Factors affecting the growth of Chinese hamster cells in halt selection media

Factors affecting the efficiency of selection of “reverants” of salvage pathway mutants in media containing amethopterin have been examined. Our V79 Chines hamster cell line was found to require a significantly higher level of thymidine for optimal growth in such media than has been reported for other cell lines. Hypoxanthine (but not glycine) was also required for reversal of amethopterin toxicity, but levels did not differ significantly from those reported elsewhere. Growth in HAT was also dependent on plating density and serum batch. Our modification (VHAT) was compared with published HAT recipies in back selection reconstruction experiments. A sharp fall in EOR (efficiency of recovery) of wild type cells from mixtures with mutants at plating densities greater than 3500 cells/cm² (10⁵ cells/6 cm dish) was observed for VHAT. EOR with other HAT recipes was lower still, and was affected also by the particular mutant used in the mixture.EMS induced “revertants” were isolated from three 8AZ^r mutants by plating in VHAT. All. revertants were however amethopterin resistant, they were also 8AZ resistant and the mobility of residual HGPRT (as measured by polyacrylamide gel electrophoresis) was similar to that of their 8AZ^r parents i.e. dissimilar from that in wild type. The modal chromosome number of V79 wild type cells was 21. No significant deviation from this mode was detected in any of the mutant lines examined. The data indicate that the recovery of colonies in HAT from 8AZ^r mutants does not necessarily indicate that a back mutation in the structural gene for HGPRT has occurred. Thus, the frequency of HAT⁺ colonies cannot be taken as a direct indication of reversion frequencies.     

Mutations affecting the antigenic properties of hypoxanthine-guanine phosphoribosyl transferase in cultured Chinese hamster cells.

Cells of the mutant Chinese hamster strain RJK10 do not contain either hypoxanthine-guanine phosphoribosyl transferase activity (HGPRT) or protein that cross-reacts immunologically with HGPRT. HGPRT+ revertants have been isolated from RJK10 and those strains produce HGPRT with altered antigenic properties. HGPRT from the revertant cells is less reactive with anti-HGPRT serum than enzyme from the wild-type cells, and enzymes from the two sources are immunoprecipitated independently from mixtures of cell extracts. Thus one or more of the antigenic determinants present on Chinese hamster HGPRT are either missing or present in an altered form on HGPRT from revertants of RJK10. This indicates that RJK10 carries a mutation in the structural gene for HGPRT and that secondary mutations in the gene give rise to the revertants that produce the antigenically altered enzymes.     

Factors affecting the production of glutamine in cultured mouse cells

Glutamine synthetase activity of NCTC clone 929 mouse cells (strain L) was studied as a function of the prior nutritional experience of the cells. Small enzyme increases were recorded in response to either glutamine depletion or chronic serum supplementation of the growth medium. Somewhat greater increases resulted from the administration of cortisol or certain other steroids, particularly if the hormone treatment was combined with glutamine withdrawal. High concentrations of glutamate in the medium did not augment the glutamine synthetase content of the cells and even caused an apparent decrease in it. The presence of glutamine in the culture medium resulted in a fairly rapid rate of disappearance of the glutamine synthetase of previously induced cells. The data suggest that glutamine and cortisol act independently on the cells in regulating the level of the enzyme.     

Sensitive period for the induction of endoreduplication by rotenone in cultured Chinese hamster cells

Rotenone-induced endoreduplication was investigated in Chinese hamster CHL cells. Cell cycle analyses, using 5-bromo-2-deoxyuridine (BrdU) labeling, revealed that endoreduplicaiton was induced between the G₂-phase and mitotic metaphase. Morphological studies indicated that the chromosomes of cells in metaphase at the time of rotenone exposure immediately aggregated. Within 1 h, however, the aggregated chromosomes began to decondense forming telophase nuclei. Cells with aggregated chromosomes were collected by mitotic selection using the mitotic arrestant TN-16 and then cultured for 30 h following rotenone administration. This population of cells demonstrated an extremely high frequency of endoreduplicated metaphases. Further analysis by BrdU labeling indicated that the aggregated metaphases underwent only one round of DNA replication before endoreduplicated metaphases were formed. The most sensitive period for the induction of endoreduplication by rotenone occurs during mitotic metaphase.by M.F. Trendelenburg     

Agmatine uptake by cultured hamster kidney cells

Agmatine, the product of arginine decarboxylation, has been recently found in a wide variety of animal tissues. In spite of the emergent interest on agmatine in animals, the mechanism of agmatine uptake in mammalian cells has been scarcely studied. An analysis of radiolabeled agmatine uptake was carried out by using a classical, kinetic approach with BHK-21 hamster kidney cells in culture. A high affinity, temperature- and energy-dependent agmatine transport system in BHK-21 kidney cells is here kinetically characterized which seems to be a "general" transporter shared by di- and triamines and different to a highly specific carrier for the tetraamine spermine.     

Mutations affecting adenine phosphoribosyl transferase activity in Chinese hamster cells

Mutants of Chinese hamster ovary cells that were resistant to the adenine analog 2, 6-diaminopurine generally were deficient in the enzyme adenine phosphoribosyl transferase. Such mutants did not occur spontaneously, and were rare even after mutagenesis, presumably because two active genes in this pseudodiploid line must be affected for the recessive drug-resistant phenotype to be expressed. Revertants of one such double mutant were selected on the basis of their ability to utilize adenine as a purine source. These revertants contained reduced levels of enzyme activity and were presumed to be heterozygous for the enzyme structural gene. Forward mutation to diaminopurine resistance, starting with these heterozygous revertants, occurred at a rate 1,000 times greater than that found for the original homozygous cells. The results agree with predictions based on the idea that mutations in the structural gene for the enzyme are responsible for the drug-resistant character of these variants.     

Mutagenicity of instant coffee on cultured Chinese hamster lung cells

Coffee showed mutagenic activity in cultured Chinese hamster lung (CHL) cells as assessed by using diphtheria toxin resistance as a selective marker. Most of the mutagenicity was suppressed in the presence of sodium bisulfite. The contribution of methylglyoxal to the total mutagenicity of coffee was less than 3%.     

Yield of SCEs and translocations produced by 3 aminobenzamide in cultured Chinese hamster cells

Different concentrations of 3-aminobenzamide (3AB), a strong inhibitor of poly(ADP-ribose) polymerase (PARP), were used to study their effect on the BrdU-substituted DNA of the Chinese hamster AA8 cell line. The frequencies of sister chromatid exchanges (SCEs) and translocations were determined using the fluorescence plus Giemsa (FPG) and fluorescence in situ hybridization (FISH) techniques, respectively. The results indicate that 3AB effectively induced a dose-dependent increase in the frequency of SCEs, but this enhancement in the yield of SCEs was not paralleled by an increase in translocations. These results are discussed in terms of the as yet poorly understood molecular mechanisms of action of the enzyme PARP.     

Uptake of irradiated human low density lipoprotein by cultured Chinese hamster V79 cells

Specific binding and degradation of native and gamma-rays irradiated (100-2000 rad; 100 rad/min; 137Cs) human low density lipoprotein by Chinese hamster V79 cells and mouse peritoneal macrophage line, J774G were studied. Low density lipoproteins were labeled with 125I for studying the specific binding and subsequent degradation. The specific binding and degradation of irradiated 125I-low density lipoproteins (mixed with irradiated native lipoprotein) by Chinese hamster V79 cells are considerably reduced. The uptake depends on the concentration of thiobarbutaric acid-reactive products generated in the irradiated lipoproteins which in turn depends on the concentration of carotenoids. In contrast the rate of uptake of oxidized low density lipoproteins is enhanced by Chinese hamster macrophages. The alteration in the surface amino groups of apo-B of low density lipoprotein either due to direct damage of peptide bonds by gamma-rays or via interaction with lipid peroxides (generated in the core upon irradiation) are invoked as possible mechanisms for the reduction in specific binding and subsequent degradation by V79 cells.     

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.     

Hypoxanthine transport by cultured Chinese hamster lung fibroblasts.

The uptake of hypoxanthine by Chinese hamster lung fibroblasts grown in tissue culture was studied in wild type clones and 8-azaguanine-resistant mutant clones devoid of hypoxanthine-guanine phosphoribosyltransferase. Wild type fibroblasts rapidly accumulate [3H]hypoxanthine from the medium and over 80% of the intracellular radioactivity is found in acid-soluble nucleotides. The phosphoribosyltransferase-deficient clones accumulate much lower levels of hypoxanthine and over 85% of the intracellular 3H label is associated with chemically unaltered hypoxanthine. The internal level of hypoxanthine in the mutant clones rapidly approaches but does not exceed that present in the medium. Wild type and phosphoribosyltransferase-deficient cells take up hypoxanthine at almost identical initial rates at external hypoxanthine levels from 2 to 300 muM. Analysis of these data reveals two transport systems that obey the Michaelis-Menten relationship. These differ markedly in affinity, yielding average Km values of 20 and 600 muM for both cell types. Hypoxanthine transport by both low and high affinity transport systems is blocked by p-chloromercuriphenylsulfonate and N-ethylmaleimide. Counter-transport of hypoxanthine was demonstrated in phosphoribosyltransferase-deficient fibroblasts. It is concluded that hypoxanthine is transported into Chinese hamster cells by means of carrier-mediated processes (facilitated diffusion) that operate independently of phosphoribosylation.     

Condensed tannins induce micronuclei in cultured V79 Chinese hamster cells

The tannins, delphinidin and procyanidin were isolated from flowers of white clover (Trifolium repens) and the leaves of Arnot Bristly Locust (Robina fertilis) respectively, and tested for mutagenic properties in a range of systems. There was no evidence for either compound causing significant levels of frameshift or base-pair mutagenesis in bacterial mutagenicity assays, although both were weakly positive in a bacterial DNA-repair test. Both compounds very slightly increased the frequency of petite mutagenesis in Saccharomyces cerevisiae strain D5. In V79 Chinese hamster cells, both were efficient inducers of micronuclei. In each of these test systems, increasing the potential of the compound for metabolic activation by addition of 'S9' mix had little effect on toxicity or mutagenicity of either tannin. It would seem that potential chromosome-breaking activity of condensed tannins could represent a carcinogenic hazard for animals grazing on pastures of white clover in flower. It may also have wider implications for human carcinogenesis by some, if not all, condensed tannins.