Effect of sampling time on chromosome aberration yield for 7 chemicals in Chinese hamster ovary cells.

Choice of harvest time is one of the most important variables in the assessment of whether a compound is clastogenic and in establishing a dose relation. We examined the effects of sampling time on aberration yield for 7 diverse chemicals in CHO-WBL cells by harvesting at intervals from 9 to 30 h after treatment for 3 h with or without S9 metabolic activation. We observed both the percentage of aberrant cells and the total number of aberrations. Our data suggest that for most compounds a single harvest time approximately 17-21 h after the beginning of a 3-h treatment is optimal for aberration detection in CHO cells. Maximal aberration yields were observed for 2,4-diaminotoluene, 2,6-diaminotoluene and cytosine beta-D-arabinofuranoside from 17 to 21 h, eugenol from 15 to 21 h, cadmium sulfate from 15 to 24 h and 2-aminobiphenyl, from 17 to 24 h. For adriamycin at 1 microM, the % aberrant cells remained elevated throughout the period from 9 to 29 h, while small increases at 0.1 microM ADR were found only at 13 and at 25 h. For most chemicals the maximal aberration yield occurred at a different time for each concentration tested. However, the use of 3 or more closely spaced concentrations, carefully selected to yield up to 50% toxicity, allowed detection of a positive response at a single harvest time for all 7 chemicals.     

Rate of spontaneous chromosome aberration occurrence in cultured Chinese hamster cells

The spontaneous chromosome mutation rate was studied in cultured aneuploid Chinese hamster cells (clone 237(1)) using the method of slowing down the rate of cell division in a limiting medium containing 0.1% of serum. It was shown that during one cell generation (which lasted 14 days in limiting medium) the accumulation of chromosome aberrations with time took place. The data obtained are in keeping with the assumption of a linear dependence of this accumulation on time. The spontaneous chromosome rearrangement rate was 1.2 X 10(-2) mutations per cell per 24 hours. Proceeding from this value the spontaneous chromosome aberration rate in cells with a normal duration of the cell cycle was 0.6 X 10(-2) per cell per generation.     

Fluorescence in situ hybridization using bacterial artificial chromosome (BAC) clones for the analysis of chromosome rearrangement in Chinese hamster ovary cells

Chromosome identification using Chinese hamster ovary (CHO) genomic bacterial artificial chromosome (BAC) clones has the potential to contribute to the analysis and understanding of chromosomal instability of CHO cell lines and to improve our understanding of chromosome organization during the establishment of recombinant CHO cells. Fluorescence in situ hybridization imaging using BAC clones as probes (BAC-FISH) can provide valuable information for the identification of chromosomes. In this study, we identified chromosomes and analyzed the chromosome rearrangement in CHO cells using BAC-FISH methods.     

Differential sensitivity of Chinese hamster V79 and Chinese hamster ovary (CHO) cells in the in vitro micronucleus screening assay.

Both the V79 and CHO cell lines are routinely used in the in vitro MN screening assay for the detection of possible genotoxicants. The CHO cell line is the predominant cell line currently used in the genetic toxicology testing industry. However, some laboratories routinely utilize the V79 cell line since the in vitro MN screening assay was initially developed using V79 cells. Our laboratory has historically used the CHO cell line. Therefore, our laboratory was interested in comparing the two cell lines with regard to possible similarities or differences in MN induction sensitivity after exposure to cyclophosphamide (CPA) and mitomycin C (MMC), the two standard positive control chemicals routinely used in this assay. Three exposure conditions in the presence of CPA and MMC were examined in both cell lines. Replicate cultures of CHO cells in McCoy's 5A and V79 cells in both McCoy's 5A and E-MEM were established and treated with 5 microg CPA/ml (4h exposure with S9), 0.5 microg MMC (4h exposure without S9) and 0.5 microg MMC (24h exposure without S9). A total of 400 cytochalasin B-blocked binucleated cells and 200 consecutive cells were analyzed from each culture for MN and cell cycle kinetics, respectively. Analysis of the data demonstrated that CHO cells were up to approximately five-fold more sensitive to the induction of CPA- and MMC-induced MN than V79 cells. Both cell lines exhibited similar average generation times among identical exposure groups. Therefore, the difference in MN sensitivity cannot be attributed to possible differences in cell cycle kinetics and is possibly related to inherent cellular differences in the processing of and/or repair of CPA- and MMC-induced damage by V79 and CHO cells.     

Initial analysis of the phosphoproteome of Chinese hamster ovary cells using electrophoresis.

Protein phosphorylation is a common post-translational modification of enormous biological importance. Analysis of phosphorylation at the global level should shed light on the use of this modification to regulate metabolism, signal transduction, and other processes. We have begun a proteomic analysis of phosphorylation using two-dimensional gel electrophoresis. Chinese hamster ovary (CHO) cells were metabolically labeled using 32P-orthophosphate. The proteins were extracted and run on two-dimensional electrophoresis. Gels were stained using colloidal Coomassie stain, dried, and phosphorimaged. The Coomassie stain allowed the observation of 468 individual protein spots. The phosphorimage showed 181 spots. The phosphoproteome of CHO cells therefore comprises around one third as many proteins as the CHO cell abundance proteome. However, the most intense spots in the phosphoproteome usually do not correlate with intense spots in the abundance proteome. We investigated the effects of labeling time, finding that the number of observable spots increases but the relative intensities also change. We also investigated the effects of adding a phosphatase inhibitor during labeling. Finally, we evaluated a phosphoprotein-specific stain (Pro-Q Diamond) in comparison with radiolabeling methods. There is not perfect correlation between radiolabeled phosphoproteins and Pro-Q Diamond-stained phosphoproteins.     

Bacterial artificial chromosome library for genome‐wide analysis of Chinese hamster ovary cells

Chinese hamster ovary (CHO) cell lines are widely used for scientific research and biotechnology. A CHO genomic bacterial artificial chromosome (BAC) library was constructed from a mouse dihydrofolate reductase (DHFR) gene‐amplified CHO DR1000L‐4N cell line for genome‐wide analysis of CHO cell lines. The CHO BAC library consisted of 122,281 clones and was expected to cover the entire CHO genome five times. A CHO chromosomal map was constructed by fluorescence in situ hybridization (FISH) imaging using BAC clones as hybridization probes (BAC‐FISH). Thirteen BAC‐FISH marker clones were necessary to identify all the 20 individual chromosomes in a DHFR‐deficient CHO DG44 cell line because of the aneuploidy of the cell line. To determine the genomic structure of the exogenous Dhfr amplicon, a 165‐kb DNA region containing exogenous Dhfr was cloned from the BAC library using high‐density replica (HDR) filters and Southern blot analysis. The nucleotide sequence analysis revealed a novel genomic structure in which the vector sequence containing Dhfr was sandwiched by long inverted sequences of the CHO genome. Biotechnol. Bioeng. 2009; 104: 986–994. © 2009 Wiley Periodicals, Inc.     

The effects of 4CMB, 4HMB and BC on SCE,chromosome aberration and point mutation in cultured Chinese hamster ovary cells

Cultured Chinese hamster ovary cells (CHO-KI-BH₄) were treated for 2 h with 4CMB, 4HMB and BC, in the absence of any exogenous metabolic activation system. The cells were subjected to tests for survival, sister-chromatid exchange, chromosome aberration and mutation to thioguanine resistance.4HMB had no effect in any test at concentrations up to 100 μg/ml. 4CMB was slightly more toxic than BC. Both 4CMB and BC induced SCE and chromosome aberrations, but the effects were more marked with BC. With 4CMB, SCE increased with dose only up to about 7 μg/ml and then levelled off. A weak mutagenic effect was observed with both BC and 4CMB, but in each case, the response reached a peak and was not evident at higher doses.     

The effect of hyperthermia on transmembrane potential in Chinese hamster ovary cells in vitro

The effect of elevated temperature on transmembrane potential was studied in Chinese hamster ovary cells in vitro using tetraphenylphosphonium cation (TPP+) and 3,3'-dipentyloxacarbocyanine [Di-O-C5(3)], two unrelated lipophilic cation probes that equilibrate across the plasma membrane according to the transmembrane potential. Uptake of TPP+ was measured using a tritium-labeled probe and the uptake of the fluorescent probe Di-O-C5(3) was measured by flow cytometry. The Nernst equation was used to calculate transmembrane potential. The absolute values obtained for transmembrane potential at 37 degrees C using the two probes were different, but qualitatively similar results were obtained using either probe in the hyperthermia studies. Transmembrane potential measured at 43 and 45 degrees C was at least 20% higher than that measured at 37 degrees C, and the difference was statistically significant (P = 0.025 and P less than 0.01, respectively). The hyperpolarization induced by exposure to 45 degrees C persisted temporarily after cells had been returned to 37 degrees C. The hyperpolarization at 37 degrees C associated with a previous exposure to hyperthermia was maximal after cells had been held at 45 degrees C for 2.0 min, and fell to normal levels after 15.0 min at 37 degrees C.     

Glycosylation engineering in Chinese hamster ovary cells using tricistronic vectors

Expression of recombinant glycoproteins carrying the sialyl-Lewis^X epitope requires host cells equipped with appropriate glycosyltransferases. Chinese hamster ovary cells transfected with tricistronic vectors and encoding the resistance marker gene, neoR, in the third cistron and core 2 N-acetylglucosaminyltransferase or 1,3-fucosyltransferase III or IV in either the first or second cistron, respectively, produced both enzyme activities in a constant ratio. A representative clone was transfected with PSGL-1 (P-selectin glycoprotien ligand 1) and conferred P-selectin-binding activity to PSGL-1.     

A quantitative assessment of the cytotoxicity associated with chromosomal aberration detection in Chinese hamster ovary cells.

Regulatory guidelines suggest testing chemicals up to cytotoxic doses in chromosomal-aberration assays. To investigate the utility and limitations of various cytotoxicity indicators we used Chinese hamster ovary (CHO) cells to test 8 chemicals with differing ratios of cytotoxicity to clastogenicity. We measured immediate or delayed cell killing and growth inhibition (ATP levels, cell counts, colony-forming efficiency, CFE) and cell-cycle perturbations (mitotic index, MI; average generation time, AGT). Aberrations (abs) were scored 10 and 24 h from the beginning of the 3-h treatment. All 8 compounds induced abs at concentrations that reduced cell growth at 24 h by 50% or less. Concentrations of each chemical which induced at least 15% cells with abs, gave little loss of CFE (0-20%) for mitomycin C, adriamycin, cadmium sulfate and 2,6-diaminotoluene in contrast to the marked loss of CFE (70-80%) for eugenol (EUG), 2-aminobiphenyl and 8-hydroxyquinoline (8-HQ). 2,4-Diaminotoluene (2,4-DAT) was intermediate. Higher aberration yields were found at 24 h than at 10 h, even when minimal cell-cycle delay was detected by AGT estimates from BrdUrd-labeled cells. Cells with multiple abs were seen at 24 but not at 10 h, and often confirmed clastogenicity when there was only a weak increase in the percentage of cells with aberrations. Total ATP per culture did not always correlate with cell number, especially at later times after treatment. This is likely due to metabolic perturbations or altered cell biomass that are known to affect cell ATP content. MI suppression often did not correlate with AGT, e.g., only small increases in AGT were seen for 8-HQ, 2,4-DAT and EUG despite severe mitotic suppression at 10 h. By 24 h the MI for all chemicals had recovered, sometimes exceeding control levels. Marked mitotic accumulation was seen at 10 h for 2,4-DAT, indicating cell synchrony. Thus, the MI has limited value for dose selection. In conclusion, even weakly active chemicals were detected at a single time without exceeding a 50% growth reduction at 24 h.     

An in vitro chromosome assay using cultured rat-liver cells

An in vitro chromosome assay has been developed which utilises an epithelial-like cell line derived from rat liver. The cell line, designed RL₁, retains sufficient metabolic enzyme activity to detect chromosome damage induced by a variety of chemical mutagens and carcinogens without the incorporation of an extrinsic metabolising system. The cells are grown on standard glass microscope slides, exposed to the test chemical and processed in situ for metaphase analysis.In a small validation study, chromosome damage was detected in cultures exposed to the direct-acting agents, methyl nitronitrosoguanine, 4-nitroquinolineN-oxide, propylene oxide, epichlorohydrin and 1,2 : 3,4-diepoxybutane and to compounds requiring metabolic activation, including cyclophosphamide, 2-acetylaminofluorene, 3-methylcholanthrene and 7,12-dimethylbenz[α]anthracene. Negative results were obtained with pyrene and carbon tetrachloride.     

Chromosome aberration test of Pigment Yellow 34 (lead chromate) in Chinese hamster ovary cells

Lead chromate pigment in the form of the commercial pigment, Pigment Yellow 34, CAS No. 1344-37-2, used in the plastics and coatings industries, did not induce chromosome aberrations in Chinese hamster ovary (CHO) cell line WB(L). Lead chromate pigment is essentially insoluble in water, and in an effort to test the material under realistic conditions, no attempt to solubilize the pigment was made. These results are significant because others have reported lead chromate to cause genotoxicity in various assays, but only under conditions in which its aqueous solubility was artificially enhanced.     

The transport of L-arginine in Chinese hamster ovary cells

The transport of L-arginine has been characterized in Chinese hamster ovary cells (CHO). In the absence of Na+ the influx of the amino acid decreased. Both in the presence and in the absence of Na+ L-arginine influx was trans-stimulated and cis-inhibited by cationic amino acids. The amino acid entered CHO cells through an apparently non saturable mechanism and a single saturable agency whose Km increased in the absence of Na+. These results indicate that the agency devoted to transport cationic amino acids in CHO cells resembles system y+, the Na+-independent route that transports cationic amino acids in a number of mammalian models, although its activity is lowered by the replacement of extracellular sodium.     

Effect of pH on the activity and stability of clastogens in the in vitro chromosomal aberration test with Chinese hamster ovary K1 cells

The effect of the pH of the medium on the clastogenic activity of several direct-acting and indirect clastogens was evaluated in the in vitro chromosomal aberration test with Chinese hamster ovary K1 cells. Furthermore, the stability of the chemicals in the cell culture medium was measured by HPLC over the pH range of 5.0-11.0. The activity of the direct-acting clastogens mitomycin C (MMC), N-ethyl-N'-nitro-N-nitrosoguanidine (ENNG) and 4-nitroquinoline-1-oxide (4NQO) at various pH values depended on their stability. In the case of ENNG, its clastogenic activity decreased to about one-fifth at pH 9 but was about twice as high at acidic pH compared with that at pH 7.4. This is consistent with the observation that ENNG is unstable at basic pH; the residual content of ENNG was 0.5% of the initial amount in cell culture medium at pH 9.0 after a 2-h incubation. 4NQO was unstable at strongly basic pH (pH 10-11), and MMC was unstable at pH 5.0 and pH 11.0. The frequencies of chromosomal aberrations induced by MMC and ENNG were correspondingly decreased at these pH values. On the other hand, the clastogenicities of the indirect clastogens 7,12-dimethylbenz[a]anthracene (DMBA), benzo[a]pyrene (B(a)P) and dimethylnitrosamine (DMN), which require metabolic activation, were reduced at pH 10-11 and pH 5.8. The frequencies of chromosomal aberrations at these pHs were almost equal to negative control values. These chemicals were stable in the medium in the absence of S9 mix over the pH range of 5.0-11.0. Thus clastogenicity of indirect-acting clastogens is reduced under extreme pH conditions, probably because of the instability or nonformation of the active form. The present results indicate that the clastogenic activity of any compound will depend on its stability in the medium irrespective of its direct- or indirect-acting nature. In addition, some of the chemicals that are recognized as clastogens presumably might induce chromosomal aberrations by means of acidic pH itself. It is, therefore, important to take account of the pH of the treatment medium in evaluating the clastogenicity of chemicals.     

Monitoring of autophagy in Chinese hamster ovary cells using flow cytometry

Recently, autophagy, which is a degradative process, has drawn attention as an anti-cell death engineering target in addition to apoptosis in recombinant Chinese hamster ovary (rCHO) cell cultures for enhanced production of therapeutic proteins. Appropriate autophagy monitoring methods, that are suitable for long term CHO cell cultures, are necessary in order to investigate the culture conditions that affect the autophagy pathway and to select appropriate engineering targets for autophagy control. Herein, detailed protocols for autophagy monitoring methods based on flow cytometry are provided using the GFP-LC3-overexpressing CHO DG44 host cell line or MDC-like molecules in rCHO cells grown as an adherent culture with serum-containing medium or suspension culture with serum-free medium. Furthermore, combined with the apoptosis detection based on the Annexin V-PS interaction, the simultaneous detection of autophagy and apoptosis is also described. It is anticipated that the protocols described herein will assist in the fast, high throughput monitoring of autophagy that can support other existing autophagy assays.     

The production of chromosome aberration in Chinese hamster fibroblasts exposed to 24 keV neutrons

A filtered reactor beam, consisting mainly of 24 keV neutrons, was used to study the induction of chromosome aberrations in the V79/4(AH1) Chinese hamster cell line. The yields of both dicentrics and acentrics were linear with dose and the value of relative biological effectiveness (RBE) for dicentrics at low doses was 6.5 +/- 1.4. This value was similar to that found previously for a neutron spectrum with mean energy 2.1 MeV, and suggests that the RBE of neutrons does not increase to very high values in the energy region below 100 keV. This result does not support the suggestions of Davy (1969) and Key (1971) that the neutron RBE rises to very high values in the intermediate energy range.