Analysis of Golgi pH in Chinese hamster ovary cells using ratiometric pH-sensitive fluorescent proteins

Acidic Golgi pH plays an important role in protein glycosylation, one of the critical quality attributes of therapeutic proteins. To determine the intracellular Golgi pH during culture, stable Chinese hamster ovary (CHO) cell clones expressing pHluorin2, a ratiometric pH-sensitive fluorescent protein (FP), in the cis- and trans-Golgi, were constructed by fusing pHluorin2 with specific targeting proteins, acetylglucosaminyltransferase, and a galactosyltransferase, respectively. Stable CHO cell clones expressing pHluorin2 in the cytoplasm were also constructed. The subcellular localization of FPs was confirmed by immunofluorescence analysis. Live-cell imaging revealed that the intracellular pH (pHi) of clones expressing the ratiometric pH-sensitive FPs converged to a specific pH range (cis-Golgi: 6.4–6.5; trans-Golgi: 5.9–6.0; and cytoplasm: 7.1–7.2). The pHi was successfully evaluated in various culture conditions. Although culture pH was maintained at 7.2 in a bioreactor, the Golgi pH increased with culture time. Elevated ammonia concentration and osmolality were partially responsible for the increased Golgi pH during bioreactor cultures. Taken together, the application of ratiometric pH-sensitive FPs in monitoring the Golgi pH of CHO cells during culture provides a new perspective to improve protein glycosylation through pHi control.     

Effect of hyperthermia on intracellular pH in Chinese hamster ovary cells

Chinese hamster ovary cells were heated at 45.5 or 43.0 degrees C at acidic pH (6.7) or normal physiological pH (7.4) to have a survival of 10(-3). The weak acid, 5,5-dimethyl-2,4-oxazolidinedione-2-14C), was used to measure the intracellular pH (pHi) both during and following hyperthermia. Tritiated water and a Particle Data machine were used to measure cellular volume as well. With 99.9% of the cell population destined to die clonogenically, the physiologically alive cells, as determined by the exclusion of trypan blue dye, maintained their pH differential between pHe and pHi as well as unheated cells. Furthermore, the cell's ability to regulate its pHi in response to changes in pHe was not affected by the same hyperthermic treatment. However, cellular volume decreased by 15-30% by 5 h after the onset of heat treatment. We conclude that heat does not perturb the cellular regulation of intracellular H+ concentration. Therefore, there is no thermal damage to the pHi-regulatory mechanism that could be responsible for either heat-induced reproductive cell death or low pH sensitization of heat killing.     

Observations on the association of annulate lamellae with vinblastine-induced paracrystals in tumour cells in vitro.

Tumour cells in vitro responded to prolonged treatment with colchicine with the formation of annulate lamellae. Following the colchicine treatment, paracrystals were induced with vinblastine. A close association of annulate lamellae with vinblastine-induced crystals was observed. The hypothesis that annulate lamellae and the related unclear membrane with the pore complexes may play a role in the control of the cytoplasmic microtubule complex is discussed.     

The pericentriolar material in Chinese hamster ovary cells nucleates microtubule formation

The structure and function of the centrosomes from Chinese hamster ovary (CHO) cells were investigated by electron microscopy of negatively stained wholemount preparations of cell lysates. Cells were trypsinized from culture dishes, lysed with Triton X-100, sedimented onto ionized, carbon-coated grids, and negatively stained with phosphotungstate. The centrosomes from both interphase and dividing cells consisted of pairs of centrioles, a fibrous pericentriolar material, and a group of virus-like particles which were characteristic of the CHO cells and which served as markers for the pericentriolar material. Interphase centrosomes anchored up to two dozen microtubules when cells were lysed under conditions which preserved native microtubules. When Colcemid-blocked mitotic cells, initially devoid of microtubules, were allowed to recover for 10 min, microtubules formed at the pericentriolar material, but not at the centrioles. When lysates of Colcemid-blocked cells were incubated in vitro with micotubule protein purified from porcine brain tissue, up to 250 microtubules assembled at the centrosomes, similar to the number of microtubules that would normally form at the centrosome during cell division. A few microtubules could also be assembled in vitro onto the ends of isolated centrioles from which the pericentriolar material had been removed, forming characteristic axoneme- like bundles. In addition, microtubules; were assembled onto fragments of densely staining, fibrous material which was tentatively identified as periocentriolar material by its association of CHO can initiate and anchor microtubules both in vivo and in vitro.     

Effects of palindrome structure on Dhfr amplification in Chinese hamster ovary cells

Chinese hamster ovary (CHO) cells are widely used in producing therapeutic proteins. Gene amplification techniques are frequently used in improving protein production, and the dihydrofolate reductase (DHFR) gene amplification system is most widely used for the CHO cell line. We previously constructed a CHO genomic bacterial artificial chromosome (BAC) library from a mouse Dhfr-amplified CHO DR1000L-4N cell line and found one BAC clone (Cg0031N14) containing a CHO genomic DNA sequence adjacent to Dhfr. The BAC clone contained a large palindrome structure with a small inverted repeat in the junction region. To investigate the effect of the palindrome structure derived from the BAC clone Cg0031N14 on Dhfr amplification in CHO cells, we constructed plasmids that contain part or the whole junction region of the palindrome structure. The transfected CHO DG44 cells containing part or the whole junction region of the palindrome structure could adapt quickly to high methotrexate (MTX) concentrations. Moreover, the cells containing the whole junction region of the palindrome structure showed a high ratio of GFP-positive cells during gene amplification. On the basis of these results, we estimated that the junction region plays an important role in gene amplification in CHO cells.     

Changes in bleb formation following hyperthermia treatment of Chinese hamster ovary cells

Chinese hamster ovary cells in suspension cultures were heated for various times at 41.5, 43.5, and 45.5 degrees C, and quantitative determinations of microblebbing and macroblebbing of the cell membrane were performed for cells maintained at 4, 25, and 37 degrees C after hyperthermia. The percentage of cells with blebs following heating at 45.5 degrees C was dependent upon the duration of heating with increases from 40% for 5 min to 90% for 30 min. Cells exposed to lower temperatures exhibited less blebbing which was not quantifiable. The changes in bleb formation following 45.5 degrees C were dependent upon the posthyperthermia temperature: a slight decrease of macroblebbing at 25 degrees C, a decrease to 50% by 2 h at 37 degrees C, and a sharp decrease of macroblebbing to less than 10% by 1 h at 4 degrees C. Microblebbing increased slightly at 37 degrees C. When cells were transferred rapidly from the 4 degrees C posthyperthermia incubation to 37 degrees C, the bleb formation percentages returned rapidly to the higher levels which existed before posthyperthermia incubation at the lower temperatures. Gamma irradiation of 20 and 50 Gy produced only a small increase in microblebbing at longer periods (5 to 6 h) but no increase in macroblebbing. The survival of cells heated for 20 min at 45.5 degrees C was decreased 40% for suspension cells maintained at 4 degrees C for 2 to 3 h before incubation at 37 degrees C for colony formation compared to cells immediately incubated at 37 degrees C after heating. The survival of cells maintained at 25 degrees C after heating was not altered in comparison.     

Effects of procaine on the intracellular pH of Chinese hamster ovary cells heated at 42.0 or 45.0 degrees C

The local anesthetic procaine greatly sensitizes cells to hyperthermia. Though it is generally accepted that procaine is a membrane-active agent that increases membrane fluidity in cells, the mechanism by which it potentiates heat killing is unknown. In this paper we report changes in intracellular pH (pHi) of Chinese hamster ovary (CHO) cells heated at 42.0 or 45.0 degrees C in the presence of procaine. The pHi was measured with flow cytometry using the dye 1,4-diacetoxy-2,3-dicyanobenzene (ADB). Studies were carried out using cells grown at normal pH (7.3) or cells placed in low-pH (6.6) medium 4 h prior to and during heating (acute low-pH treatment). Low-pH-adapted cells (PHV2), which were obtained previously by continuous culture in pH 6.6 medium, were also used. Normal cells heated in the presence of procaine at pH 7.3 underwent a large decrease in pHi compared to cells heated without procaine. Procaine had little additional effect on the intracellular pH of cells in medium with a pH of 6.6 for 4 h before and during 30 min of heating. PHV2 cells exposed to chronic low-pH conditions were resistant to acidification when heated with or without procaine. The surviving fraction of cells heated with procaine was significantly lower under all pH conditions than that of cells heated without procaine. Cells heated at 42.0 degrees C with procaine also became greatly acidified and their survival was reduced. These data suggest that the reduction in pHi caused by procaine may be part of the mechanism of heat sensitization, but cannot account for it entirely. Furthermore, the degree of procaine sensitization and intracellular acidification is dependent on the extracellular pH, with a larger effect occurring at pH 7.3 than at pH 6.6.     

Effect of culture pH on erythropoietin production by Chinese hamster ovary cells grown in suspension at 32.5 and 37.0 degrees C

To investigate the effect of culture pH in the range of 6.85-7.80 on cell growth and erythropoietin (EPO) production at 32.5 and 37.0 degrees C, serum-free suspension cultures of recombinant CHO cells (rCHO) were performed in a bioreactor with pH control. Lowering culture temperature from 37.0 to 32.5 degrees C suppressed cell growth, but cell viability remained high for a longer culture period. Regardless of culture temperature, the highest specific growth rate (mu) and maximum viable cell concentration were obtained at pH values of 7.00 and 7.20, respectively. Like mu, the specific consumption rates of glucose and glutamine decreased at 32.5 degrees C compared to 37.0 degrees C. In addition, they increased with increasing culture pH. Culture pH at 32.5 degrees C affected specific EPO productivity (q(EPO)) in a different fashion from that at 37 degrees C. At 37 degrees C, the q(EPO) was fairly constant in the pH range of 6.85-7.80, while at 32.5 degrees C, the q(EPO) was significantly influenced by culture pH. The highest q(EPO) was obtained at pH 7.00 and 32.5 degrees C, and its value was approximately 1.5-fold higher than that at pH 7.00 and 37.0 degrees C. The proportion of acidic EPO isoforms, which is a critical factor for high in vivo biological activity of EPO, was highest in the stationary phase of growth, regardless of culture temperature and pH. Although cell viability rapidly decreased in death phase at both 32.5 and 37.0 degrees C, the significant degradation of produced EPO, probably by the action of proteases released from lysed cells, was observed only at 37.0 degrees C. Taken together, through the optimization of culture temperature and pH, a 3-fold increase in maximum EPO concentration and a 1.4-fold increase in volumetric productivity were obtained at pH 7.00 and 32.5 degrees C when compared with those at 37.0 degrees C. These results demonstrate the importance of optimization of culture temperature and pH for enhancing EPO production in serum-free, suspension culture of rCHO cells.     

The formation and stability of the hypusine containing protein in Chinese hamster ovary cells

Hypusine-containing protein identified as eukaryote initiation-translation factor 4D was labeled with [14C]spermidine in logarithmically growing Chinese hamster ovary cells. Radioautography of the cellular proteins separated by polyacrylamide gel electrophoresis showed the label in a single protein of 18000 Mr. Time course analysis showed that this protein remained undegraded for up to 72 hours after its synthesis. Radioactivity present in the amino acid hypusine, isolated after acid hydrolysis, remained constant during the same period of time. These results indicate that the hypusine-containing protein has a long half-life.     

Mutations in alpha- and beta-tubulin affect spindle formation in Chinese hamster ovary cells

Two Chinese hamster ovary cell lines with mutated beta-tubulins (Grs-2 and Cmd-4) and one that has a mutation in alpha-tubulin (Tax-1) are temperature sensitive for growth at 40.5 degrees C. To determine the functional defect in these mutant cells at the nonpermissive temperature, they were characterized with respect to cell cycle parameters and microtubule organization and function after relatively short periods at 40.5 degrees C. At the nonpermissive temperature all the mutants had normal appearing cytoplasmic microtubules. Premature chromosome condensation analysis failed to show any discrete step in the interphase cell cycle in which these mutants are arrested. These cells, however, show several defects at the nonpermissive temperature that appear related to the function of microtubules during mitosis. Time-lapse studies showed that mitosis was lengthened in the three mutant lines at 40.5 degrees C as compared with the wild-type cells at this temperature, resulting in a higher proportion of cells in mitosis after temperature shift. There was also a large increase in multinucleated cells in mutant populations after incubation at the nonpermissive temperature. Immunofluorescent studies using a monoclonal anti--alpha-tubulin antibody showed that the mutant cells had a high proportion of abnormal spindles at the nonpermissive temperature. The two altered beta-tubulins and the altered alpha-tubulin all were found to cause a similar phenotype at the high temperature that results in mitotic delay, defective cytokinesis, multinucleation, and ultimately, cell death. We conclude that spindle formation is the limiting microtubule function in these mutant cell lines at the nonpermissive temperature and that these cell lines will be of value for the study of the precise role of tubulin in mammalian spindle formation.     

Elucidating the effects of pH shift on IgG1 monoclonal antibody acidic charge variant levels in Chinese hamster ovary cell cultures

Charge variants, especially acidic charge variants, in recombinant monoclonal antibodies are critical quality attributes, which can affect antibodies’ properties in vitro and in vivo. Meanwhile, charge variants are cumulative effects of various post-translational modifications and chemical degradations on antibody. In this work, to investigate the effect of lowering culture pH in the stationary phase on acidic charge variant contents in fed-batch cultures and its mechanism, cell culture experiments in 2-L bioreactors were firstly performed to explore the changes in the charge distribution under the pH downshift condition using weak cation exchange chromatography. It is found that acidic charge variant contents were significantly decreased by pH downshift. Then, to reveal the mechanism by which the content of acidic charge variants is reduced under pH downshift condition, the variation of post-translational modifications and chemical degradations under the pH downshift condition was explored. Meanwhile, the structure of the acidic charge variants was characterized. Several analysis experiments including size exclusion chromatography, capillary electrophoresis-sodium dodecyl sulfate under non-reducing conditions, tryptic peptide map, and reduced antibody mass were applied in this study. The results show that the mechanism by which the content of acidic charge variants is reduced is that the contents of disulfide bond reduction, galactosylation, and asparagine deamination of the HC-N388 in the Fc domain were reduced by pH downshift.     

Independence of centriole formation and initiation of DNA synthesis in Chinese hamster ovary cells

The relationship between centriole formation and DNA synthesis was investigated by examining the effect of taxol on the centriole cycle and the initiation of DNA synthesis in synchronized cells. The centriole cycle was monitored by electron microscopy of whole-mount preparations [Kuriyama and Borisy, J. Cell Biol., 1981, 91:814-821]. A short daughter centriole appeared in perpendicular orientation to each parent during late G1 or early S and elongated slowly during S to G2. Addition of 5-20 micrograms/ml taxol to a synchronous population of cells in S phase did not inhibit centriole elongation; rather, elongation was accelerated. In contrast, when taxol was added to M phase or early G1 cells, centriole duplication was completely inhibited. The taxol block was reversible since nucleation and elongation of centrioles resumed as soon as the drug was removed. Cells exposed to taxol progressed through the cell cycle and became blocked in mitosis, as indicated by an increase in the mitotic index, but eventually the mitotic arrest was overcome, resulting in formation of multinucleated cells. A peak in mitotic index was seen in the following generation, indicating that chromosomes duplicated in the presence of taxol. Incorporation of 3H-thymidine followed by autoradiography confirmed that DNA synthesis was initiated in the presence of taxol even though formation of daughter centrioles was inhibited. It seems, therefore, that centriole duplication is not a prerequisite for entry into S phase. Since DNA synthesis has already been demonstrated not to be necessary for centriole duplication, these two events, normally coordinated in time, appear to be independent of each other.     

Coexpression of CMP-sialic acid transporter reduces N-glycolylneuraminic acid levels of recombinant glycoproteins in Chinese hamster ovary cells

Recombinant glycoproteins expressed in Chinese hamster ovary (CHO) cells contain two forms of sialic acids; N-acetylneuraminic acid (Neu5Ac) as a major type and N-glycolylneuraminic acid (Neu5Gc) as a minor type. The Neu5Gc glycan moieties in therapeutic glycoproteins can elicit immune responses because they do not exist in human. In the present work, to reduce Neu5Gc levels of recombinant glycoproteins from CHO cell cultures, we coexpressed cytidine-5′-monophosphate-sialic acid transporter (CMP-SAT) that is an antiporter and transports cytosolic CMP-sialic acids (both forms) into Golgi lumen. When human erythropoietin was used as a target human glycoprotein, coexpression of CMP-SAT resulted in a significant decrease of Neu5Gc level by 41.4% and a notable increase of Neu5Ac level by 21.2%. This result could be reasonably explained by our hypothesis that the turnover rate of Neu5Ac to Neu5Gc catalyzed by CMP-Neu5Ac hydroxylase would be reduced through facilitated transportation of Neu5Ac into Golgi apparatus by coexpression of CMP-SAT. We confirmed the effects of CMP-SAT coexpression on the decrease of Neu5Gc level and the increase of Neu5Ac level using another glycoprotein human DNase I. Therefore, CMP-SAT coexpression might be an effective strategy to reduce the levels of undesired Neu5Gc in recombinant therapeutic glycoproteins from CHO cell cultures.     

中国仓鼠卵巢细胞表观遗传调控研究进展

中国仓鼠卵巢(Chinese hamster ovary, CHO)细胞因其具有可悬浮培养及进行蛋白质糖基化等翻译后修饰等优势,在生物制药重组蛋白生产方面具有不可替代的重要作用。但转基因沉默、表观遗传修饰等影响基因表达调控,造成CHO细胞表达稳定性降低而导致重组蛋白产量下降。本文对CHO细胞中表观遗传修饰包括DNA甲基化、组蛋白修饰和miRNA的作用研究,以及对基因表达调控的影响进行了综述。     

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.     

Regulation of transglutaminase activity in Chinese hamster ovary cells

We have investigated the regulation of transglutamine activity (-(γ-glutamyl)lysine crosslinking enzme) in Chinese hamster ovary cells in culture. We report that transglutaminase activity increases several-fold in CHO cells at maximum density in suspension culture. This increase cannot be explained by the presence of the soluble regulators of the enzyme activity or the appearance of a new enzyme activity with a different affinity for substrate, but appears to be due to an increase in total enzyme activity. Treatment of CHO cells at low cell density with 8-bromo cyclic AMP results in a small increase (20–70%) in transglutaminase activity. By studying CHO mutants which have altered or absent cyclic-AMP-dependent protein kinases, we have demonstrated that the effect of cyclic AMP on transglutaminase activity at low cell density is mediated by cyclic-AMP-dependent protein kinase. However, the protein kinase mutants show normal increases in transglutaminase activity at high cell density, indicating that cyclic AMP-dependent protein kinase does not mediate density-dependent changes in transglutaminase activity.     

Regulation of transglutaminase activity in Chinese hamster ovary cells

We have investigated the regulation of transglutaminase activity (epsilon-(gamma-glutamyl)lysine crosslinking enzyme) in Chinese hamster ovary cells in culture. We report that transglutaminase activity increases several-fold in CHO cells at maximum density in suspension culture. This increase cannot be explained by the presence of soluble regulators of the enzyme activity or the appearance of a new enzyme activity with a different affinity for substrate, but appears to be due to an increase in total enzyme activity. Treatment of CHO cells at low cell density with 8-bromo cyclic AMP results in a small increase (20--70%) in transglutaminase activity. By studying CHO mutants which have altered or absent cyclic-AMP-dependent protein kinases, we have demonstrated that the effect of cyclic AMP on transglutaminase activity at low cell density is mediated by cyclic-AMP-dependent protein kinase. However, the protein kinase mutants show normal increases in transglutaminase activity at high cell density, indicating that cyclic AMP-dependent protein kinase does not mediate density-dependent changes in transglutaminase activity.