Temperature-dependent mutational specificity of an Escherichia coli mutator, dnaQ49, defective in 3'----5' exonuclease (proofreading) activity

Escherichia coli strains carrying the temperature-dependent dnaQ49 allele are strong mutators at 37 degrees C. Since the dnaQ49 gene encodes the epsilon subunit of DNA polymerase III, it is thought that the large number of errors results in part from impaired proofreading activity during DNA replication. We have examined dnaQ49-induced reversion patterns of defined trpA alleles to determine the kinds of errors produced by dnaQ49 at 30 degrees C and 37 degrees C. We found that at 37 degrees C dnaQ49 produced all types of base-pair substitutions in addition to frameshifts with transitions generally occurring more frequently than transversions. This generalized mutator activity is very similar to that displayed in rich medium by mutD5, another mutator allele at the dnaQ locus. However, when dnaQ49 strains were cultured at 30 degrees C, not only were reversion frequencies much lower than at 37 degrees C, but in addition, the spectrum was altered. Transversions became proportionally more prevalent in the reversion spectra at the lower temperature. We suggest the possibility that at 37 degrees C dnaQ49 results in defective proofreading and methyl-directed postreplicative mismatch repair, while at 30 degrees C mismatch repair is fully and proofreading partially restored.     

Characterization of the galactose-specific binding activity of a purified soluble Entamoeba histolytica adherence lectin.

We studied galactose (Gal)-specific binding of the soluble purified 260-kDa Entamoeba histolytica adherence protein to glycosylation deficient Chinese hamster ovary (CHO) cell mutants. Our goal was to further define the lectin's functional activity and carbohydrate receptor specificity. The adherence protein was purified by acid elution from an immunoaffinity column; however, exposure of the surface membrane lectin on viable trophozoites to identical acid pH conditions had no effect on carbohydrate binding activity. Saturable Gal-specific binding of soluble lectin to parental CHO cells was demonstrated at 4 degrees C by radioimmunoassay; the dissociation coefficient (Kd) was 2.39 x 10(-8) M-1 with 5.97 x 10(4) lectin receptors present per CHO cell. Gal-specific binding of lectin to Lec2 CHO cell mutants, which have increased N- and O-linked terminal Gal residues on cell surface carbohydrates, was increased due to an enhanced number of receptors (2.41 x 10(5)/cell) rather than a significantly reduced dissociation constant (4.93 x 10(-8) M-1). At 4 degrees C, there was no measurable Gal-specific binding of the adherence protein to the Lec1 and 1dlD.Lec1 CHO mutants, which contain surface carbohydrates deficient in terminal Gal residues. Binding of lectin (20 micrograms/ml) to CHO cells was equivalent at 4 degrees C and 37 degrees C and unaltered by adding the microfilament inhibitor, Cytochalasin D (10 micrograms/ml). Gal-specific binding of the lectin at 4 degrees C was calcium independent and reduced by 81% following adsorption of only 0.2% of the lectin to CHO cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Synthesis and secretion of active lipoprotein lipase in Chinese-hamster ovary (CHO) cells.

Cultured Chinese-hamster ovary cells (CHO cells) were found to produce and secrete a lipase, which was identified as a lipoprotein lipase by the following criteria. Its activity was stimulated by serum and apolipoprotein CII, and was inhibited by high salt concentration. The lipase bound to heparin-agarose and co-eluted with 125I-labelled bovine lipoprotein lipase in a salt gradient. A chicken antiserum to bovine lipoprotein lipase inhibited the activity and precipitated a labelled protein of the same apparent size as bovine lipoprotein lipase from media of CHO cells labelled with [35S]methionine. The lipase activity and secretion were similar in growing cells and in cells that had reached confluency. Hence, lipoprotein lipase appears to be expressed constitutively in CHO cells and is not linked to certain growth conditions, as in pre-adipocyte and macrophage cell lines. At 37 degrees C, but not at 4 degrees C, heparin increased the release of lipase to the medium 2-4-fold. This increased release occurred without depletion of cell-associated lipase activity, suggesting that heparin enhanced release of newly synthesized lipase.     

Glycosidase activities of the 293 and NS0 cell lines, and of an antibody-producing hybridoma cell line

We have previously demonstrated that Chinese hamster ovary (CHO) cell lysates harbor sialidase, beta-galactosidase, beta-hexosaminidase, and fucosidase activities that can accumulate extracellularly in CHO cell culture, thereby potentially leading to extracellular modification of glycoprotein oligosaccharides. The sialidase activity in CHO cell lysates was surprisingly active and stable at pH 7.5, with a half-life of 57 h at 37 degrees C.We have extended this work to determine whether 293, NS0, or hybridoma cell lysates contain similar glycosidase activities. The pH-activity profiles of beta-galactosidase and beta-hexosaminidase in lysates of these three cell lines resemble the pH-activity profiles for these enzymes in CHO cell lysate, whereas the pH-activity profiles of sialidase and fucosidase appear to be cell-type dependent. Sialidase activities were relatively stable at pH 4.5 in 293, NS0, and hybridoma cell lysates. However, the activities in 293 and NS0 cell lysates were unstable at pH 7.5, with no activity remaining after a 2-h incubation at 37 degrees C. The sialidase activity in hybridoma cell lysate was moderately stable at pH 7.5 with 30% of the activity remaining after a 2-h incubation at 37 degrees C. We conclude that the sialidase activites from 293, NS0, and hybridoma cells have characteristics similar to the vast majority of reported mammalian sialidase activities, and that these activities are markedly differant from the CHO cell sialidase activity.Finally, sialidase, beta-galactosidase, beta-hexosaminidase, and fucosidase activities were measured at pH 7 in cell-free bioreactor supernatants of the hybridoma cell line. As previously observed in CHO cell culture, all four glycosidase activities were present in the hybridoma supernatants. However, the sialidase activity in hybridoma supernatant was an order of magnitude lower than in CHO cell culture supernatant despite the fact that the hybridoma cell lysis rate was an order of magnitude higher. (c) 1994 John Wiley & Sons, Inc.     

Thermotolerance and thermosensitization in CHO and R1H cells: a comparative study

In CHO and R1H cells thermotolerance was induced by a pre-incubation at 40 degrees C, by an acute heat shock at 43 degrees C followed by a time interval at 37 degrees C, and during continuous heating at 42 degrees C. Thermotolerance, which was tested at 43 degrees C, primarily causes an increase in D0 of the heat-response curve. The degree of maximum thermotolerance was found to be generally more pronounced in CHO than in R1H cells, but the time interval at 37 degrees C, as well as at 40 degrees C, to reach this maximum level was the same in both cell lines. CHO and R1H cells could be sensitized to 40 degrees C by a pre-treatment at 43 degrees C. When compared for the same survival rate after pre-treatment at 43 degrees C alone the degree of thermosensitization was about the same in both cell lines. In either cell line thermosensitization was found to be suppressed when cells were made thermotolerant by a previous incubation at 40 degrees C for 16 hours.     

Efficient introduction of contents of liposomes into cells using HVJ (Sendai virus)

The conditions for efficient introduction of the contents of liposomes into cells were examined using fragment A of diphtheria toxin (DA) as a marker; one molecule of DA can kill a cell when introduced into the cytoplasm. Liposomes containing DA (DA liposomes) were toxic to cells treated with HVJ (Sendai virus) at 4 degrees C just before exposure to DA liposomes at 37 degrees C, but were not toxic to untreated cells. This toxicity was temperature-dependent. DA outside of liposomes was not toxic to HVJ-treated cells. Results also showed that liposomes could fuse with HVJ at 37 degrees but not at 4 degrees C and that liposomes preincubated with HVJ at 37 degrees C could associate with cells. DA liposomes preincubated with HVJ at 37 degrees C were highly toxic to cells. This toxicity was dependent on the duration of preincubation with HVJ and the dose of HVJ. When plasmid DNA coded herpes simplex virus thymidine kinase was trapped in liposomes and fused with Ltk- cells with HVJ, the thymidine kinase activity was expressed in about 10% of the cells. These data show that naked liposomes fuse efficiently with cells with HVJ and that the contents of the liposomes can be introduced into the cytoplasm 100-10 000 times more efficiently by treatment of the cells or liposomes with HVJ.     

Preferential processing of the S1 subunit of pertussis toxin that is bound to eukaryotic cells

Labelled [¹²⁵l]-pertussis toxin was prepared and used to measure the association of pertussis toxin (PT) to eukaryotic cells. PT was radioiodinated by the lactoperoxidase method which preferentially radioiodinated the S1 subunit. PT was radioiodinated at a high specific activity and possessed the same cytotoxicity as native PT as demonstrated by the ability to cluster Chinese hamster ovary (CHO) cells. Cell association of [¹²⁵l]-PT was not inhibited by excess non-radiolabelled PT, which indicated that the initial interaction between PT and CHO cells involved a large number of low-affinity receptors. At 37° C, the S1 within cell-associated PT was preferentially processed to an S1 with a lower apparent molecular weight (termed S1p). This processing was inhibited by the addition of unlabelled PT, indicating that the processing event was saturable and specific. S1 processing occurred in CHO, Madin-Darby canine kidney (MDCK) cells, and pig kidney (LLC-PK1) cells. A pulse-chase experiment showed that, at 37° C but not at 22° C, essentially all of the cell-associated S1 was processed within 3 h of a chase. Reagents that were previously shown to inhibit the ability of PT to ADP-ribosylate G₁ proteins in intact CHO cells also inhibited the preferential processing of S1 within cell-associated PT, in the order of efficiency: 22°C chloroquine nocodazole brefeldin A. This indicates that S1 processing requires an early endosomal function.     

Hypothermia enhances bcl-2 expression and protects against oxidative stress-induced cell death in Chinese hamster ovary cells.

Oxidative stress is one of the major causes of cellular injury. Various reactive oxygen (ROS) and nitrogen (RNS) species such as superoxide, hydroxyl radical, peroxynitrite, and nitric oxide are involved in the manifestations of different types of organ toxicity and the resultant syndromes, symptoms, or diseases. Hypothermic conditions have been reported to reduce the oxidative stress in various in vitro and in vivo studies. In the present study, we sought to determine the effect of lowered temperatures on oxidative stress-induced cell death in Chinese hamster ovary (CHO) cells. We also investigated the oxidative stress-induced alterations in the expression of anti-apoptotic protein, bcl-2, in CHO cells at lowered temperatures. CHO cells were incubated at four different temperatures of 30, 32, 35, and 37 degrees C (control temperature) from 1 to 4 d. In another set, the cells were incubated with 100 microM hydrogen peroxide (H(2)O(2)) for 30 min before harvesting at different time points. The cells were harvested at 1, 2, 3, and 4 d. Cell survival was significantly higher at 30 degrees C as compared to 37 degrees C over 4 d of incubation. In cells incubated with H(2)O(2), significantly higher cell viability was observed at lower temperatures as compared to the cells incubated at 37 degrees C. The activity of glutathione peroxidase (GSH-Px) also increased significantly at lower temperatures. Lowered temperature also provided a significant increase in the expression of anti-apoptotic protein, bcl-2 after 4 d of incubation. These data suggest that hypothermic conditions lowers the risk of oxidative stress-induced cellular damage and programmed cell death by increasing the activity of GSH-Px and by the induction in the expression of the anti-apoptotic protein, bcl-2.     

Determination of the epinephrine-refractory hypoglycaemic activity of whole-cell pertussis vaccine in mice

A new assay method has been developed for the quantitative estimation of the inhibitory effect of pertussis vaccine on epinephrine-induced hyperglycaemia in mice. The statistical analysis of the assay was based on logarithm-transformed estimates of the blood glucose levels. The method was sufficiently sensitive to detect the activity of 0.004 millilitre of commercial combined diphtheria-tetanus-whole cell pertussis vaccine. The estimated common variance was as small as 0.0034 and the assay was highly reproducible. Among commercial vaccines there was a significant difference in activity. The activity of a stock pertussis vaccine was inactivated by 5 mM glutaraldehyde at 37 degrees C for 30 min, but resisted treatment with 40 mM formaldehyde at 37 degrees C for 5 days. The extent of inactivation with the chemicals was calculated by a parallel line assay as the activity relative to that of untreated control pertussis vaccine.     

Controlled Growth of Chinese Hamster Ovary Cells and High Expression of Antibody-IL-2 Fusion Proteins by Temperature Manipulation

Growth and the expression of the anti-ErbB2 scFv-Fc-IL2 fusion protein in Chinese hamster ovary (CHO) cells were in association at 37 degrees C. The expression of the fusion protein was no more than 25 microg/ml. At 30 degrees C the cell growth was arrested but the cells continued to produce the fusion protein up to 60-80 microg/ml. About 50% of CHO cells were rapidly blocked in G2/M phase after the temperature was shifted from 37 to 30 degrees C. Lowering temperature resulted in cell growth arrest, but maintained cell viability for a longer time and enhanced the production of the antibody-IL-2 fusion protein in CHO cells.     

Correlation of phenotype with the genotype of egg-contaminating Salmonella enterica serovar Enteritidis

The genotype of Salmonella enterica serovar Enteritidis was correlated with the phenotype using DNA-DNA microarray hybridization, ribotyping, and Phenotype MicroArray analysis to compare three strains that differed in colony morphology and phage type. No DNA hybridization differences were found between two phage type 13A (PT13A) strains that varied in biofilm formation; however, the ribotype patterns were different. Both PT13A strains had DNA sequences similar to that of bacteriophage Fels2, whereas the PT4 genome to which they were compared, as well as a PT4 field isolate, had a DNA sequence with some similarity to the bacteriophage ST64b sequence. Phenotype MicroArray analysis indicated that the two PT13A strains and the PT4 field isolate had similar respiratory activity profiles at 37 degrees C. However, the wild-type S. enterica serovar Enteritidis PT13A strain grew significantly better in 20% more of the 1,920 conditions tested when it was assayed at 25 degrees C than the biofilm-forming PT13A strain grew. Statistical analysis of the respiratory activity suggested that S. enterica serovar Enteritidis PT4 had a temperature-influenced dimorphic metabolism which at 25 degrees C somewhat resembled the profile of the biofilm-forming PT13A strain and that at 37 degrees C the metabolism was nearly identical to that of the wild-type PT13A strain. Although it is possible that lysogenic bacteriophage alter the balance of phage types on a farm either by lytic competition or by altering the metabolic processes of the host cell in subtle ways, the different physiologies of the S. enterica serovar Enteritidis strains correlated most closely with minor, rather than major, genomic changes. These results strongly suggest that the pandemic of egg-associated human salmonellosis that came into prominence in the 1980s is primarily an example of bacterial adaptive radiation that affects the safety of the food supply.     

Microbioluminescent study of the general toxicity and mutagenicity of pollutants

Bacterial bioluminescence was applied to detection of general toxicity (MIT test) and genotoxicity (SOS-lux test) of some chemicals, seawater, and fresh water. The SOS-induced luminescence of E. coli WP2s (cda::luxCDABE) cells was higher than in E. coli C 600 (cda::luxCDABE) at 37 degrees C and pH 6.5. The mutagenic effect of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), mitomycin C, and hydrogen peroxide determined from the induction of E. coli WP2s cell luminescence was detected at lower concentrations than in the assessment of reversion frequencies. General toxicity was demonstrated by using luminescence inhibition for hydrogen peroxide, Zn2+, and Cd2+ at low concentrations. Regions of the Krasnodar Krai where sea and fresh waters exerted toxic action on luminescence were determined by the microbioluminescent method.     

Hsp70 attenuates hypoxia/reoxygenation-induced activation of poly(ADP-ribose) synthetase in the nucleus of adult rat cardiomyocytes

Effects of heat shock protein 70 (Hsp70) translocated to nuclear fraction on hypoxia/reoxygenation injury was examined by using adult cardiomyocytes isolated from rats. Cardiomyocytes were exposed to heat shock at 42°C for 15 min (HS group), and then incubated at 37°C for 6–24 h. Hsp70 production increased and the protein translocated from cytosol to nucleus. The maximum level of Hsp70 in the nuclear fraction was observed 12 h after HS. When cardiomyocytes without exposure to HS (nHS group) were subjected to 120 min hypoxia/15 min reoxygenation (Hypo/Reoxy), post-hypoxic cell viability was approximately 25% of the pre-hypoxic value. A rise in poly(ADP-ribose) synthetase (PARS) activity in the nuclear fraction was observed in nHS group, associated with an increase in polyADP-ribosylated protein. In contrast, post-hypoxic cell viability of HS group was approximately 60% of the pre-hypoxic value. Hypo/reoxy-induced rise in PARS activity and increase in polyADP-ribosylated protein were attenuated in HS group. To confirm the relationship between an increase in cell viability after Hypo/Reoxy and attenuation of PARS activation, cardiomyocytes without exposure to HS were subjected to Hypo/Reoxy in the presence of 1 mM 3-aminobenzamide, an inhibitor of PARS. Treatment of cells with 3-aminobenzamide attenuated Hypo/Reoxy-induced decrease in cell viability. These results suggest that Hsp70 translocated into nucleus after HS may attenuate PARS activation during Hypo/Reoxy, leading to the cytoprotection of cardiomyocytes against Hypo/Reoxy injury.     

Effect of culture temperature on erythropoietin production and glycosylation in a perfusion culture of recombinant CHO cells

To investigate the effect of culture temperature on erythropoietin (EPO) production and glycosylation in recombinant Chinese hamster ovary (CHO) cells, we cultivated CHO cells using a perfusion bioreactor. Cells were cultivated at 37 degrees C until viable cell concentration reached 1 x 10(7) cells/mL, and then culture temperature was shifted to 25 degrees C, 28 degrees C, 30 degrees C, 32 degrees C, 37 degrees C (control), respectively. Lowering culture temperature suppressed cell growth but was beneficial to maintain high cell viability for a longer period. In a control culture at 37 degrees C, cell viability gradually decreased and fell below 80% on day 18 while it remained over 90% throughout the culture at low culture temperature. The cumulative EPO production and specific EPO productivity, q(EPO), increased at low culture temperature and were the highest at 32 degrees C and 30 degrees C, respectively. Interestingly, the cumulative EPO production at culture temperature below 32 degrees C was not as high as the cumulative EPO production at 32 degrees C although the q(EPO) at culture temperature below 32 degrees C was comparable or even higher than the q(EPO) at 32 degrees C. This implies that the beneficial effect of lowering culture temperature below 32 degrees C on q(EPO) is outweighed by its detrimental effect on the integral of viable cells. The glycosylation of EPO was evaluated by isoelectric focusing, normal phase HPLC and anion exchange chromatography analyses. The quality of EPO at 32 degrees C in regard to acidic isoforms, antennary structures and sialylated N-linked glycans was comparable to that at 37 degrees C. However, at culture temperatures below 32 degrees C, the proportions of acidic isoforms, tetra-antennary structures and tetra-sialylated N-linked glycans were further reduced, suggesting that lowering culture temperature below 32 degrees C negatively affect the quality of EPO. Thus, taken together, cell culture at 32 degrees C turned out to be the most satisfactory since it showed the highest cumulative EPO production, and moreover, EPO quality at 32 degrees C was not deteriorated as obtained at 37 degrees C.     

Mutagenicity of 8-ethoxycaffeine in vitro : Induction of point mutations in the salmonella/microsome test and of sister-chromatid exchanges as well as chromosomal aberrations in Chinese hamster ovary cells (CHO line)

The caffeine derivative 8-ethoxycaffeine (EOC) was tested in 3 different test systems in vitro. Each experiment was carried out with and without S9 mix. Incubation temperatures were 20 and 37 degrees C. (1) In the Salmonella/microsome test, EOC behaved as a pro-mutagen in the Salmonella typhimurium strain TA1535. No mutagenic activity was found in experiments without S9 mix. The influence of temperature was negligible. The mutagenic activity of EOC depended mainly on the mammals used to prepare the S9 fraction and on the agents given to them to induce liver enzymes. (2) EOC did not induce sister-chromatid exchanges in cell cultures, either at 20 or at 37 degrees C. (3) On the other hand, EOC induced chromosomal aberrations when the cells were incubated at 37 degrees C without S9 mix.     

Characterization of monoclonal B cell growth factor (BCGF) produced by a human T-T hybridoma

We previously demonstrated the development of a cloned human T cell hybridoma that secretes B cell growth factor (BCGF) in the absence of demonstrable interleukin 2 or B cell differentiation factor. Sephadex gel filtration chromatography demonstrated the m.w. of this factor to be 18 to 20K. The present studies were performed to further characterize the biochemical properties of the molecule and to determine its target cell specificity. Temperature stability studies showed the monoclonal BCGF to be stable at 37 degrees C for 12 hr and at 70 degrees C for 15 min; however, most (93%) of the activity was lost after incubation at 70 degrees C for 30 min. Aliquots of hybridoma supernatant were exposed to buffer solutions with variable pH with no diminution in activity over a pH range of 4.0 to 10.0 BCGF activity was not affected by 2-mercaptoethanol, neuraminidase, or nucleic acid denaturing enzymes. In contrast, all activity was destroyed by 10 M urea, trypsin, and chymotrypsin. Chromatofocusing demonstrated the isoelectric point of BCGF to be 6.3 to 6.6. Finally, absorption experiments demonstrated that BCGF activity was absorbed by large, activated B cells. Mitogen-stimulated T cell blasts, small resting B cells, and CESS cells failed to absorb BCGF activity from the hybridoma supernatant. These and future studies with purified monoclonal human BCGF should enhance our understanding of its immunochemical properties and of its role in the immunoregulation of human B cell responses.     

Effect of dose rate on cell killing and DNA strand break repair in CHO cells exposed to internal beta-rays from incorporated [3H]thymidine

Survival as well as repair of DNA strand breaks were studied in CHO cells after exposure to internal beta-rays from incorporated [3H]thymidine at 4 degrees C (equivalent to an exposure at 'infinitely high' dose rate) and at 37 degrees C (low dose rate). DNA strand breaks were determined by the alkaline unwinding technique. In cells exposed at 4 degrees C cell killing was five times higher (Do = 250 decays per cell) than in cells exposed at 37 degrees C (Do = 1280 decays per cell). Strand breaks induced by 3H decay at 37 degrees C were repaired with the same kinetics as those generated at 4 degrees C. Therefore the different degrees of cell killing at 4 degrees C and 37 degrees C cannot be attributed to a difference in the repair kinetics for DNA strand breaks.     

Reorganization of ZO-1 by sodium-dependent glucose transporter activation after heat stress in LLC-PK1 cells

Heat stress (HS) induces activation of high-affinity sodium-dependent glucose transporter (SGLT1) in porcine renal LLC-PK(1) cells. In this study, we investigated the roles of SGLT1 activation in reorganization of zonula occludens-1 (ZO-1), a cytosolic tight junction (TJ) protein, after HS. HS (42 degrees C, 3 h) caused decrease in transepithelial electrical resistance (TER). Subsequent incubation at 37 degrees C for 12 h increased TER above pre-HS level. The treatment of phloridzin, a potent SGLT1 inhibitor, or the replacement of glucose with a nonmetabolizable glucose analog blocked the recovery of TER and increased the transepithelial flux of FITC-dextran (4,000 Da). Immunofluorescent staining of ZO-1 showed that HS diffused ZO-1 from cell contact to cytosolic sites. Furthermore, the fraction of ZO-1 was distributed from the Triton X-100 insoluble to the Triton X-100 soluble pool. After incubation at 37 degrees C for 12 h, cell contact and ZO-1 extractability with Triton X-100 returned to pre-HS conditions, but the recovery was completely prevented by phloridzin. Tyrosine kinases activity was increased by HS that was inhibited by phloridzin. Genistein and CGP77675, tyrosine kinases inhibitors, blocked the recovery of TER and increased the transepithelial flux of FITC-dextran. Furthermore, these inhibitors prevented the recovery of cell contact and ZO-1 extractability with Triton X-100 as same as phloridzin. These findings suggested that the activation of SGLT1 reorganized ZO-1 mediated by elevation of tyrosine kinases activity after heat injury.     

Maximizing interferon-gamma production by Chinese hamster ovary cells through temperature shift optimization: experimental and modeling

The Chinese hamster ovary (CHO) cell line producing interferon-gamma (IFN-gamma) exhibits a 2-fold increase in specific productivity when grown at 32 degrees C compared to 37 degrees C. Low temperature also causes growth arrest, meaning that the cell density is significantly lower at 32 degrees C, nutrients are consumed at a slower rate and the batch culture can be run for a longer period of time prior to the onset of cell death. At the end of the batch, product concentration is doubled at the low temperature. However, the batch time is nearly doubled as well, and this causes volumetric productivity to only marginally improve by using low temperature. One approach to alleviate the problem of slow growth at low temperature is to utilize a biphasic process, wherein cells are cultured at 37 degrees C for a period of time in order to obtain reasonably high cell density and then the temperature is shifted to 32 degrees C to achieve high specific productivity. Using this approach, it is hypothesized that IFN-gamma volumetric productivity would be maximized. We developed and validated a model for predicting the optimal point in time at which to shift the culture temperature from 37 degrees C to 32 degrees C. It was found that by shifting the temperature after 3 days of growth, the IFN-gamma volumetric productivity is increased by 40% compared to growth and production at 32 degrees C and by 90% compared to 37 degrees C, without any decrease in total production relative to culturing at 32 degrees C alone. The modeling framework presented here is applicable for optimizing controlled proliferation processes in general.     

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.