Isolation of Chinese hamster ovary cell lines expressing human acyl- coenzyme A/cholesterol acyltransferase activity

We have previously reported the isolation of Chinese hamster ovary cell mutants deficient in acylcoenzyme A/cholesterol acyltransferase (ACAT) activity (Cadigan, K. M., J. G. Heider, and T. Y. Chang. 1988, J. Biol. Chem. 263:274-282). We now describe a procedure for isolating cells from these mutants that have regained the ability to synthesize cholesterol esters. The protocol uses the fluorescent stain Nile red, which is specific for neutral lipids such as cholesterol ester. After ACAT mutant populations were subjected to chemical mutagenesis or transfected with human fibroblast whole genomic DNA, two revertants and one primary transformant were isolated by virtue of their higher fluorescent intensities using flow cytofluorimetry. Both the revertants and transformant have regained large amounts of intracellular cholesterol ester and ACAT activity. However, heat inactivation experiments revealed that the enzyme activity of the transformant had heat stability properties identical to that of human fibroblasts, while the ACAT activities of the revertants were similar to that of other Chinese hamster ovary cell lines. These results suggest that the molecular lesion in the ACAT mutants resides in the structural gene for the enzyme, and the transformant has corrected this defect by acquiring and stably expressing a human gene encoding the ACAT polypeptide. Secondary transformants were isolated by transfection of ACAT mutant cells with primary transformant genomic DNA. Genomic Southern analysis of the secondary transformants using a probe specific for human DNA revealed several distinct restriction fragments common to all the transformants which most likely comprise part or all of the human ACAT gene. The cell lines described here should facilitate the cloning of the gene encoding the human ACAT enzyme.     

Structural and biological properties of human recombinant myeloperoxidase produced by Chinese hamster ovary cell lines.

The cDNA encoding human myeloperoxidase carries three ATG codons in frame; 144, 111 and 66 bp upstream from the proprotein DNA sequence. In order to determine the most efficient signal sequence, three cDNA modules starting at each of the ATG were cloned into an eucaryotic expression vector and stably expressed in Chinese hamster ovary cell lines. In all three cases, recombinant human myeloperoxidase (recMPO) was secreted into the culture medium of transfected cells, indicating that each of the signal peptides functions efficiently. One of the recombinant cell lines, which was amplified using methotrexate, overexpresses enzymatically active recMPO up to 6 micrograms.ml-1.day-1. The recombinant product was purified by a combination of ion-exchange and metal-chelate chromatography, and characterized in terms of molecular mass, amino-terminal amino acid analysis, glycosylation, physicochemical properties and biological activity. The data show that recMPO is secreted essentially as a monomeric, heme-containing, single-chain precursor of 84 kDa which exhibits peroxidase activity. Amino-terminal analysis indicated that cleavage of the signal peptide occurs between amino acids 48 and 49. In addition, recMPO appeared to be glycosylated up to the last stage of sialylation, to an extent similar to that of the natural enzyme. Specific activity measurements as well as stability data, in various pH, temperature, ionic strength and reducing conditions, indicated that the recombinant single-chain enzyme behaves essentially in the same way as the natural two-chain molecule. Finally, recMPO was shown to exert potent cytotoxicity towards Escherichia coli when provided with its physiological substrates, i.e. hydrogen peroxide and chloride ions.     

Autophagy and its implication in Chinese hamster ovary cell culture

Chinese hamster ovary (CHO) cells, that are widely used for production of therapeutic proteins, are subjected to apoptosis and autophagy under the stresses induced by conditions such as nutrient deprivation, hyperosmolality and addition of sodium butyrate. To achieve a cost-effective level of production, it is important to extend the culture longevity. Until now, there have been numerous studies in which apoptosis of recombinant CHO (rCHO) cells was inhibited, resulting in enhanced production of therapeutic proteins. Recently, autophagy in rCHO cells has drawn attention because it can be genetically and chemically controlled to increase cell survival and productivity. Autophagy is a global catabolic process which involves multiple pathways and genes that regulate the lysosomal degradation of intracellular components. A simultaneous targeting of anti-apoptosis and pro-autophagy could lead to more efficient protection of cells from stressful culture conditions. In this regard, it is worthwhile to have a detailed understanding of the autophagic pathway, in order to select appropriate genes and chemical targets to manage autophagy in rCHO cells, and thus to enhance the production of therapeutic proteins.     

Revertants of a Chinese hamster ovary cell mutant resistant to suppression by an analogue of cholesterol: isolation and partial biochemical characterization

A highly efficient selection procedure was developed for isolating revertants of Chinese hamster ovary (CHO) cell mutants resistant to suppression by 25-hydroxy-cholesterol. The procedure is based on the fact that the specific polyene antibiotic amphotericin B caused a lethal porous complex formation with membrane cholesterol only in cholesterol-rich cells. The wild-type cells and the revertant cells switched to grow from fetal calf serum medium to delipidated fetal calf serum medium for approximately 1 day became deficient in cellular cholesterol content. These cells, unlike the cholesterol-rich mutant cells, became much less sensitive to amphotericin B cytotoxicity. The spontaneous reversion frequency of a previously reported 25-hydroxycholesterol-resistant cell clone, 25-RA [Chang, T.-Y., & Limanek, J.S. (1980) J. Biol. Chem. 255, 7787-7795], was found to be approximately 3 X 10(-6), a frequency comparable to other single gene mutations of CHO cells. Biochemical analyses of three of these revertants showed that all defects manifested in 25-RA cells reverted back in parallel, a result suggesting that these observed defects in 25-RA cells are due to a single mutation event, thus supporting the hypothesis (Chang & Limanek, 1980) that a common controlling factor may be involved in mediating the suppressive action(s) of the cholesterol analogue on various cholesterogenic enzyme activities. The function of this common controlling factor is rendered abnormal in 25-RA cells by mutation.     

The fluidity of Chinese hamster ovary cell and bull sperm membranes after cholesterol addition

Cell plasma membrane fluidity is affected by membrane lipid and protein composition as well as temperature. Altering the cholesterol content of a membrane can change membrane fluidity at different temperatures and this may affect cell survival during cryopreservation. In these experiments, we examined the effect that adding cholesterol to the membranes of Chinese hamster ovary cells (CHO) and bull sperm had on cell plasma membrane fluidity and cell survival when cells were cooled to 5 degrees C or were cryopreserved. Cells were treated with 0, 1.5 or 5.0mg cholesterol-loaded cyclodextrin (CLC), stained with N-((4-(6-phenyl-1,3,5-hexatrienyl)phenyl)propyl)trimethylammonium-p-toluenesulfonate (TMAP-DPH) to evaluate membrane fluidity and with propidium iodide to evaluate cell viability, prior to analysis by flow cytometry at 23, 5 degrees C, and after cryopreservation. CHO cells exhibited a single cell population with all cells having similar membrane fluidity. Membrane fluidity did not change when temperature had been reduced and then returned to 23 degrees C (P<0.05), however, adding cholesterol to the cells induced membranes to become more rigid (P<0.05). Bull sperm samples consisted of two cell subpopulations, one having relatively higher membrane fluidity than the other, regardless of cholesterol treatment or temperature. In addition, cells possessing the highest membrane fluidity did not survive cooling or cryopreservation efficiently. CLC treatment did not significantly alter membrane fluidity after temperature changes, but did maintain higher percentages of spermatozoa surviving cooling to 5 degrees C and cryopreservation (P<0.05). In conclusion, adding cholesterol to cell resulted in detectable membrane fluidity changes in CHO cells and increased survival of bull sperm after cooling to 5 degrees C and after cryopreservation.     

Alpha-Amanitin resistance of RNA polymerase II in mutant Chinese hamster ovary cell lines.

A number of mutant Chinese hamster ovary (CHO) cell lines resistant to the cytotoxic action of alpha-amanitin have been isolated. The alpha-amanitin sensitivity of the different mutant cell lines varied widely, but correlated well with the alpha-amanitin sensitivity of the RNA polymerase II activity in each of these mutant cell lines. In comparison with the RNA polymerase II of wild-type cells, three mutants, Ama39, Ama6, and Amal, required respectively 2- to 3-fold, 8- to 10-fold, and about 800-fold higher concentrations of alpha-amanitin for inhibition of their polymerase II activity. Determination of the equilibrium dissociation constants (KD) for complexes between 0-[3H]methyl-demethyl-gamma-amanitin and RNA polymearse II indicated that differences in alpha-amanitin sensitivity were reflected in differences in the ability of the enzymes to bind amanitin. Hybrids formed by fusion of mutants with cells of wild-type sensitivity contained both mutant and wild-type polymerase II activities. Thus, each of the different alpha-amanitin resistance mutations was expressed co-dominantly. A test for complementation between two of these mutations by measurement of both the alpha-amanitin sensitivity and the [3H]amanitin binding by RNA polymerase II in Ama6 X Amal hybrid cells did not reveal any wild-type RNA polymerase II activity. These data provide evidence that the mutation to alpha-amanitin resistance involves structural changes in the gene coding for the alpha-amanitin binding subunit of RNA polymerase II. These changes appear to account for the alpha-amanitin-resistant phenotypes of these mutant cells.     

Regulated synthesis of RNA polymerase II polypeptides in Chinese hamster ovary cell lines.

RNA polymerase II polypeptides present in [35S]methionine-labeled Chinese hamster ovary (CHO) cell extracts have been quantitatively immunoprecipitated with an anti-calf thymus RNA polymerase II serum. Analyses of the immunoprecipitates on sodium dodecyl sulfate polyacrylamide gels indicated that the immunoprecipitated polymerase II of both wild type CHO cells and the alpha-amanitin-resistant mutant Ama1 had polypeptides of molecular weight 214,000, 140,000, 34,000, 25,000, 23,000, 20,500, and 16,500. In heterozygous alpha-amanitin-resistant/alpha-amanitin-sensitive hybrid CHO cells, growth in the presence of alpha-amanitin results in the inactivation of the alpha-amanitin-sensitive RNA polymerase II activity and a compensating increase in the activity of the alpha-amanitin-resistant enzyme. Determination of the rates of synthesis and degradation of RNA polymerase II polypeptides using [35S]methionine labeling and polymerase II immunoprecipitation demonstrated that this increase in activity of alpha-amanitin-resistant polymerase II resulted from a co-ordinate increase in the rate of synthesis of at least three polypeptides of RNA polymerase II. At the same time, there was an enhanced rate of degradation of the alpha-amanitin-inactivated RNA polymerase II polypeptides.     

Differential gene expression in wild-type and X-ray-sensitive mutants of Chinese hamster ovary cell lines.

Complementary DNA cloning, differential screening and Northern hybridization techniques were used to study differential gene expression in the wild-type Chinese hamster ovary (CHO) K1 cell line and its two X-ray sensitive mutants, xrs-5 and xrs-6. 11 species of mRNAs were found underexpressed in the two independently isolated mutants. The steady-state levels of those mRNAs are 3-26-fold less in the two mutants, depending on the particular species. 6 of the underexpressed mRNAs have been identified by comparing the sequences of the cloned cDNAs to the known sequences in GenBank. 4 of them code for the structural proteins of ferritin heavy chain, nonmuscle myosin light chain 3nm, ribosomal protein S17 and L7, respectively. The other two have strong homology with mouse B2 or retroviral sequences. The remaining 5 mRNAs did not show significant homology with any of the known sequences and apparently represent newly isolated species. The effect of 137Cs gamma-rays on the expression of the 11 mRNAs has been studied. Radiation inhibited the expression of the B2-like gene in the mutants but not in the wild-type CHO cells. The levels of the other 10 mRNAs were not affected by radiation. The underexpression of this group of genes in both xrs-5 and xrs-6 mutants seems to be related to their radiation-sensitive phenotype, although the specific gene responsible has not been identified. Two models are proposed to explain the mechanism of underexpression. It is suggested that a cellular factor or/and chromosome structural changes are involved.     

Synthesis and activity of p-azidobenzoyloxyferricrocin, a photoactivatable analog of ferrichrome

p-azidobenzoyloxy desferriferricrocin (AF) 2, a photoactivatable analog of ferrichrome, was prepared by selective acylation of the serine group of ferricrocin 1 in two steps: transesterification of ferricrocin followed by demetallation. A model compound, (L) 2-benzyloxycarbonylamino-3-p-azidobenzoyloxy N-isopropyl propionamide 8, was separately synthesized in order to set up optimal transesterification conditions to avoid , -elimination or epimerization of serine. Binding of iron-loaded AF (FeAF) to the FhuA outer membrane receptor protein of Escherichia coli AB2847 was demonstrated by inhibition of ferrichrome transport, interference with the infection by the bacteriophage 80 and with killing of cells by albomycin and colicin M. FeAF transported iron only weakly which indicates that the photoaffinity moiety is incompatible with transport or intracellular iron release from the siderophore.     

Relief of temperature sensitivity in a concanavalin A resistant Chinese hamster ovary cell line auxotrophic for cholesterol

The concanavalin A resistant, glycosylation-deficient, Chinese hamster ovary cell variant CR-7 is auxotrophic for cholesterol owing to an inability to adequately convert lanosterol to cholesterol. It is also temperature sensitive for growth, being unable to proliferate at 39 degrees C. Temperature sensitivity was relieved by addition of mevalonolactone, dolichol, or dolichyl-P to the growth medium, provided that cholesterol was also present in amounts sufficient to overcome cholesterol auxotrophy at 34 degrees C. Other metabolites of mevalonolactone (squalene, ubiquinone, lanosterol, and isopentenyladenine) were inactive in this regard. Measurement of dolichol levels in CR-7 and wild-type cells at 34 degrees C and after exposure to 39 degrees C showed that dolichol increased at 39 degrees C to an approximately equal extent in both cell types. Dolichol, dolichyl-P, ubiquinone, and isopentenyladenine had no effect on the sensitivity of either wild-type or CR-7 cells to the cytotoxic effects of concanavalin A. Mevalonolactone or lanosterol markedly increased the resistance of CR-7 to the lectin, but had no effect on wild-type cells. This raises the possibility that the presence of unusually large amounts of lanosterol, coupled with low amounts of cholesterol, in the membranes of CR-7 may be related to its concanavalin A resistance and other characteristic phenotypic abnormalities.     

Behavior of a photoactivatable analog of cholesterol, 6-photocholesterol, in model membranes

6-Photocholesterol, a new photoactivatable analog of cholesterol in which a diazirine functionality replaces the 5,6-double bond in the steroid nucleus, was used recently to identify cholesterol-binding proteins in neuroendocrine cells [Thiele, C., Hannah, M.J., Farenholz, F. and Huttner, W.B. (2000) Nat. Cell Biol. 2, 42–49], to track the distribution and transport of cholesterol in Caenorhabditis elegans [Matyash, V., Geier, C., Henske, A., Mukherjee, S., Hirsh, D., Thiele, C., Grant, B., Maxfield, F.R. and Kurzchalia, T.V. (2001) Mol. Biol. Cell 12, 1725–1736], and to probe lipid–protein interactions in oligodendrocytes [Simons, M., Kramer, E.M., Thiele, C., Stoffel, W. and Trotter, J. (2000) J. Cell Biol. 151, 143–154]. To determine whether 6-photocholesterol is a faithful mimetic of cholesterol we analyzed the ability of this probe, under conditions in which it is not photoactivated to a carbene, to substitute for cholesterol in two unrelated assays: (1) to condense 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine monomolecular films and (2) to mediate the fusion of two alphaviruses (Semliki Forest and Sindbis) with liposomes. The results suggest that this analog is a suitable photoprobe of cholesterol.     

Characterization of the pathways for phosphatidylethanolamine biosynthesis in Chinese hamster ovary mutant and parental cell lines

A tritium suicide procedure was devised to facilitate the isolation of Chinese hamster ovary cell mutants defective in phosphatidylethanolamine biosynthesis. One mutant with a 20-50% reduction in [3H]ethanolamine incorporation was chosen for further analysis and was shown to have reduced activity of CTP: phosphoethanolamine cytidylyltransferase. Levels of phosphatidylethanolamine and rates of its biosynthesis were compared in the mutant and parent cell lines. Despite the reduced activity of the CDP-ethanolamine pathway in the mutant, levels of phosphatidylethanolamine were the same in mutant and parent cells. Rates of phosphatidylethanolamine synthesis de novo, as measured by incorporation of 32PO4 into phosphatidylethanolamine, were also the same in mutant and parent cells, as was the rate of incorporation of [3H]serine into both phosphatidylserine and phosphatidylethanolamine. After a long term labeling with [3H]serine, the specific radioactivity of phosphatidylserine was the same as that of phosphatidylethanolamine, and there was no difference in the specific radioactivities of the two lipids between mutant and parent cells. These results implicate decarboxylation of phosphatidylserine as the sole route for synthesis of phosphatidylethanolamine under normal culture conditions.     

Isolation and characterization of Chinese hamster ovary cell mutants deficient in acyl-coenzyme A:cholesterol acyltransferase activity

A protocol has been developed for isolating cholesterol ester-deficient cells from the Chinese hamster ovary cell clone 25-RA. This cell line previously was shown to be partially resistant to suppression of cholesterogenic enzyme activities by 25-hydroxycholesterol and to accumulate a large amount of intracellular cholesterol ester when grown in medium containing 10% fetal calf serum (Chang, T. Y., and Limanek, J. S. (1980) J. Biol. Chem. 255, 7787-7795). The higher cholesterol ester content of 25-RA is due to an increase in the rate of cholesterol biosynthesis and low density lipoprotein receptor activity compared to wild-type Chinese hamster ovary cells, and not due to an abnormal acyl-CoA:cholesterol acyltransferase enzyme. The procedure to isolate cholesterol ester-deficient mutants utilizes amphotericin B, a polyene antibiotic known to bind to cholesterol and to form pore complexes in membranes. After incubation in cholesterol-free medium plus an inhibitor of endogenous cholesterol biosynthesis, 25-RA cells were found to be 50-500 times more sensitive to amphotericin B killing than were mutant cells containing reduced amounts of cholesterol ester. Twelve amphotericin B-resistant mutants were isolated which retained the 25-hydroxycholesterol-resistant phenotype. These mutants did not exhibit the perinuclear lipid droplets characteristic of 25-RA cells, and lipid analysis revealed a large (up to 40-fold) reduction in cellular cholesterol ester. The acyl-CoA:cholesterol acyltransferase activities of these cholesterol ester-deficient mutants were markedly lower than 25-RA when assayed in intact cells or in an in vitro reconstitution assay. The tightest mutant characterized, AC29, was found to have less than 1% of the parental acyl-CoA:cholesterol acyltransferase activity. These mutants all have reduced rates of sterol synthesis and lower low density lipoprotein receptor activity compared to 25-RA, probably as a consequence of their reduced enzyme activities. Cell fusion experiments revealed that the phenotypes of all the mutants examined are not dominant and that the mutants all belong to the same complementation group. We conclude that these mutants contain a lesion in the gene encoding acyl-CoA:cholesterol acyltransferase or in a gene encoding a factor needed for enzyme production.     

Rb fluxes in Chinese hamster ovary cells as a function of membrane cholesterol content

Steady-state fluxes of ⁸⁶Rb⁺ (as a tracer for K⁺) were measured in Chinese hamster ovary cells (CHO-K1) and a mutant (CR1) defective in the regulation of cholesterol biosynthesis; the membrane cholesterol content of this mutant was varied by growing it on a range of cholesterol supplements to lipid-free medium (Sinensky, M. (1978) Proc. Natl. Acad. Sci. U.S. 75, 1247–1249).Analogous to previous findings in ascites tumor cells, ⁸⁶Rb⁺ influx in the parent strain was differentiated into a ouabain-inhibitable ‘pump’ flux, furosemide-sensitive, chloride-dependent exchange diffusion, and a residual ‘leak’ flux.On the basis of this flux characterization, ⁸⁶Rb⁺ pump and leak fluxes were measured in the mutant as a function of membrane cholesterol content. Pump and leak fluxes, when expressed per ml cell water, were independent of the cholesterol content of the mutant. Moreover, ⁸⁶Rb⁺ fluxes in the mutant were equal to those in the parent strain. Our data imply that the flux behavior of K⁺ in the steady state is independent of the ordering of membrane lipid acyl chains.     

Early prediction of instability of Chinese hamster ovary cell lines expressing recombinant antibodies and antibody-fusion proteins

One of the most important criteria for the successful manufacture of a therapeutic protein (e.g., an antibody) is to develop a mammalian cell line that maintains stability of production. Problems with process yield, lack of effective use of costly resources, and a possible delay in obtaining regulatory approval of the product may ensue otherwise. Therefore the stability of expression in a number of Chinese hamster ovary (CHO) derived production cell lines that were isolated using the glutamine synthetase (GS) selection system was investigated by defining a culture as unstable if the titer (which is a measure of productivity) of a cell line expressing an antibody or antibody-fusion protein declined by 20-30% or more as it underwent 55 population doublings. Using this criterion, a significant proportion of the GS-selected CHO production cell lines were observed to be unstable. Reduced antibody titers correlated with the gradual appearance of a secondary, less productive population of cells as detected with flow cytometric analysis of intracellular antibody content. Where tested, it was observed that the secondary population arose spontaneously from the parental population following multiple passages, which suggested inherent clonal instability. Moreover, the frequency of unstable clones decreased significantly if the host cell line from which the candidate production cell lines were derived was apoptotic-resistant. This data suggested that unstable cell lines were more prone to apoptosis, which was confirmed by the fact that unstable cell lines had higher levels of Annexin V and caspase 3 activities. This knowledge has been used to develop screening protocols that identify unstable CHO production cell lines at an early stage of the cell line development process, potentially reducing the cost of biotherapeutic development.     

Isolation of Chinese hamster ovary cell lines producing Man3GlcNAc2 asparagine-linked glycans.

Chinese hamster ovary lines with two mutations, one causing accumulation of Man5GlcNAc2-P-P-dolichol and a second resulting in defective N-acetylglucosaminyltransferase I activity, synthesize asparagine-linked glycans with the structure Man3GlcNAc2. As a result, the asparagine-linked glycans produced by these lines are smaller and less heterogeneous than those produced by other currently available animal cell lines.     

Analysis of replication patterns in chromosomes of normal Chinese hamster and its cell lines

Replication patterns of the normal male Chinese hamster chromosomes and the three cell lines CHW, 1102 and 1103, were determined using fluorescent, plus Giemsa or acridine orange, techniques. The individual chromosomes or chromosomal segments were consistent in the replication patterns of normal Chinese hamster chromosomes and all the transformed cell lines. Late DNA replication was regularly identified in the long arm of the X chromosome, the entire Y chromosome, the short arms of chromosomes 6 and 7, and the paracentromeric regions of chromosomes 8, 9 and 10. A similar consistency was demonstrated in the large late replicating areas of chromosomes X and Y. Each cell line had specific marker chromosomes by which the cell line was identified and their replication patterns have been described. The chromosome analysis in cell line 1103 indicated that chromosomes 2, 3, 8 and 9 were more stable than others, of which chromosome 2 was extremely stable. The markers M4 and M5 in cell line 1103 are very interesting. The cytogenetic behaviour of marker M4 indicated a new phenomenon of translocation by simple association. The marker chromosome M5 indicated that inactivation spread to the early replicating distal region. These cell lines are very useful tools for studying replication patterns and providing a basic understanding of mammalian cytogenetics.