Isolation of the plasma membrane and organelles from Chinese hamster ovary cells.

Two methods are described enabling the plasma membrane from Chinese hamster ovary (CHO) cells to be obtained rapidly, relatively pure and with a good yield. In both cases, cells were disrupted by nitrogen cavitation in an isoosmotic buffer either at pH 5.4 or at pH 7.4. In the first approach, cells were lysed at pH 7.4 and the plasma membrane and cell organelles were isolated on a self-generated gradient of Percoll, at neutral pH. Mitochondria and endoplasmic reticulum were recovered in the denser fractions, plasma membrane fragments were found in the lighter fractions, but always contaminated by lysosomes. Because lysosomes were found to sediment in acidic conditions, cells were lysed at pH 5.4 and presedimentation (1500 x g) of the cell homogenate at the same pH enabled more than 80% of the lysosomes to be removed. Then, ultracentrifugation of the supernatant over a Percoll gradient at neutral pH yielded plasma membrane fractions practically free of lysosomes with an enrichment ratio of 3 and fractions of mitochondria and endoplasmic reticulum with enrichment ratios of 17 and 6, respectively. A major problem was encountered in the final step of elimination of Percoll from the purified plasma membrane fractions. Whatever the technique used for eliminating Percoll, plasma membranes were observed to be contaminated by a Percoll constituent which prevented further purification and biochemical identification of the lipids extracted from these membrane fractions to be carried out. A second method of plasma membrane preparation was tested consisting first in the coating of the cell surface with positive colloidal silica which was stabilized by an anionic polymer. Then, and through differential centrifugations, plasma membrane fractions were easily obtained within less than 1 h, with a yield of 65% and an enrichment ratio of 7. The coating pellicle was quantitatively removed thus enabling any biochemical manipulation of the plasma membrane to be carried out. The lipids present in the plasma membrane of CHO cells were analyzed and are described, both in terms of headgroup and acyl chain composition.     

Transport properties of P-glycoprotein in plasma membrane vesicles from multidrug-resistant Chinese hamster ovary cells.

Multidrug resistant (MDR) cells overexpress a 170-180 kDa membrane glycoprotein, the P-glycoprotein, which is believed to export drugs in an ATP-dependent manner. Plasma membrane vesicles from the MDR CHRC5 cell line, but not the AuxB1 drug-sensitive parent, showed uptake of [3H]colchicine and [3H]vinblastine that was stimulated by the presence of ATP and an ATP-regenerating system. Steady-state uptake of drugs was achieved by 10 min and was stable for greater than 30 min. Non-hydrolysable ATP analogues were unable to support drug uptake, indicating that ATP hydrolysis is essential for transport. ATP-stimulated drug uptake appeared to result from drug transport into inside-out vesicles, since uptake was osmotically sensitive and could be prevented by detergent permeabilization. Steady-state uptake was half-maximal at 100 microM colchicine and 200 nM vinblastine and was inhibited by a 10-100-fold excess of MDR drugs and chemosensitizers, in the order vinblastine greater than verapamil greater than daunomycin greater than colchicine. In addition to being vanadate-sensitive, drug uptake was inhibited by 10-200 microM concentrations of several sulfhydryl-modifying reagents, suggesting that cysteine residues play an important role in drug transport. Vesicular colchicine was rapidly exchanged by an excess of unlabelled drug, demonstrating that drug association is the net result of opposing colchicine fluxes across the membrane.     

Reversible plasma membrane ultrastructural changes correlated with electropermeabilization in Chinese hamster ovary cells

Chinese hamster ovary cells (CHO) grown in monolayers were permeabilized to molecules with molecular weight up to 1000 by high intensity 100 mus square wave electric field pulses. This permeability was transient and the cell viability was not affected. It was not possible for molecules with molecular weight larger than 1500 to penetrate inside the cytoplasm if lytic pulsing conditions were not used. In order to investigate the ultrastructural changes associated with this transient and limited permeabilization, cells were chemically fixed a few seconds after their pulsation and observed by electron microscopy. By scanning electron microscopy, numerous microvilli and blebs were observed almost immediately after application of the field. No other membrane changes were observed. Permeabilization of the membrane was visualized at the electron microscopic level by penetration of Ruthenium red. The appearance of osmotic pressure-dependent 'blebs' was indicative of local weakening of the plasma membrane. Most of these effects were fully reversible and disappeared within 30 min at 37 degrees C with the formation of huge polykaryons when cells were in contact before pulsing.     

Modulation of membrane drug permeability in Chinese hamster ovary cells

The kinetics of colchicine uptake into Chinese hamster ovary cells have been investigated and found to be consistent with an unmediated diffusion mode. A variety of compounds such as local anesthetics and non-ionic detergents as well as drugs such as vinblastine, vincristine, daunomycin and actinomycin D potentiate the rate of colchicine uptake into these cells and into colchicine resistant mutants. In all cases, higher concentrations of these compounds were required to stimulate colchicine uptake in the colchicine resistant mutants than in the cells of the parental line. This stimulation was observed also in the uptake of puromycin, a structurally and functionally different drug. These stimulatory agents did not, however, cause the cells to become nonspecifically leaky since the uptake of 2-deoxy-d-glucose was unaffected. In addition, the activation energy of colchicine uptake was unaltered in the presence of stimulating agents, implying that they were not causing colchicine to enter the cells via a different mechanism. The results are compatible with the view that these compounds are membrane-active, and are able to stimulate an increased rate of unmediated diffusion of colchicine into the cells. It appears that a mechanism for the regulation of passive permeability is modified in the resistant mutants.     

Turnover of plasma membrane polypeptides in nonproliferating cultures of Chinese hamster ovary cells and human skin fibroblasts.

When cultures of Chinese hamster ovary cells were maintained in stationary phase on medium deficient in l-isoleucine (A) or low in serum (B), active protein turnover occurs. These cells can be acetylated with trace levels of radioactive acetic anhydride in order to incorporate label into all of the major species of polypeptides of the plasma membrane. Four days following acetylation with [³H]acetic anhydride and removal from medium A containing l-[¹⁴C]leucine, the specific ³H and ¹⁴C radioactivities of the plasma membrane proteins had fallen 15- and 7-fold respectively. The lower value obtained with the radioactive leucine is probably due to reutilization of this amino acid. The ³H and ¹⁴C radioactivity profiles for the polypeptides separated by discontinuous gel electrophoresis, however, showed little qualitative change over the course of the experiment, suggesting that differential rates of protein turnover were not occurring. These results were confirmed in experiments with cells using both the above culture conditions in which two acetylations were carried out, one with ³H at time zero and the other with contrasting ³C label up to 96 h later. Two methods for plasma membrane isolation and a number of electrophoretic conditions were employed. Again, however, the radioactivity profiles along the gels coincided almost exactly, even though the ³H specific radioactivity had fallen several fold. Similar results have been obtained with confluent human skin fibroblasts. We suggest that the major proteins in the plasma membranes of cultured mammalian cells do not show markedly heterogeneous rates of turnover. In particular, larger species of polypeptides do not appear to have shorter half-lives than smaller ones.     

Changes in plasma membrane and microfilaments accompanying morphologic differentiation in Chinese hamster ovary (CHO) cells.

Studies on the application of the techniques of counter-current distribution (CCD) in aqueous two-phase systems and multiple sedimentation for the fractionation of metaphase chromosomes are presented. The two-phase systems were composed of aqueous solutions of Dextran 500 and poly(ethylene)glycol 6000 (PEG). It has been found that different groups of chromosomes differ in their distribution between the two phases and that the introduction of PEG with covalently attached positively or negatively charged groups provides a means of steering the distribution of chromosomes. A rough fractionation of chromosomes on the basis of size is possible by the technique of multiple sedimentation and this, in combination with CCD, yields 10 fractions of chromosomes. Partition and CCD in aqueous two-phase system separate chromosomes according to their surface properties and may prove useful for isolation of individual chromosomes in bulk.     

Heat-induced changes in the membrane fluidity of Chinese hamster ovary cells measured by flow cytometry.

Flow cytometry was used to measure the fluorescence polarization of the lipid probe trimethylammonium-diphenylhexatriene as an indicator of plasma membrane fluidity of Chinese hamster ovary (CHO) cells heated under various conditions. Fluorescence polarization was measured at room temperature about 25 min after heating. When cells were heated for 45 min at temperatures above 42 degrees C, fluorescence polarization decreased progressively, signifying an increase in plasma membrane fluidity. The fluorescence polarization of cells heated at 42 degrees C for up to 55 h was nearly the same as for unheated control populations, despite a reduction in survival. The fluorescence polarization of cells heated at 45 degrees C decreased progressively with heating time, which indicated a progressive increase in membrane fluidity. The fluorescence polarization distributions broadened and skewed toward lower polarization values for long heating times at 45 degrees C. Thermotolerant cells resisted changes in plasma membrane fluidity when challenged with subsequent 45 degrees C exposures. Heated cells were sorted on the basis of their position in the fluorescence polarization distribution and plated to determine survival. The survival of cells which were subjected to various heat treatments and then sorted from high or low tails of the fluorescence polarization histograms was not significantly different. These results show that hyperthermia causes persistent changes in the membrane fluidity of CHO cells but that membrane fluidity is not directly correlated with cell survival.     

Dolichol metabolism in Chinese hamster ovary cells.

The addition of oligosaccharide to asparagine residues of soluble and membrane-associated proteins in eukaryotic cells involves a polyisoprenoid lipid carrier, dolichol. In Chinese hamster ovary cells, the major isomer of this polyisoprenol has 19 isoprenyl units, the terminal one being saturated. Our laboratory has developed a procedure to analyze the levels and nature of the cell's dolichyl derivatives. Chinese hamster ovary cells contain predominately activated, anionic dolichol derivatives, such as oligosaccharyl pyrophosphoryldolichol, monoglycosylated phosphoryldolichols, and dolichyl phosphate. Our studies show that in growing cells there is continual synthesis of total dolichol. Also, preliminary data suggest there is no catabolism or secretion of this lipid. The level of dolichyl phosphate did not change significantly under a variety of conditions where the levels of enzyme activities utilizing dolichyl phosphate did change. These results suggested that these enzymes had access to the same pool of dolichyl phosphate and had similar Km values for this lipid.     

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.     

Rapid cell surface appearance of endocytic membrane proteins in Chinese hamster ovary cells.

Lactoperoxidase was used to selectively radiolabel endocytic membrane. CHO cells were incubated with enzyme at 37 degrees C for 10 min to permit lactoperoxidase internalization. Radioiodination was done at 4 degrees C. About 90% of the radioiodinated products pelleted at 100,000 X g. From 12 to 15 different electrophoretic species were detected by one-dimensional gel electrophoresis. When cells labeled by internalized lactoperoxidase were warmed to 37 degrees C, the incorporated radioactivity was lost in a biphasic manner with an overall t1/2 of approximately 20 h. Upon warming cells to 37 degrees C, the labeled species became sensitive to pronase or trypsin digestion. The increase in protease sensitivity was progressive over a 10- to 20-min period. Maximally 45% of the initially intracellular radiolabel could be released. A digest of exterior-radioiodinated cells released 50% of the incorporated radioiodine. These observations strongly suggest a rapid shuttling of approximately 90% of the radioiodinated membrane species initially present within the cell to the cell surface.     

Overexpression of prolylcarboxypeptidase enhances plasma prekallikrein activation on Chinese hamster ovary cells

Plasma prekallikrein (PK) complexes with its receptor, high-molecular-weight kininogen (HK), on human umbilical vein endothelial cells (HUVEC). When assembled on endothelial cells, PK is activated to plasma kallikrein independent of factor XIIa by the serine protease prolylcarboxypeptidase (PRCP, Km= 9 nM). PRCP was shown to be a PK activator when isolated from HUVEC (J Biol Chem 277: 17962-17969, 2002) and produced as a recombinant protein (Blood 103: 4554-4561, 2004). To additionally confirm that human PRCP is a physiological PK activator, PRCP was overexpressed in Chinese hamster ovary (CHO) cells. CHO cells were transfected with full-length PRCP under the control of a cytomegalovirus promoter, and CHO recombinant PRCP was expressed as a fusion protein with COOH-terminal enhanced green fluorescence protein (EGFP). The presence of recombinant PRCP in transfected CHO cells was detected by real-time RT-PCR, immunoblot, and immunoprecipitation. PRCP mRNA and PK activation were two- to threefold higher in transfected than in control CHO cells. The increase in PRCP-induced PK activation in the transfected CHO cells paralleled the increase in PRCP antigen expression, as determined by anti-PRCP and anti-green fluorescence protein antibodies. PK activation of the transfected cells was blocked by small interfering RNA to PRCP. Anti-PRCP antibody and Z-Pro-Pro-aldehyde dimethyl acetate also blocked PK activation (IC50= 0.01 and 7.0 mM, respectively). Localization of PRCP in intact cells observed via confocal microscopy and flow cytometry also confirmed overexpression of PRCP on the external membrane. These investigations independently confirm that PRCP is expressed on cell membranes and that PRCP expression increases PK activation.     

Internalization of ricin in Chinese hamster ovary cells.

Internalization of ricin into Chinese hamster ovary cells has been investigated. Combined treatment with galactose and pronase at 0 degrees C resulted in a complete release of surface-bound [125I]ricin into the media. Galactose-pronase-resistant cell-bound [125I]ricin represents internalized ricin molecules inside the cells. The internalization process is time, temperature, and concentration dependent. The pH optimum of internalization of ricin is about pH 7. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis has revealed that intact ricin molecules are internalized. Neither reduction nor proteolytic processing of ricin is required for the entry of ricin into Chinese hamster ovary cells.     

The isolation and characterization of the plasma membrane of cultured chinese hamster ovary cells.

Plasma membranes were prepared from cultured Chinese hamster ovary cells utilizing a two-phase polymer system and were characterized by enzymatic and chemical assay, and by electron microscopy. The usual degree of purification of presumptive membrane markers such as Na+-K+ ATPase (ATP phosphohydrolase, EC 3.6.1.3) ranged from three-to eightfold. Gel electrophoresis in SDS revealed several polypeptides and two glycopeptides which were enriched in the plasma membrane fraction.     

Effect of endogenous methylglyoxal on Chinese hamster ovary cells grown in culture

Methylglyoxal is a ketoaldehyde that reacts readily under physiological conditions with biologically relevant ligands, such as amine and sulfhydryl groups. It is produced in mammalian cells primarily as a by-product of glycolysis. The level of glucose, L-glutamine and fetal bovine serum in culture media was found to significantly affect levels of intracellular methylglyoxal in Chinese hamster ovary cells. Medium with 25 mM glucose and 5 mM L-glutamine caused an increase in free methylglyoxal levels of 90 to 100% relative to medium containing 5 mM glucose and 2 mM L-glutamine. Both of these media compositions are representative of those found in commercially available media. Pseudomonas putida glyoxalase I was expressed in Chinese hamster ovary cells to enhance methylglyoxal detoxification. The Chinese hamster ovary cell clones showed an 80 to 90% decrease in free methylglyoxal levels. The colony-forming ability of these cells was compared to wild-type Chinese hamster ovary cells under conditions found to cause elevated methylglyoxal levels. The wild-type cells showed a 10% decrease in colony-forming ability relative to the clones. This decrease was found to be statistically significant (P>0.99) by analysis of variance. The variation in colony-forming ability amongst the clones was statistically insignificant. More importantly, the clones shoed increased colony-forming ability relative to the wild-type cells under conditions of higher methylglyoxal production with fair to good statistical significance (P>0.75 to P>0.95). This result is the first quantifiable evidence that endogenously produced methylglyoxal can negatively affect cell function under conditions found in animal cell culture.Abbreviations ANOVA analysis of variance - CHO Chinese hamster ovary cells - CFA colony-forming ability - dhfr gene for dihydrofolate reductase - DHAP dihydroxyacetone phosphate - FBS fetal bovine serum - G-3-P glyceraldehyde-3-phosphate - GloI glyoxalase I - GloII glyoxalase II - GSH reduced glutathione - HPLC high-performance liquid chromatography - IMDM Iscove's modified Dulbecco's medium - MTX methotrexate - 2-MQ 2-methylquinoxaline - 5-MQ 5-methylquinoxaline - MEM minimal essential medium - P_i inorganic phosphate - PCA perchloric acid - o-PD o-phenylenediamine     

Effect of histidine on histidinol-induced heat protection in Chinese hamster ovary cells

The possible mechanism for heat protection by the protein synthesis inhibitor histidinol was investigated in CHO cells. Histidinol (HST, 5 mM), an analogue of the essential amino acid L-histidine, added for 2 hr before and during heating at 43 degrees C, protected cells from killing at 43 degrees C. Treatment with HST produced a 600-fold increase in survival from 3 x 10(-4) to 1.8 x 10(-1) after 2.5 hr at 43 degrees C. Although the cells were washed after HST treatment, substantial protective effect was still observed during heating at 43 degrees C. This protective effect gradually decreased with increased incubation time after the drug treatment. However, the protective effect was immediately reduced by treatment with histidine (HIS, 0.25-5 mM) during heating. The amount of reduction was dependent upon HIS concentration: five millimolar HIS completely inhibited HST-induced heat protection. Furthermore, protein synthesis which was inhibited by 95% by 5 mM HST, resumed immediately with 5 mM HIS treatment. In addition, when cells were labeled during or after HST treatment, neither preferential accumulation of heat shock protein families nor phosphorylation of 28 kDa protein was observed. Therefore, these results suggest that the cessation of protein synthesis itself is one of the events involved in protection.     

Effect of cadmium on cell cycle progression in Chinese hamster ovary cells

Chinese hamster ovary K1 (CHO K1) cells are very sensitive to cadmium (Cd) toxicity. They were used to investigate the effect of Cd on cell cycle progression. Cells were cultured with 0.1, 0.4, 1 or 4 microM Cd for various time intervals. There was no difference in growth rate when less than 0.4 microM Cd was given within 24 h. A dose-dependent reduction of cell proliferation was observed when more than 0.4 microM of Cd was given. The cells were pulse-labeled with 5-bromodeoxyuridine (BrdU), and the labeled cells were cultured in the presence of increasing concentrations of Cd. Cell cycle progression was retarded as a function of Cd concentration. G2/M arrest was observed when the BrdU-labeled cells were treated with 1 microM Cd for 8h, whereas cells receiving 4 microM Cd stopped at the S phase within 4 h. Cell cycle analysis of cells treated with Cd for 24 h showed that G2/M arrest occurred only when cells received 0.8 to 2 microM Cd. Despite the occurrence of G2/M arrest in the Cd treatment, only a limited proportion of the cells were blocked in the M phase. However, the increase in M phase cells coincided with an elevation in the cyclin-dependent kinase 1 activity. To examine whether Cd acts on cells at a specific cell stage, they were synchronized at the G1 or G2/M phase then treated with 1 microM Cd for 12 h. The cells were blocked at the G2/M and G1/S phase, respectively. This finding indicates that Cd toxicity is global and not cell phase specific. We also investigated the involvement of Cd-induced reactive oxygen species (ROS) with the occurrence of G2/M block and found a lack of correlation between cell cycle arrest and ROS production. We measured the Cd content that caused G2/M arrest from a series of Cd treatments and determined the ranges of cumulative Cd concentrations that could result in cell cycle arrest.     

Esterified cholesterol and triglyceride are present in plasma membranes of Chinese hamster ovary cells.

The chemical composition of highly purified plasma membrane preparations from a series of malignant Chinese hamster ovary (CHO) cell lines were undertaken to ascertain if neutral lipid, including cholesteryl ester and triacylglycerol, were present. Triacylglycerols (33-41 nmol/mg total lipid) and cholesteryl ester (226-271 nmol/mg) were measured in the plasma membranes and differences in the chemical composition of these membranes recorded. The most significant difference was a gradual decrease in the level of free cholesterol from wild type (312 +/- 7 nmol/mg total plasma membrane lipid), Pod RII-6 (268 +/- 64 nmol/mg total plasma membrane lipid), Col R-22 (243 +/- 39 nmol/mg total plasma membrane lipid) to EOT (204 +/- 20 nmol/mg total plasma membrane lipid), with a concomitant increase in the degree of saturation of the cholesteryl ester fatty acids, particularly palmitic acid. No statistically significant differences were apparent in the chemical composition of the whole cells in this series. The one-dimensional (1D) 1H-NMR spectra of the four malignant cell lines showed a gradation in intensity of lipid resonances, in the order of wild type, Pod RII-6, Col R-22 and EOT, with EOT having the strongest lipid spectrum. Interestingly, the increase in acyl-chain signal intensities in the 1H-NMR spectra of this series of CHO cells and emergence of signals from cholesterol and/or cholesteryl ester, coincide with alterations in the amount of free cholesterol and the degree of saturation of the fatty-acyl chain of the esterified cholesterol in the plasma membranes. It is our hypothesis that, together, cholesteryl ester and triacylglycerol form domains in the plasma membrane and that when the cholesteryl ester has a largely saturated fatty acid content, the lipids are in isotropic liquid phase and hence visible by NMR.     

Effect of glutamine limitation on the death of attached Chinese hamster ovary cells.

The effect of glutamine depletion on the death of attached Chinese hamster ovary (CHO) cells was investigated. Experiments were performed using an anchorage dependent CHO cell line expressing gamma-IFN and a second cell line obtained by transfection of that cell line with the human bcl-2 (hbcl-2). Either cell line could grow in media devoid of glutamine with minimal cell death due to endogenous glutamine synthetase activity that allowed cells to synthesize glutamine from glutamic acid in the medium. However, compared to control cultures in glutamine-containing media, the cell growth rate in glutamine-free media was slower with an increased fraction of cells distributed in the G0/G1 phase. The slower rate of cell cycling apparently protected the cells from entering apoptosis when they were stimulated to proliferate in an environment devoid of other protective factors, such as serum or over-expressed hbcl-2. The depletion of both glutamine and glutamic acid did cause cell death, which could be mitigated by hbcl-2 over-expression.     

Effect of process parameters and product-host-interaction on hVEGFA-production by recombinant Chinese hamster ovary cells

A potential producer clone was identified among recombinant, human vascular endothelial growth factor A (hVEGFA)-producing Chinese Hamster Ovary (CHO) K1 cells, using a recently established screening method. In batch spinner cultivations, the cells showed a maximum growth rate of 0.045 h(-1), a final total cell density of 5.3×10(6) mL(-1) (living cell density: 3.4×10(6) mL(-1)), and a final hVEGFA concentration of 207 μg L(-1). Living cell density and productivity in the spinner cultivations could be increased by glutamine feeding. Transfer of the process to the bioreactor (batch mode, control of pH, T, and O2) resulted in a reduction of the growth rate by roughly 50%, while overall living cell density and productivity increased, largely due to an extension of the production phase. When the bioreactor was run in the fed-batch mode, growth rates were further reduced, while productivity and living cell densities reached a maximum (hVEGFA: 358 μg L(-1), cells: 5.2×10(6) mL(-1)). In addition, the death rate of the hVEGFA-producing cells was considerably reduced compared with the parent cell line, most likely due to product-host-interaction. This hypothesis was corroborated when a second recombinant CHO cell line (antibody producer) was transfected with the hVEGFA gene and afterward consistently showed higher viable cell densities together with a significantly improved antibody titer.