Response of recombinant Chinese hamster ovary cells to hyperosmotic pressure: effect of Bcl-2 overexpression

In an attempt to use the hyperosmotic pressure for improved foreign protein production in recombinant Chinese hamster ovary (rCHO) cells, the response of rCHO cells producing a humanized antibody (SH2-0.32-(Delta)bcl-2 cells) to hyperosmotic pressure was determined in regard to cell growth and death, and antibody production. Further, the feasibility of Bcl-2 overexpression in improving rCHO cell viability under hyperosmotic pressure was also determined by comparing control cells (SH2-0.32-(Delta)bcl-2) with Bcl-2 overexpressing cells (14C6-bcl-2). After 3 days of cultivation in the standard medium (294 mOsm x kg(-1)), the spent medium was exchanged with the fresh media with various osmolalities (294-640 mOsm x kg(-1)). The results obtained show that hyperosmotic pressure inhibited cell growth in a dose-dependent manner, though 14C6-bcl-2 cells were less susceptible to hyperosmotic pressure than SH2-0.32-(Delta)bcl-2 cells. At 522 mOsm x kg(-1), SH2-0.32-(Delta)bcl-2 cells underwent a gradual cell death mainly through apoptosis due to the cytotoxic effect of hyperosmotic pressure. In contrast, Bcl-2 overexpression in 14C6-bcl-2 cells could delay the apoptosis induced by 522 mOsm x kg(-1) by inhibiting caspase-3 activation. Bcl-2 overexpression could also improve the cellular membrane integrity of 14C6-bcl-2 cells. When subjected to hyperosmotic pressure, the specific antibody productivity of SH2-0.32-(Delta)bcl-2 cells and 14C6-bcl-2 cells was increased in a similar extent. As a result, the final antibody concentration achieved in 14C6-bcl-2 cells at 522 mOsm x kg(-1) was 2.5-fold higher than that at 294 mOsm x kg(-1). At 580 mOsm x kg(-1), acute hyperosmotic pressure induced the rapid loss of viability in both SH2-0.32-(Delta)bcl-2 and 14C6-bcl-2 cells through necrosis rather than through apoptosis. Taken together, Bcl-2 overexpression and optimized hyperosmotic pressure could improve the antibody production of rCHO cells.     

Inhibition of sodium butyrate-induced apoptosis in recombinant Chinese hamster ovary cells by constitutively expressing antisense RNA of caspase-3

Sodium butyrate (NaBu) can enhance the expression of genes controlled by some of the mammalian promoters, but it can also inhibit cell growth and induce cellular apoptosis. Thus, the beneficial effect of using a higher concentration of NaBu on a foreign protein expression is compromised by its cytotoxic effect on cell growth. To overcome this cytotoxic effect of NaBu, the expression vector of antisense RNA of caspase-3 was constructed and transfected to recombinant Chinese hamster ovary (rCHO) cells producing a humanized antibody. Using this antisense RNA strategy, rCHO cells (B3) producing a low level of caspase-3 proenzyme were established. When batch cultures of both B3 cells and control cells transfected with antisense RNA-deficient plasmid were performed in the absence of NaBu, both cells showed similar profiles of cell growth and antibody production. Compared with control cell culture, under the condition of 5 mM NaBu addition at the exponential growth phase, expression of antisense RNA of caspase-3 significantly suppressed the NaBu-induced apoptosis of B3 cells and extended culture longevity by >2 days if the culture was terminated at cell viability of 50%. However, compared with control cell culture, the final antibody concentration of B3 cell culture was not increased in the presence of NaBu, which may be due to the loss of cellular metabolic capability resulted from the depolarization of mitochondrial membrane. Taken together, this study suggests that, although expression of antisense RNA of caspase-3 does not improve antibody productivity of rCHO cells, it can suppress NaBu-induced apoptotic cell death of rCHO cells and thereby may reduce problems associated with cellular disintegration.     

Inducible expression of Bcl-XL inhibits sodium butyrate-induced apoptosis in hybridoma, resulting in enhanced antibody production

Sodium butyrate (NaBu) can increase the specific Mab production rate of hybridomas by enhancing histone hyperacetylation and influencing the cell cycle, but it can also inhibit cell growth and induce apoptosis. Thus, the beneficial effect of NaBu on Mab secretion is compromised by its cytotoxic effect. In the present study, expression of the anti-apoptotic protein human Bcl-XL was made inducible in hybridoma H18 to overcome the cytotoxic effect of NaBu, circumventing the detrimental effects of constitutive high-level expression. We constructed an expression vector in which the promoter of a mammalian metallothionein (MT) gene drove the expression of bcl-XL in response to metal exposure. The vector was then used to exogenously control the expression of bcl-XL in H18 hybridoma cells. Our data showed that stably transfected H18.D4 cells expressed high levels of Bcl-X(L), which was induced within 24 h of addition of ZnSO4. NaBu (0.4 mM) increased antibody production by more than 3-fold in H18.D4. This effect resulted from the suppression of NaBu-induced apoptosis, allowing the H18.D4 cells to grow at higher viability and extending culture longevity by >3 days.     

Enhanced human thrombopoietin production by sodium butyrate addition to serum-free suspension culture of bcl-2-overexpressing CHO cells

When sodium butyrate (NaBu) was added to serum-free suspension culture of recombinant CHO (rCHO) cells for enhanced expression of human thrombopoietin (hTPO), apoptotic cell death of rCHO cells was induced in a dose-dependent manner and hTPO quality was deteriorated in regard to sialic acid and acidic isoform contents. To overcome these problems, we overexpressed Bcl-2 protein, an antiapoptotic protein, in rCHO cells producing hTPO. Compared to serum-free suspension culture of control cells without Bcl-2 overexpression (R-neo cells) and NaBu addition, a more than 10-fold increase in the maximum hTPO concentration was obtained in serum-free suspension culture of cells with Bcl-2 overexpression (R-bc12-14 cells) and 3 mM NaBu addition. Both the enhanced specific productivity endowed by NaBu and the extended culture longevity provided by the antiapoptotic effect of Bcl-2 overexpression contributed to the enhancement of maximum hTPO concentration. The problem of quality reduction of hTPO induced by NaBu was not solved by Bcl-2 overexpression, but it was not that significant. Compared to the culture in the absence of NaBu, the percentage of hTPO isoforms in pI 3-5 with high in vivo biological activity produced by R-bc12-14 cells was decreased by approximately 18% in the presence of 3 mM. As a result, a more than 6-fold increase in the production of hTPO isoforms in pI 3-5 was achieved in R-bcl2-14 cell culture with 3 mM NaBu addition. Taken together, the data obtained suggest that Bcl-2 overexpression in rCHO cells and NaBu addition in serum-free suspension culture can be an effective means to enhance the production of highly glycosylated protein such as hTPO.     

H18杂交瘤抗凋亡能力的改造

利用PCR从pGEMTbcl-X_L质粒中获得bcl-X_L基因,构建真核表达载体pEF-bcl-X^{L,脂质体法转染杂交瘤细胞,G418筛选稳定表达株,Western blotting检测目的蛋白表达,流式细胞仪检测Bcl-X_L提高杂交瘤抗正丁酸钠诱导凋亡的功能。 将构建的编码鼠bcl-X_L基因的真核表达载体pEF-bcl-X_L,转染H18细胞后,获得稳定的表达株细胞;稳定表达Bcl-X_L的细胞具有抗正丁酸钠诱导凋亡的功能。鼠bcl-X_L基因在杂交瘤细胞中稳定表达,提高了杂交瘤抗凋亡的能力,对高密度大规模培养杂交瘤细胞具有重要意义。}     

Influence of down-regulation of caspase-3 by siRNAs on sodium-butyrate-induced apoptotic cell death of Chinese hamster ovary cells producing thrombopoietin

Sodium butyrate (NaBu) can enhance the expression of foreign protein of recombinant Chinese hamster ovary (rCHO) cells, but it can also inhibit cell growth and induce cellular apoptosis. Thus, the beneficial effect of using a higher concentration of NaBu on foreign protein expression in rCHO cells is compromised by its growth inhibitory and cytotoxic effects. To overcome this cytotoxic effect of NaBu, an expression vector of small interfering RNAs (siRNAs) targeting against caspase-3, a key effector component in apoptosis, was constructed and transfected into rCHO cells producing human thrombopoietin (hTPO). Using this siRNA strategy, rCHO cells (F21 cells) expressing a low level of caspase-3 proenzyme determined by RT-PCR and Western blot analysis were established. Under the condition of 1-5 mM NaBu addition at the exponential growth phase, down-regulation of caspase-3 in F21 cells could not effectively inhibit NaBu-induced apoptotic cell death. This NaBu-induced apoptotic cell death occurred because F21 cells appeared to compensate for the lack of caspase-3 by increasing the active caspase-7 level. These results suggest that the intracellular caspase's interconnectivity should be taken into consideration for the successful inhibition of apoptosis of rCHO cells.     

Bcl-2 mediated suppression of apoptosis in myeloma NS0 cultures

The influence of Bcl-2 expression on the suppression of apoptosis during the cultivation of an NS0 cell line expressing a chimeric antibody was investigated. Following selection of transfectants in medium containing G418, Western analysis revealed evidence of some up-regulation of endogenous Bcl-2 expression even in the control vector transfectants. Cultivation of the two cell lines in suspension batch cultures clearly demonstrated the enhanced robustness of the bcl-2 vector transfected cells. Suppression of apoptosis resulted in an approximately 20% increase in maximum viable cell number, and a doubling in culture duration compared to the control transfected cells. However, despite the significant affect on viability, Bcl-2 expression did not result in an increase in final antibody titre in comparison with the control cell line. Exposure of cells to various nutrient limited conditions further emphasised the influence of Bcl-2 on cell survival. After 3 days of exposure to serum, glucose, glutamate and asparagine deprivation, the viable cell number and viability were significantly higher in the bcl-2 transfected cell line. When control cells were deprived of all amino acids, there was a complete loss of viability and viable cell number within 3 days. By contrast, the bcl-2 transfected cell line retained greater than 75% of the initial viable cell number and about 70% viability. In response to exposure to 8 mM thymidine (a cytostatic agent) the control cell line underwent complete loss of viability and viable cell number after 6 days. This compared with 18 days for complete loss of viability in the bcl-2 transfected cell line. As under batch culture conditions, there was no difference between the two cell lines in final antibody titre, which indicated that MAb synthesis is limited by nutrient availability during the latter stages of culture in both cases. When fed batch cultures were carried out using a concentrated essential amino acid feed, the bcl-2 cell line exhibited a 60% increase in maximum viable cell number and a 50% increase in culture duration, when compared to the control cell line. Moreover, the bcl-2 cell line exhibited a greater than 40% increase in maximum antibody titre.     

The combined effect of sodium butyrate and low culture temperature on the production,sialylation, and biological activity of an antibody produced in CHO cells

Cell cultures containing 0 ∼ 5 mM sodium butyrate (NaBu) and grown at 30 and 37°C were conducted to investigate the combined effect of NaBu and low temperature on the quantity and quality of an antibody production in CHO cells. Although NaBu addition decreased cell viability by apoptosis in a dose-dependent manner at both 30 and 37°C, the onset of significant apoptosis induced by NaBu was delayed by lowering culture temperature. The highest specific antibody productivity (q _p) of 23.26 pg/cell/day was obtained in the culture containing 2 mM NaBu at 30°C; however, the highest antibody concentration of 167.84 mg/L was achieved in the culture containing 1 mM NaBu at 30°C, as the detrimental effect of further NaBu addition on cell growth compromised its beneficial effect on q _p. Moreover, protein quality with respect to the total sialic acid content and Nglycolylneuraminic acid (Neu5Gc) level was evaluated. There were no apparent changes regarding the total sialic acid content of the antibody, but manipulation of cultures with NaBu treatment or (and) low culture temperature did decrease Neu5Gc levels by 5 ∼ 10%. Biological activity of the antibody was also assessed, and no obvious changes were observed. Collectively, the simultaneous application of NaBu and low culture temperature was an effective way to extend culture period and enhance final antibody concentration, without compromising the sialic acid content or biological activity.     

Growth factor withdrawal in combination with sodium butyrate addition extends culture longevity and enhances antibody production in CHO cells

The effect of growth factor (GF) and sodium butyrate (NaBu) on Chinese hamster ovary (CHO) cell growth, cell viability and antibody production was investigated using shaking flasks in GF-containing and GF-deficient medium containing 0, 1 and 3 mM NaBu. The withdrawal of GF and the addition of NaBu suppressed cell growth, but they significantly increased specific antibody productivity, q_Ab. Interestingly, the withdrawal of GF in combination with the addition of NaBu markedly retarded cell death, leading to extended culture longevity. For instance, at 3 mM NaBu, cell viability fell below 80% after day 4 in GF-containing medium, but it remained over 80% until day 18 in GF-deficient medium. Due to the enhanced q_Ab and the extended culture longevity, approximately 2-fold increase in total antibody production was achieved in pseudo-perfusion culture with 1 mM NaBu in GF-deficient medium, compared to the culture in GF-containing medium. The effect of GF and NaBu on the change in the expression and activity of cellular proteins, c-Myc, Bcl-2 and pyruvate dehydrogenase (PDH), was also investigated. Both the withdrawal of GF and the addition of NaBu decreased the expression of c-Myc. The expression of Bcl-2 was enhanced by the addition of NaBu in a dose-dependent manner while it was not affected by the withdrawal of GF. In addition, both the withdrawal of GF and the addition of NaBu reduced metabolic rates, q_Glc, q_Lac and Y_Lac/Glc, and increased PDH activity while not affecting PDH expression, suggesting that they may reduce the glycolytic rates, but enhance the conversion rates of pyruvate to TCA intermediates. Taken together, the withdrawal of GF in combination with the addition of NaBu can be considered as a relevant strategy for alleviating NaBu-induced cell apoptosis and enhancing antibody production since it can be easily implemented as well as enhance q_Ab and extend culture longevity.     

Co-expression of bcl-2 and bag-1, apoptosis suppressing genes, prolonged viable culture period of hybridoma and enhanced antibody production

Human bcl-2 and bag-1 DNA were introduced into mouse hybridoma 2E3- O cells and expressed. The expression of bcl-2 in BCMGneo-bcl2 transfectants was confirmed by ELISA and that of bag-1 in pZeo-bag1 was confirmed by western blotting. In batch cultures, the over-expression of bcl-2 prolonged the culture period by 2 days and co-expression of bcl-2 and bag-1 prolonged the culture period by 3 days. The delayed increase in the dead cell number in culture of the bcl-2 and bag-1 cotransfectant indicated the additional antiapoptosis effect of bcl-2 and bag-1 cotransfection in comparison with the bcl-2 only transfection. The bcl-2 transfectants (2E3O-Bcl2) produced antibody twofold per batch culture in comparison with 2E3-O cells transfected with BCMGSneo (2E3O-Mock). Enhancement of this MoAb production was due to the improved survival of the cells and was not due to stimulation of antibody production rate per cell by Bcl-2 expression. And the bcl-2 and bag-1 co-transfectant (2E3O-Bcl2-BAG1) produced antibody approximately fourfold of 2E3O-Mock per batch culture. Enhancement of this MoAb production was due to the improved survival of the cells and was partly due to stimulation of MoAb production rate per cell in the non-growing phase by the cotransfection. The method to engineer hybridoma cells genetically with bcl-2 and bag-1 for increasing viability and productivity would be widely applied for improving antibody productivity of hybridoma cultures. This revised version was published online in August 2006 with corrections to the Cover Date.     

Biphasic culture strategy based on hyperosmotic pressure for improved humanized antibody production in Chinese hamster ovary cell culture

Hyperosmotic pressure increased specific antibody productivity (q(Ab)) of recombinant Chinese hamster ovary (rCHO) cells (SH2-0.32) and it depressed cell growth. Thus, the use of hyperosmolar medium did not increase the maximum antibody concentration substantially. To overcome this drawback, the feasibility of biphasic culture strategy was investigated. In the biphasic culture, cells were first cultivated in the standard medium with physiological osmolality (294 mOsm/kg) for cell growth. When cells reached the late exponential growth phase, the spent standard medium was replaced with the fresh hyperosmolar medium (522 mOsm/kg) for antibody production. The q(Ab) in growth phase with the standard medium was 2.1 microg per 10(6) cells/d, whereas the q(Ab) in antibody production phase with the hyperosmolar medium was 11.1 microg per 10(6) cells/d. Northern blot analysis showed a positive relationship between the relative contents of intracellular immunoglobulin messenger ribonucleic acid and q(Ab). Because of the enhanced q(Ab) and the increased cell concentration in biphasic culture, the maximum antibody concentration obtained in biphasic culture with 522 mOsm/kg medium exchange was 161% higher than that obtained in batch culture with the standard medium. Taken together, the simple biphasic culture strategy based on hyperosmotic culture is effective in improving antibody production of rCHO cells.     

Improving heterologous protein expression in transfected Drosophila S2 cells as assessed by EGFP expression

Drosophila melanogaster S2 cells were co-transfected with plasmid vectors containing the enhanced green fluorescent protein gene (EGFP), under the control of metallothionein promoter (pMt), and the hygromycin selection gene, in view of establishing parameters for optimized gene expression. A protocol of transfection was worked out, leading after hygromycin selection, to ∼90% of S2MtEGFP fluorescent cells at day 5 after copper sulfate (CuSO₄) induction. As analyzed by confocal microscopy, S2MtEGFP cell cultures were shown to be quite heterogeneous regarding the intensity and cell localization of fluorescence among the EGFP expressing cells. Spectrofluorimetry kinetic studies of CuSO₄ induced S2MtEGFP cells showed the EGFP expression at 510 nm as soon as 5 h after induction, the fluorescence increasing progressively from this time to attain values of 4.6 × 10⁵ counts/s after 72 h of induction. Induction with 700 μM of CuSO₄ performed at the exponential phase of the S2MtEGFP culture (10⁶ cells/mL) led to a better performance in terms of cell growth, percent of fluorescent cells and culture intensity of fluorescence. Sodium butyrate (NaBu) treatment of CuSO₄ induced S2MtEGFP cell cultures, although leading to a loss of cell culture viability, increased the percent of EGFP expressing cells and sharply enhanced the cell culture fluorescence intensity. The present study established parameters for improving heterologous protein expression in stably transfected Drosophila S2 cells, as assessed by the EGFP expression.     

Variable functions of bcl-2 in mediating bioreactor stress- induced apoptosis in hybridoma cells

It has been demonstrated that the cell lines used for production of biopharmaceuticals are highly susceptible to apoptosis, and that over-expression of the bcl-2 oncogene can protect cells from death. Stress associated with the deprivation of nutrients has been shown to be the main cause of apoptosis in culture. We have extended these studies by investigating the mechanism of cell death under conditions of sub-optimal pH, shear stress and hyperosmolarity, and the protective action of bcl-2 over-expression. At pH 6, there was no clear evidence of protection from cell death. However, at pH 8, the viability of the bcl-2 transfected cells was about 20% higher relative to the control cells. Cultivation of control cells in a flat bottomed bioreactor with a magnetic stirrer bar without a pivot ring resulted in exposure of the cells to a high attrition effect. As a result, cell growth was retarded and a high level of cell death by apoptosis was observed. Under the same conditions, the bcl-2 transfected cell line exhibited a nearly five fold increase in viable cell number. This finding indicates that under apoptosis-suppressed conditions, shear stress can stimulate cell growth. Batch cultivation of both control and bcl-2 transfected cells in 350 and 400 mOsm media resulted in suppression of cell growth, athough the effect was most marked in the control cell line. Adaptation of control cells to 400 mOsm proved to be impossible to achieve. However, the bcl-2 transfected cells exhibited resistance to the osmotic stress resulting in long term adaptation to a high salt environment. Specific productivity of bcl-2 transfected cells grown in high osmolarity medium was 100% higher than that produced by non- adapted bcl-2 transfected cells grown in normal osmolarity medium. These results demonstrate that bcl-2 has a beneficial effect on hybridoma cultivation under a wide range of culture stresses. This revised version was published online in August 2006 with corrections to the Cover Date.     

IBDV多聚蛋白基因真核表达质粒的构建与表达

将IBDV上海超强毒株的多聚蛋白基因(vp2-4-3)克隆入真核表达载体pALTER-MAX,构建成功pALTER-MAX-VP2-4-3真核表达质粒,经纯化后,pALTER-MAX-VP2-4-3在Lipofectamie^TM2000介导下转染Vero细胞、11日龄鸡胚的绒毛尿囊膜(CAM)和肌肉注射2日龄的雏鸡,1周后,分别提取细胞或组织中的总DNA或总RNA,用DIG标记探针均可检测到阳性杂交信号;转染的Vero细胞飞片和肌肉冰冻切片,进行免疫荧光检测均呈现阳性结果;转染的鸡胚CAM匀浆上清,用兔抗IBDV超强毒的高免血清,经Dot—ELISA检测呈现阳性。表明转染后基因获得表达,表达的蛋白具有免疫反应性。     

Enhancement of survivability of mammalian cells by overexpression of the apoptosis-suppressor gene bcl-2

Cell lines derived from the hemopoetic lineages are widely used as hosts for the production of biologicals. These cell lines have been demonstrated to undergo high levels of the active death program commonly referred to as apoptosis. The effects of overexpression of the apoptosis suppressor gene bcl-2 on the properties of a Burkitt lymphoma were compared with the control cell line (transfected with a negative control plasmid) under a variety of conditions relevant to cell culture production technology. In stationary batch cultures, there was a clear reduction in both the rate of total cell death and the level of apoptosis during the decline phase of the bcl-2 transfected cell cultures as compared with that of the control cell cultures. Nutrient analysis revealed that the onset of death during the control cell cultures occurred following complete exhaustion of glutamine. However, the bcl-2 transfected cell cultures continued to grow even though glutamine had been exhausted, and a significant decline in viability only occurred when glucose had also been completely exhausted.When cells were cultured in suspension without prior adaptation, the bcl-2 transfected cells grew significantly better, suggesting that the bcl-2 gene protected the cells from apoptosis triggered by either the lack of substrate or the hydrodynamic environment. Fluorescence microscopy revealed that death of the control cells was almost entirely by apoptosis, whereas death was almost exclusively by necrosis in the delayed decline phase of the transfected cell cultures. In both instances, death occurred before total exhaustion of glucose and glutamine.The induction of apoptosis following growth arrest is a major impediment to the development of culture strategies that optimize specific productivity by reducing the growth rate. Results presented here suggest that suppression of apoptosis by bcl-2 under the condition of excess thymidine allows the maintenance of cells in a growth-arrested state for much longer than would otherwise be possible.When cells were transferred to a range of commercial serum-free media, cell growth was, in all cases, much better for the bcl-2 transfected cell line. Moreover, when cells were cultivated in glutamine-free medium, the control cells exhibited a decrease in viable cell number within the first 24 h whereas, for the bcl-2 transfected cell cultures, viable cell number did not exhibit any clear decrease until after 75 h. Clearly, these results indicate that the metabolic engineering approach can be used to alter advantageously the survival and proliferative capacity of cells in cell culture environments. (c) 1996 John Wiley & Sons, Inc.     

Influence of bcl-2 on antibody productivity in high cell density perfusion cultures of hybridoma

Apoptosis is an active, genetically determined death mechanism which can be induced by a wide range of physiological factors and by mild stress. It is the predominant form of cell death during the production of antibodies from murine hybridoma cell lines. A number of studies have now demonstrated that the suppression of this death pathway, by means of over-expression of survival genes such as bcl-2, results in improved cellular robustness and antibody productivity during batch culture. In the present study, the influence of bcl-2 expression on hybridoma productivity in two high density perfusion bioreactor systems was investigated. In the first system, a fixed-bed reactor, the DNA content in the spent medium was 25% higher in the control (TB/C3-pEF) culture than that found in the bcl-2 transfected (TB/C3-bcl2) cultures at all perfusion rates. This is indicative of a higher level of cell death in the control cell line. The average antibody concentration for the TB/C3-pEF cell line was 14.9 mg L-1 at perfusion rates of 2.6 and 5.2 d-1. However, for the TB/C3-bcl2 cell line it was 33 mg L-1 at dilution rates of 2 and 4 d-1. A substantial increase in antibody concentration was also found in the Integra Tecnomouse hollow fibre reactor. The antibody titre in the TB/C3-bcl2 cassette was nearly 100% higher than that in the TB/C3-pEF cassette during the cultivation period which lasted 6 weeks. Clearly, these results demonstrate the positive impact of bcl-2 over-expression on production of antibody in hybridoma perfusion cultures. This revised version was published online in July 2006 with corrections to the Cover Date.     

Effect of sodium butyrate on the production, heterogeneity and biological activity of human thrombopoietin by recombinant Chinese hamster ovary cells

Human thrombopoietin (hTPO) is a heavily glycosylated protein with 6 and 24 potential N- and O-glycosylation sites, respectively. To determine the effect of sodium butyrate (NaBu) on the production and quality of hTPO in recombinant Chinese hamster ovary (rCHO) cells, NaBu (0-10 mM) was added to the cultures of exponentially growing cells. NaBu addition significantly increased both the specific and volumetric hTPO production, although it decreased the cell viability by apoptosis in a dose-dependent manner. The highest hTPO concentration of 82.2 +/- 5.6 microgml-1 was obtained in the culture with 3 mM NaBu addition. Compared with the culture without NaBu addition, the culture with 3 mM NaBu resulted in a 6.4-fold increase in qTPO and a 3.3-fold increase in the final hTPO concentration on day 7. However, NaBu deteriorated the quality of hTPO, resulting from increased heterogeneity, reduced acidic hTPO isoforms, reduced alpha(2 --> 3) sialylation, and decreased in vivo biological activity. We also found that the biological activity of hTPO in the culture with 3 mM NaBu addition collected on day 7 was 72% of that in the culture without NaBu addition. Taken together, the use of NaBu or its optimal concentration for high-level expression of a heavily glycosylated protein like hTPO should be determined by considering its detrimental effect on the quality of glycoprotein.     

外源p21~(WAF1)转染对人成纤维细胞凋亡的影响

构建了有义和反义ｐ２１ＷＡＦ１ 逆转录病毒表达载体, 分别经脂质体包裹后转染人胚肺二倍体成纤维细胞（２ＢＳ）。Ｓｏｕｔｈｅｒｎ 印迹杂交证实转染细胞中外源ｐ２１ ＷＡＦ１ｃＤＮＡ 已整合入基因组中。与空载体转染细胞相比, 有义转染细胞的ｐ２１ＷＡＦ１ ｍ ＲＮＡ 表达上升; 细胞增殖速度明显减慢; 对丁酸钠诱导凋亡的敏感性降低, 表现在细胞存活率升高, 核ＤＮＡ 梯状断裂片段出现的时间滞后, 断裂片段浓度下降, 流式细胞计检测的凋亡峰面积缩小。而反义转染细胞的ｐ２１ＷＡＦ１ ｍ ＲＮＡ表达下降; 细胞增殖速度较快; 对丁酸钠诱导凋亡的敏感性上升, 有关表现与有义转染细胞相反。说明２ＢＳ细胞内ｐ２１ＷＡＦ１ 的表达量与其被丁酸钠诱导凋亡的能力呈负相关。     

Epi-CHO, an episomal expression system for recombinant protein production in CHO cells

This study describes the development of a transient expression system for CHO cells based on autonomous replication and retention of transfected plasmid DNA. A transient expression system that allows extrachromosomal amplification of plasmids permits more plasmid copies to persist in the transfected cell throughout the production phase leading to a significant increase in transgene expression. The expression system, named Epi-CHO comprises (1) a CHO-K1 cell line stably transfected with the Polyomavirus (Py) large T (LT) antigen gene (PyLT) and (2) a DNA expression vector, pPyEBV encoding the Py origin (PyOri) for autonomous plasmid amplification and encoding Epstein-Barr Virus (EBV) nuclear antigen-1 (EBNA-1) and OriP for plasmid retention. The CHO-K1 cell line expressing PyLT, named CHO-T was adapted to suspension growth in serum-free media to facilitate large-scale transient transfection and recombinant gene expression. Enhanced green fluorescent protein (EGFP) and human growth hormone (hGH) were used as reporter proteins to demonstrate transgene expression and productivity. Transfection of suspension-growing CHO-T cells with the vector pPyEBV encoding hGH resulted in a final concentration of 75 mg L(-1) of hGH in culture supernatants 11 days following transfection.