Amplification and expression of heterologous ornithine decarboxylase in Chinese hamster cells.

We have developed an amplifiable mammalian expression vector based on the enzyme ornithine decarboxylase (ODC). We show greater than 700-fold amplification of this vector in ODC-deficient Chinese hamster ovary cells. A passive coamplified marker, dihydrofolate reductase (dhfr), was amplified and overexpressed 1,000-fold. This ODC vector was a dominant marker in a variety of cell types and displayed at least 300-fold amplification in wild-type Chinese hamster ovary cells.     

Lipopolysaccharide and serum synergistically stimulate ornithine decarboxylase in Chinese hamster ovary cells

Summary Lipopolysaccharide (LPS), the active component of bacterial endotoxin, caused no significant increase in ornithine decarboxylase (ODC) activity in serum-starved, Chinese hamster ovary fibroblasts. However, concurrent addition of LPS with 10% fetal bovine serum caused a synergistic 30 to 40-fold increase in enzyme activity as compared to the 10 to 20-fold increase seen after addition of serum alone. This synergism was not due to an alteration in the time course of enzyme induction after serum addition. The LPS-induced synergy of ODC induction by serum was inhibited by the concurrent addition of the specific LPS-antagonist, Polymyxin B. This investigation was supported by PHS Grant CA32444, awarded by the National Cancer Institute. A. R. L. G. is a recipient of a USPHS fellowship, GM09226-01, and S. M. T. was supported by NIH training Grant AMO 7282.     

Lipopolysaccharide and serum synergistically stimulate ornithine decarboxylase in Chinese hamster ovary cells

Lipopolysaccharide (LPS), the active component of bacterial endotoxin, caused no significant increase in ornithine decarboxylase (ODC) activity in serum-starved, Chinese hamster ovary fibroblasts. However, concurrent addition of LPS with 10% fetal bovine serum caused a synergistic 30 to 40-fold increase in enzyme activity as compared to the 10 to 20-fold increase seen after addition of serum alone. This synergism was not due to an alteration in the time course of enzyme induction after serum addition. The LPS-induced synergy of ODC induction by serum was inhibited by the concurrent addition of the specific LPS-antagonist, Polymyxin B.     

Methylation of human ornithine decarboxylase gene before transfection abolishes its transient expression in Chinese hamster ovary cells

Different methylations of cloned human ornithine decarboxylase gene with restriction methylases in vitro before transfection greatly reduced the transient expression of ODC in Chinese hamster ovary cells. Single methylation of the gene with Hpa II (CCGG) methylase decreased the transiently expressed peak activity by about 50%, single methylation with Hha I (CCGG) methylase by about 80% whilst a double methylation at both Hpa II and Hha I restriction sites virtually abolished any transiently expressed ornithine decarboxylase activity. These results together with our earlier circumventing evidence indicate that the expression of mammalian ornithine decarboxylase is critically influenced by the methylation state of the gene.     

Mutant strain of Chinese hamster ovary cells with no detectable ornithine decarboxylase activity.

We previously described an arginase-deficient, polyamine-dependent Chinese hamster ovary cell line which grows in serum-free medium. From this strain we isolated a new mutant strain that has no detectable catalytic ornithine decarboxylase activity. The mutant cells contain, however, immunoreactive ornithine decarboxylase-like protein roughly in the same quantity as the parent strain. The mutant and the parent cell line strains also contain similar amounts of ornithine decarboxylase-mRNA hybridizable to a specific cDNA. If polyamines are omitted from the medium, proliferation of the mutant cells is considerably retarded and ceases in 6 to 10 days. Addition of ornithine or alpha-difluoromethylornithine, a specific inhibitor of ornithine decarboxylase, has no effect on these cells. Putrescine and spermidine decreased in the mutant cells to undetectable levels during polyamine starvation, whereas spermine was reduced to 1/5th of that found in the control cultures. Polyamines appear to be indispensable for the mutant strain, but this was obvious only after the amount of polyamines, found as impurities in bovine serum albumin used in the medium, was reduced by dialysis to 10(-12) M. Because sera contain polyamines, the ability of the mutant strain to grow in serum-free medium is a great advantage in elucidation of the mechanisms of polyamine function.     

Regulation of polyamine transport in Chinese hamster ovary cells

Control Chinese hamster ovary (CHO) cells and mutant CHO cells lacking ornithine decarboxylase activity (CHODC-) were used to study the regulation of polyamine uptake. It was found that the transport system responsible for this uptake was regulated by intracellular polyamine levels and that this regulation was responsible for the maintenance of physiological intracellular levels under extreme conditions such as polyamine deprivation or exposure to exogenous polyamines. Polyamine transport activity was enhanced by decreases in polyamine content produced either by inhibition of ornithine decarboxylase with alpha-difluoromethylornithine in CHO cells or via polyamine starvation of CHODC- cells. The provision of exogenous polyamines resulted in rapid and large increases in intracellular polyamine content followed by decreased polyamine transport activity. Soon after this decrease in uptake activity, intracellular polyamine levels then fell to near control values. Cells grown in the presence of exogenous polyamines maintained intracellular polyamine levels at values similar to those of control cells. Protein synthesis was necessary for the increase in transport in response to polyamine depletion, but appeared to play no role in decreasing polyamine transport. Bis(ethyl) polyamine analogues mimicked polyamines in the regulation of polyamine transport but this process was relatively insensitive to regulation by methylglyoxal bis(guanylhydrazone), a spermidine analogue known to enter cells via this transport system and to accumulate to very high levels.     

Mevalonate deprivation leads to aneuploidy in Chinese hamster ovary cells

After exposure to compactin, the competitive inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase, 22% of CHO-K1 cells contained abnormally high numbers of chromosomes. In two populations of cells selected for compactin resistance 31 and 33% of the cells contain more than 22 chromosomes. Some cell lines isolated from these populations have the wild type chromosome number of 20-21, while others have a broad distribution of chromosome number, often with a mean around 36-40. Finally, Chinese hamster ovary cells that are mutant for 3-hydroxy-3-methylglutaryl-CoA reductase and therefore auxotrophic for mevalonate were starved for that compound. This treatment also increased the number of cells containing extra chromosomes. These results indicate that interruption of the cellular supply of mevalonate results in abnormal chromosome number.     

The gene for ornithine decarboxylase is co-amplified in hydroxyurea-resistant hamster cells

We have constructed a cDNA library from the highly hydroxyurea-resistant hamster cell line 600H in which the activity of ribonucleotide reductase is elevated more than 80-fold. Using the technique of differential hybridization, we have isolated a number of cDNA clones from this library which are homologous to genomic DNA sequences amplified in the 600H cell line compared to the V79 parental line. One of these cDNA clones by sequence analysis was found to code for ornithine decarboxylase. This was confirmed by in vitro translation of poly(A+) RNA isolated by hybridization-selection followed by immunoprecipitation with antiserum specific for mouse ornithine decarboxylase. Genomic sequences homologous to the cDNA clone were shown to be sequentially amplified 6-20-fold in hamster cell lines selected stepwise for resistance to increasing concentrations of hydroxyurea. Genomic sequences homologous to a cDNA for the M2 subunit of ribonucleotide reductase were also amplified in these cell lines, and the degree of M2 sequence amplification corresponded to the degree of amplification of ornithine decarboxylase sequences, suggesting that the two genes had been co-amplified during the selection of the hydroxyurea-resistant phenotype.     

Amplification of the gene for histidyl-tRNA synthetase in histidinol-resistant Chinese hamster ovary cells.

Histidinol-resistant (HisOHR) mutants with up to a 30-fold increase in histidyl-tRNA synthetase activity have been isolated by stepwise adaptation of wild-type Chinese hamster ovary (CHO) cells to increasing amounts of histidinol in the medium. Immunoprecipitation of [35S]methionine-labeled cell lysates with antibodies to histidyl-tRNA synthetase showed increased synthesis of the enzyme in histidinol-resistant cells. The histidinol-resistant cell lines had an increase in translatable polyadenylated mRNA for histidyl-tRNA synthetase. A cDNA for CHO histidyl-tRNA synthetase has been cloned, using these histidyl-tRNA synthetase-overproducing mutants as the source of mRNA. Southern blot analysis of wild-type and histidinol-resistant cells with this cDNA showed that the histidyl-tRNA synthetase DNA bands were amplified in the resistant cells. These HisOHR cells owed their resistance to histidinol to amplification of the gene for histidyl-tRNA synthetase.     

Calcium, asparagine and cAMP are required for ornithine decarboxylase activation in intact Chinese hamster ovary cells.

Asparagine specifically activated ornithine decarboxylase activity 5–7 fold by 7–8 h in confluent cultures maintained with a salts/glucose medium. When dibutyryl cAMP was added with asparagine, a 40–50 fold stimulation of ornithine decarboxylase activity was produced. Ornithine decarboxylase activation in the salts/glucose medium was not sensitive to actinomycin D. Omission of Ca⁺⁺ and Mg⁺⁺ from the medium abolished the ability of asparagine and/or dibutyryl cAMP to stimulate enzyme activity. Calcium was essential for the asparagine and dibutyryl cAMP mediated stimulation of ornithine decarboxylase activity.     

Cyclic AMP-dependent regulation of ornithine decarboxylase activity in Chinese hamster ovary cells maintained with a salts/glucose medium.

Ornithine decarboxylase activity (ODC) increased about 7 fold 6--8 h following 10mM asparagine (ASN) addition to confluent cultures that had been previously serum deprived and then placed in a salts/glucose medium. Optimal concentrations of dibutyryl cAMP (dB cAMP) when incubated with the ASN caused up to a 50 fold increase in the activity of this enzyme after 7--8 h. The enhancement of ODC activity by ASN and dB cAMP was not sensitive to continuous (0--7 h) treatment with actinomycin D but similar treatment with cycloheximide depressed enzyme activity 40--60%. The synergistic stimulation of ODC activity by dB cAMP added with ASN was dose dependent and the dB cAMP stimulation of ODC activity displayed an absolute requirement for ASN when cells were maintained in the salts/glucose medium. The addition of dB cAMP always further enhanced ODC activity above the levels produced by addition of various levels of ASN (1 to 40mM) to the salts/glucose medium. Other agents which elevated cAMP levels such as 1-methyl-3-isobutylxanthine (IBMX) also enhanced ODC activity when administered with ASN. Additionally, treatment with sodium butyrate at concentrations ranging from 0.001mM to 5.0mM did not elevate ODC activity above the activity obtained with ASN alone. Addition of dB cAMP at various times after placing cells in salts/glucose medium with ASN further stimulated ODC activity only when added during the first 3-4 h. These results demonstrate the involvement of cAMP in the ASN mediated stimulation of ODC activity using cells maintained in a salts/glucose medium.     

Polyamine-mediated turnover of ornithine decarboxylase in Chinese-hamster ovary cells.

The major secreted isoenzyme of human prostatic acid phosphatase (PAcP) (EC 3.1.3.2), which catalyses p-nitrophenyl phosphate (PNPP) hydrolysis at acid pH values, was found to have phosphotyrosyl protein phosphatase activity since it dephosphorylated three different phosphotyrosine-containing protein substrates. Several lines of evidence are presented to show that the phosphotyrosyl phosphatase and PAcP are the same enzyme. A highly purified PAcP enzyme preparation which contains a single N-terminal peptide sequence was used to test for the phosphotyrosyl phosphatase activity. Both activities comigrated during gel filtration by high performance liquid chromatography. Phosphotyrosyl phosphatase activity and PNPP acid phosphatase activity exhibited similar sensitivities to different effectors. Both phosphatase activities showed the same thermal stability. Specific anti-PAcP antibody reacted to the same extent with both phosphatase activities. PNPP acid phosphatase activity was competitively inhibited by the phosphotyrosyl phosphatase substrate. To characterize further the phosphotyrosyl phosphatase activity, the Km values using different phosphoprotein substrates were determined. The apparent Km values for phosphorylated angiotensin II, anti-pp60src immunoglobulin G and casein were in the nM range for phosphotyrosine residues, which was about 50-fold lower than the Km for phosphoserine residues in casein.     

Amplification and expression of heterologous oncostatin M in Chinese hamster ovary cells.

A stable Chinese hamster ovary (CHO) cell line producing high levels of human oncostatin M (OM) was generated by transfecting a heterologous gene coding for the protein. This novel construct was comprised of the gene for the transforming growth factor-beta 1 (TGF-beta 1) signal peptide fused to the gene for mature human OM. Amplification with methotrexate produced milligram quantities of this recombinant OM, which was processed correctly, glycosylated, and found to have biological functions similar to those of natural OM.     

Excretion of acetylated and free polyamines by polyamine depleted Chinese hamster ovary cells

1. Cultured Chinese hamster ovary cells (CHO) and their ornithine decarboxylase deficient mutant cells (C55.7) were found to excrete small amounts of N8-acetylspermidine and free polyamines, putrescine and spermidine into the culture medium. 2. The concentration of N8-acetylspermidine in the control cells was 2-3% of that of spermidine. In the medium, however, the amount of N8-acetylspermidine was about 2-fold that of spermidine and 2- to 3-fold higher than the intracellular amount. N1-acetylspermidine or acetylated spermine were never detected in the cells or in the media. 3. Confluent CHO cells treated with 2 mM difluoromethylornithine stopped the excretion when the intracellular spermidine concentration had decreased to 20% of control while there was no decrease in spermine concentration. At low cell density, neither polyamine depleted CHO cells nor the C55.7 cells excreted any polyamines into the culture media.     

Evidence of gene amplification in tunicamycin-resistant Chinese hamster ovary cells

Restriction digests of genomic DNA from tunicamycin-resistant Chinese hamster ovary cells, 3E11, were probed with the yeast transferase gene, ALG7. The data presented suggest moderate amplification of the N-acetylglucosaminyl-1-phosphate transferase gene occurred in these cells, consistent with the previously observed chromosomal translocations and increased enzymatic activity. This is the first example of gene amplification as a mechanism for aberrations in N-linked glycosylation.