Modification of radiation-induced division delay by caffeine analogues and dibutyryl cyclic AMP

The mitotic selection procedure for cell cycle analysis was utilized to investigate the concentration-dependent modification of radiation-induced division delay in Chinese hamster ovary (CHO) cells by methyl xanthines (caffeine, theophylline, and theobromine) and by dibutyryl cyclic AMP. The methyl xanthines (concentrations from 0.5 to 1000 micrograms/ml) all reduced radiation-induced division delay with the effect being linear between approximately 100 and 1000 micrograms/ml. After doses of 100-300 rad, delay was reduced by 75, 94 or 83 per cent at 1000 micrograms/ml for each drug, respectively. However, the addition of dibutyryl cyclic AMP had an opposite effect: radiation-induced delay was increased by the concentration range of 0.3 to 300 micrograms/ml. These results indicate that in mammalian cells the control of cell cycle progression and the modification of radiation-induced division delay are not simply related to intracellular levels of cyclic AMP. Rather, there appear to be at least two competing mechanisms which are differentially affected by caffeine analogues or by direct addition of dibutyryl cyclic AMP. The direct effect of caffeine and the methyl xanthines on membrane calcium permeability is considered.     

Extracellular insulin degrading activity creates instability in a CHO-based batch-refeed continuous process

In a batch-refeed continuous process involving a recombinant Chinese hamster ovary cell line, a brief upset was Occasionally observed during which cell growth halted and cell viability dropped. This was found to be associated with depletion of insulin from the medium early during the affected passage. Insulin depletion was found to be primarily the result of insulin degrading activity released by the cells during the preceding passage.Abbreviations CHO Chinese hamster ovary - rhM-CSF recombinant human macrophage colony stimulating factor - RIA radioimmunoassay - RP-HPLC reverse phase high performance liquid chromatography     

Resistance of Chinese hamster ovary cell chromatin to endonuclease digestion. I. Reversal by cAMP

A portion of the DNA within intact nuclei of a spontaneously transformed Chinese hamster ovary cell line (CHO-Kl) is relatively resistant to digestion by pancreatic deoxyribonuclease, as compared to nuclei from primary cultures of Chinese hamster ovary fibroblasts. Treatment of CHO-Kl cells with derivatives of 3',5' cyclic AMP (cAMP) under conditions which effect the reverse transformation (RT) of these cells, results in restoration of the increased sensitivity of their DNA to hydrolysis by pancreatic deoxyribonuclease, to the level characteristic of an untransformed, morphologically normal Chinese hamster fibroblast cell line. Dibutyryl (db-)cAMP and 8-bromo-cAMP (Br-cAMP) yielded similar results. The cAMP derivatives employed had no effect on the normal fibroblasts.     

High level synthesis of immunoglobulins in Chinese hamster ovary cells

The expression of lambda L and microH chain cDNA was examined in Chinese hamster ovary cells. Each cDNA was linked to a different, amplifiable, selectable drug marker gene, and expression was monitored in the presence of increasing concentrations of the selective drugs. Cells were obtained that produced greater than 60 micrograms/10(6) cells/48 h of assembled antibody. This Chinese hamster ovary cell-synthesized IgM was polymeric, and exhibited specific hapten binding and C fixation. The expression strategy employed here may prove useful for the future production of genetically engineered antibodies and other multi-subunit proteins.     

Cytological effects of kepone on Chinese hamster cells

Cytological and cytotoxic effects of kepone on Chinese hamster cells (M3-1) were investigated. Cells treated with 2 micrograms, 4 micrograms, and 6 micrograms/ml of kepone did not show any morphological abnormalities. However, cytological observations showed that chromosome breaks, chromatid breaks, dicentric chromosomes, and chromosome interchanges were produced by these treatments. Cytotoxic studies revealed dose response and time response reactions to kepone. Cell toxicity was greater at the 30 micrograms/ml concentration, producing 100 percent cell death within 24 hours.     

Cyclic AMP phosphodiesterase inhibitors depress production of plasminogen activator by Chinese hamster ovary cells.

Oncogenic transformation in a limited number of cell systems has been shown by others to be associated with an increased production of extracellular proteolytic activators that convert the plasma proenzyme, plasminogen, to the active protease, plasmin. In the present study, two cyclic AMP phosphodiesterase inhibitors (theophylline, papaverine) markedly depressed the production of intracellular and extracellular plasminogen activator by Chinese hamster ovary cells of the CHO-Kl line in serum-free medium. Prostaglandin E₁ had a moderately similar effect on the production of only extracellular plasminogen activator. The ability to control experimentally the level of production of plasminogen activator should be of value in elucidating the possible biological role of the proteolytic action of plasmin on the surface of CHO cells, and the cell surface alterations which accompany oncogenic transformation.     

Cell cycle-specific activity of type I and type II cyclic adenosine 3':5'-monophosphate-dependent protein kinases in Chinese hamster ovary cells.

Types I and II cyclic adenosine 3':5'-monophosphate (cAMP)-dependent protein kinases have been studied during the cell cycle of Chinese hamster ovary cells. Chinese hamster ovary cells were synchronized by selective detachment of mitotic cells from monolayer cultures. Protein kinases were separated by DEAE-cellulose chromatography and were similar to the types of cAMP-dependent protein kinases studied in skeletal muscle and in heart extracts. The total amount of protein kinases activity per cell was substantial, both in mitosis and at the G1/S boundary. During mitosis, the relatively high activity of protein kinase was due to a predominance of type I protein kinase. During early G1, the activity of type I protein kinase decreased and there was little detectable type II activity. A rapid increase in the activity of type II was evident at the G1/S boundary. The administration of puromycin (50 mug/ml) from 1 to 5 hours after selective detachment of mitotic cells abolished the activity of type II cAMP-dependent protein kinase seen at the G1/S border, but had no observable effect on the activity of type I protein kinase. The data presented demonstrate cell cycle-specific activity patterns of type I and type II protein kinase Type I protein kinase activity is high in mitosis and is constant throughout the cell cycle. Increased type II protein kinase activity seems to be related to the initiation of DNA synthesis in S phase. The data suggest a translational control of type II cAMP-dependent protein kinase activity.     

Melanogenesis in murine B16 cells exposed to Aeromonas hydrophila cytotoxic enterotoxin

Specific markers (growth, melanogenesis) of B16 murine melanoma cells in culture were used as indicators of toxin production by Aeromonas hydrophila. Cytotonic enterotoxinlike activity (inhibited growth, raised tyrosinase activity, and melanin accumulation) occurred at cytotoxic end points of purified beta-hemolysin and several culture filtrates. Antihemolysin rabbit serum inhibited this activity. A hemolysin-neutralized culture filtrate concentrate (10X) failed to elevate tyrosinase relative to untreated and cholera toxin treated controls. Similar dilution profiles using Chinese hamster ovary cells showed limited cell extension only at cytotoxic end points with antihemolysin inhibiting this activity. Cytotoxicity of Chinese hamster ovary cells and B16 cells was proportional to hemolytic activity, with B16 cells showing about 100-fold greater sensitivity on a per cell basis. Cell culture cytotoxicity attributed to beta-hemolysin correlated with reactivity in rabbit ileal loop assays. The ADP-ribosyl transferase activity of concentrated (10X) A. hydrophila culture filtrates and fractions thereof was negative. Apparently sublethal doses of A. hydrophila beta-hemolysin can nonspecifically stimulate cyclic adenosine monophosphate mediated events in melanoma and Chinese hamster ovary cell assays, producing lower activities than cholera toxin with shorter lag times.     

Assay of ribonucleotide reduction in nucleotide-permeable hamster cells

Ribonucleotide reduction was measured in Chinese hamster ovary cells made permeable to nucleotides by treatment with the detergent Tween-80. When compared to the respective ribonucleotide reductase activity in partially purified cell extracts, CDP and GDP reductase activities in permeabilized cells responded in a similar fashion to dithiothreitol, pH, MgCl2, FeCl3, substrate concentration and the presence of positive or negative allosteric effectors. At low protein concentrations both CDP and GDP reduction with whole cells increased linearly with cell number and was greater than the activity in corresponding cell extracts. Permeabilized cells were used to measure the level of CDP and GDP reductase in a hamster cell line resistant to the cytotoxic effects of hydroxyurea. The hydroxyurea-resistant cell line contained four to ten times more CDP and GDP reductase activity compared to parental or revertant cell lines. The permeabilized cell assay was also used to measure CDP and GDP reductase activities in Chinese hamster ovary cells synchronized by isoleucine starvation. CDP reductase activity was low in G1 arrested cells but increased 10-fold by 16 hours after the readdition of isoleucine to the growth medium. GDP reductase, which is present at much higher levels, is similarly induced after isoleucine addition, but only by 2-fold. The maximum activity of both CDP and GDP reductase occurred from 14 to 16 hours after isoleucine addition, which corresponded to the period of maximum DNA synthesis.     

Glutathione pool size affects cell survival after hyperthermic treatment

Intracellular glutathione (GSH) concentrations were titrated in Chinese hamster ovary cells by exposure to various concentrations of diethylmaleate (DEM). The various steady state levels of GSH obtained were maintained throughout the experimental time course. Cells were incubated at 42° after DEM addition in order to produce thermal dose response curves using colony formation as the end point. The slope of the dose response curve was subsequently determined and compared to the intracellular GSH concentration. This comparison indicated Chinese hamster ovary cells contain multiple reservoirs of GSH which in turn regulate thermal toxicity in a stepwise manner. Removal of 50% or less of the GSH did not affect thermal sensitivity. A small increase in sensitivity occured when 50 to 80% of the GSH was removed. Removal of greater than 80% of the GSH increased thermal toxicity significantly. The facts that 10 and 20 µM DEM produce extensive GSH depletion and only small changes in survival imply that a threshold concentration of GSH must be removed before thermal toxicity is affected.Abbreviations BCNU 1-3-Bis(2-Chloroethyl)-1-nitrosourea - BSO buthionine sulfoximine - CHO Chinese hamster ovary - DEM diethylmaleate - DMSO dimethyl sulfoxide - HBSS Hanks balanced salt solution - RF radiofrequency     

Induction of chromosome aberrations and sister-chromatid exchanges in CHO-K1 cells by o-phenylphenol

o-Phenylphenol (OPP), is used in Japan as a fungicide in food additives for citrus fruits. The induction of chromosome aberrations and sister-chromatid exchanges (SCEs) by OPP in cultured Chinese hamster ovary (CHO-K1) cells was studied. Cells were exposed to various concentrations of OPP ranging from 50 to 175 micrograms/ml for 3 h, and further incubated for 27 and 42 h. These incubation periods are almost equal to 2 and 3 cell cycles. SCEs and chromosome aberrations were induced by OPP at concentrations of 100, 125 and 150 micrograms/ml after the incubation for 27 h. For chromosome aberrations, chromatid breaks and exchanges there was a dose-dependent increase. Diplochromosomes due to endoreduplication were also caused by the same concentrations of OPP in a dose-dependent manner. After incubation for 42 h, chromosome aberrations were also increased by OPP at concentrations of 100 and 125 micrograms/ml, but the frequencies of SCEs were not significantly different from those of the control. These results suggest that OPP has a cytogenetic toxicity, and that the DNA damage resulting in SCEs induced by OPP is relatively short-lived and can be repaired during the longer incubation time.     

Generation of recombinant CHO(dhfr-) cell lines by single selection for dhfr+ transformants.

In order to establish a mammalian cell expression system with a minimum of selection steps and a stable expression of microgram amounts of recombinant protein (human tissue-type plasminogen activator mutants and chimeric proteins) per 10(6) cells per day, we investigated Chinese hamster ovary cells and the dihydrofolate reductase-deficient Chinese hamster ovary cell line CHO(dhfr-). The 1tPA expression vector pCMVtPA was cotransfected either with the SV40 enhancer sequence containing dhfr expression vector pMT2 or with the enhancerless dhfr expression vector pAdD26SV(A) into CHO(dhfr-) cells. With both dhfr expression plasmids, selection for dhfr+ transformants followed by single dilution cloning was sufficient to generate cell lines with a production level of up to 4.6 micrograms tPA/10(6) cells.day. This approach is useful if gene amplification procedures are time-consuming and impracticable because of a large number of recombinant proteins. In order to establish CHO cell lines with a tPA expression level as high as that in the case of CHO(dhfr-) cells, repeated dilution cloning is necessary.     

G1 specific increases in cyclic AMP levels and protein kinase activity in Chinese hamster ovary cells.

Chinese hamster ovary cells were synchronized by selective detachment of cells in mitosis. The adenosine 3':5'-cyclic monophosphate (cyclic AMP) intracellular concentrations and cyclic AMP-dependent protein kinase activities were measured as these cells traversed G1 phase and entered S phase. Protein kinase activity, assayed in the presence or absence of saturating exogenous cyclic AMP in the reaction mixture, was lowest in early G1 phase (2 h after mitosis), increased 2-fold (plus exogenous cyclic AMP in reaction mixture) or 3.5-fold (minus cyclic AMP in reaction mixture) to maximum values in mid to late G1 phase (4-5 h after mitosis), and then decreased as cells entered S phase. Intracellular cyclic AMP concentrations were minimal 1 h after mitosis, increased 5-fold to maximum levels at 4-6 after mitosis, and decreased as cells entered S phase. Similar to the fluctuations in intracellular cyclic AMP, the cyclic AMP-dependent protein kinase activity ratio increased more than 40% in late G1 or early S phase. Puromycin (either 10 mug/ml or 50 mug/ml) administered 1 h after mitosis inhibited cyclic AMP-dependent protein kinase activity up to 50% by 5 h after mitosis, while similar treatment (10 mug/ml) had no effect on the increase in cyclic AMP formation. These data demonstrate that: (1) total protein kinase activity changed during G1 phase and this increase was dependent on new protein synthesis; (2) the increased intracellular concentrations of cyclic AMP were not dependent on new protein synthesis; and (3) the activation of cyclic AMP-dependent protein kinase was temporally coordinated with increased intracellular concentration of cycli AMP as Chinese hamster ovary cells traversed G1 phase and entered S phase. These results suggest that cyclic AMP acts during G1 phase to regulate the activation of cyclic AMP-dependent protein kinase.     

Specific detection of residual CHO host cell DNA by real-time PCR.

Chinese hamster ovary cells have been widely used to manufacture recombinant proteins for human therapeutic use. A sensitive quantitative real-time polymerase chain reaction assay for the detection of residual Chinese hamster (Cricetulus griseus) DNA is presented in this paper. The assay is reasonably affordable and can be adapted for high-throughput screening using 96-well format. Real-time PCR primers were designed to amplify a 150bp region of a genomic fragment from hamster DNA. The specificity of the probe was evaluated in real-time PCR reactions using genomic DNA from mouse fibroblast, human kidney and hamster ovary cell lines as template. Sensitivity of real-time PCR was compared on genomic DNA from hamster cell line CHO DG44. These primers can be used in real-time PCR reactions to detect presence of contaminating hamster DNA in purified protein samples down to sensitivity of 300fg genomic DNA.     

Butachlor is cytotoxic and clastogenic and induces apoptosis in mammalian cells

The ability of butachlor to induce cytotoxicity, clastogenicity and DNA damage was assessed using Chinese hamster ovary cells (CHO), Swiss mouse embryo fibroblasts (MEF) and human peripheral blood lymphocytes. A dose and time dependent loss of viability was evident upon treatment of CHO cells with butachlor. Cell killing to an extent of 50% was observed when cells were treated with 16.2 micrograms/ml of butachlor for 24 hr or with 11.5 micrograms/ml for 48 hr. The herbicide induced micronuclei significantly in cultured lymphocytes at 24 and 48 hr of treatment suggesting that it is clastogenic. To understand the mechanism of cell death caused by butachlor, its effect on DNA strand breaks was studied in MEF. A concomitant decrease in cell viability was observed with increase in DNA strand breaks. Agarose gel electrophoresis of DNA from herbicide treated CHO cells and cytochemical staining indicate the induction of apoptosis by butachlor.     

Molecular cloning and expression of an adenosine A2b receptor from human brain.

A novel receptor cDNA was isolated from a human hippocampal cDNA library. The encoded polypeptide contains structural features consistent with its classification as a G protein-coupled receptor and shares 45% homology with the human A1 and A2a adenosine receptors. Chinese hamster ovary K1 cells expressing this receptor showed marked stimulation of adenylate cyclase when treated with 1mM adenosine. There was no response to ligands selective for A1 and A2a receptors but the general adenosine agonist N-ethylcarboxyamidoadenosine (NECA) caused a 10 fold increase in cyclic AMP accumulation with an EC50 of approximately 0.9 microM. This effect was inhibited by the adenosine receptor antagonist theophylline. Specific binding of A1 and A2a selective agonists and NECA was not detected. It is proposed that the novel receptor is a human brain adenosine A2b receptor subtype.     

Reduction of benzo(a)pyrene induced chromosomal aberrations by DL-alpha-tocopherol

The antioxidant, DL-alpha-tocopherol (vitamin E), has been demonstrated to significantly reduce the percentage of benzo(a)pyrene (BP) induced chromosomal aberrations in vitro. Chinese hamster lung (Don) and Chinese hamster ovary (CHO) cells were treated with either 1 microgram/ml or 5 micrograms/ml BP for 4 to 28 h; some cultures were treated with S9 mix activated BP. Additional cultures of Don and CHO were treated simultaneously with 100 micrograms/ml of DL-alpha-tocopherol and BP. In CHO cells 1 microgram/ml non-activated BP significantly increased the chromosomal aberration percentage above the control level. Aberrations observed included breaks, gaps, fusions, rings, dicentrics, and polyploids. Chinese hamster Don cells treated with 1 microgram/ml or 5 micrograms/ml S9 mix activated BP contained significant increases in aberration percentages above the control levels. When Don cells were treated simultaneously with activated BP and DL-alpha-tocopherol for 4 h, there was a slight decrease in the total aberration frequency to less than that of cells treated with activated BP only; however, when Don cells were treated with BP and DL-alpha-tocopherol for 28 h, there was a significant reduction in the aberration percentage below that of BP-treated cells alone. Similar results have been obtained with CHO cells treated with nonactivated BP and DL-alpha-tocopherol. The results reported here provide further evidence that antioxidants may prevent the potential mutagenic and carcinogenic effects of certain polycyclic compounds.     

Clastogenicity of 1-nitropyrene, dinitropyrenes, fluorene and mononitrofluorenes in cultured Chinese hamster cells

The chromosomal aberration test using a Chinese hamster lung cell line (CHL) was carried out on 1-nitropyrene (NP), 3 dinitropyrenes (DNPs), fluorene and 4 mononitrofluorenes with and without metabolic activation (rat S9 mix). The 3 DNPs (1,3-, 1,6- and 1,8-DNP) induced chromosomal aberrations in the absence of S9 mix. The frequencies of cells with aberrations after treatment for 48 h were 43% at 2 micrograms/ml of 1,3-DNP, 55% at 0.1 microgram/ml of 1,6-DNP and 45% at 0.025 microgram/ml of 1,8-DNP, indicating the order of clastogenic potency as 1,8- greater than 1,6- greater than 1,3-DNP. On the other hand, 1-NP, which is known to be a direct-acting mutagen in bacteria, was negative in the chromosomal aberration test without S9 mix, but clearly positive with S9 mix. This effect was dependent on the concentration of the S9 fraction in the reaction mixture. High-pressure liquid chromatography analysis showed that 1-NP was converted by S9 mix to several metabolites, including 1-aminopyrene (AP). The clastogenic activity of 1-AP, however, was equivocal without S9 mix, suggesting that active clastogens other than 1-AP exist. Fluorene induced chromosomal aberrations only in the presence of S9 mix (61.8% at 25 micrograms/ml). 1-, 2-, 3- and 4-nitrofluorene (NF) were more clastogenic in the presence of S9 mix than in the absence of S9 mix, suggesting that NFs were converted to more active clastogens by S9 mix.     

2,4-Dichlorophenoxyacetic acid causes chromatin and chromosome abnormalities in plant cells and mutation in cultured mammalian cells

The cytotoxic and mutagenic effects of the synthetic auxin 2,4-dichlorophenoxyacetic acid (2,4-D) on shallot root tip cells and on V79 Chinese hamster fibroblast cells were examined and compared. In shallot root tips 2,4-D caused changes in mitotic activity, as well as changes in chromosome and chromatin structure, and also changes during the cell cycle. 2,4-D also showed mutagenic and cytotoxic effects on V79 cells in culture in concentrations higher than 10 micrograms/ml. The results in both systems (plant and mammalian cells) were in agreement showing mutagenic activity of 2,4-D in the concentration range higher than usually used in establishing plant tissue culture (greater than 5 micrograms/ml).