating the template effect on SCE.     

Decrease in the spontaneous frequency level of sister chromatid exchanges in cell division in culture

The spontaneous level of sister chromatide exchanges (SCE) registered in human lymphocytes is shown to depend on the moment of BUdR introduction and the time of fixation. In early periods of BUdR introduction and fixation the general spontaneous level of SCE may be observed and in later periods only that part of SCE may be registered which is caused by internal conditions. The difference between the first and second results makes the part of SCE conditioned by the environmental effects.     

Paradoxical changes in SCE frequencies persistently elevated in vivo, on exposure to a mutagen in vitro

Lymphocyte cultures from 4 individuals with persistently significantly elevated frequencies of sister-chromatid exchange (SCE) were examined with no treatment, and with 2 concentrations of mitomycin C. In each of the 4 cases, the mean level of SCEs in the untreated lymphocytes exhibited a paradoxical reduction in SCE frequency when exposed to the lower (0.005 microgram/ml) of the two doses of mitomycin C. At the second higher dose of mitomycin C (0.025 microgram/ml) the mean level of SCE/cell exceeded the untreated mean. When the distributions of SCE/cell were examined it appeared that the untreated cultures had two or more populations of cells; one was in the normal SCE frequency range, while the second population was in an elevated SCE frequency range. The paradoxical reduction in SCE frequency was apparently due to elimination of, or mitotic inhibition of cells in the highest range of SCE frequency, while a small elevation in SCEs was initiated in the cells with a normal SCE frequency. Thus, mean levels of SCE/cell can be misleading. This data suggests that new exposure to the same or a different genotoxic agent might possibly result in a misleading lowering of the mean SCE frequency.