A perfusion system for antibody production by shear-sensitive hybridoma cells in a stirred reactor

Summary A shear-sensitive hybridoma cell line, incapable of growth or antibody production in spinner or shake flasks agitated at 40 rpm, was grown successfully in a perfusion propagation system consisting of a bioreactor (1.5 liter), stirred with a cell-lift impeller at 60 rpm, and a tangential flow filtration unit for removal of spent culture medium from the reactor. The culture was maintained over a 48 day period and cell numbers reached 1.8 × 10⁷ cells/ml. Maximal monoclonal antibody concentration was 800 ug/ml, indicating a productivity of 504 mg/day.     

A new serum-free medium for monoclonal antibody production

A new serum-free, defined-protein, medium for the growth of murine hybridoma cells and the production of monoclonal antibodies has been developed. Designated WRC 935 medium, this formulation supports the growth of hybridoma cells in higher numbers, and promotes better cell viabilities and increased monoclonal antibody levels compared to growth in DMEM supplemented with 10% fetal bovine serum or in a DMEM/F-12 serum-free mixture. In suspension cultures, WRC 935 medium typically promoted cell growth to densities over two million cells per milliliter. This medium also promoted the rapid growth of cells following their transfer from liquid nitrogen storage. WRC 935 medium is especially useful for high density cell culture production methods using hollow-fiber bioreactors. Hollow-fiber bioreactors using this medium produced antibody at an average rate of 11 mg/day, and the antibody concentration ranged from 10 to 40 mg/ml.     

Bovine colostrum or milk as a serum substitute for the cultivation of a mouse hybridoma

A mouse-mouse hybridoma was grown in serum-free medium supplemented with bovine milk or colostrum. Bovine colostrum supported growth of the hybridoma whereas bovine milk alone did not support cellular proliferation. For growth in medium supplemented with colostrum, the maximum cell concentration achieved was 1.4 x 10(6) cells/mL in 2.2% colostrum, which is 44% of that obtained in 9% serum. When cells were grown in media containing milk and low amounts of serum (<1%) the maximum cell concentration in 2.2% milk with 0.4% serum was 2 x 10(6) cells/ml, whereas it was only 0.2 x 10(6) cells/ml and 1.3 x 10(6) cells/ml in 2.2% milk alone and 0.4% serum alone, respectively. Similar behavior was observed for growth in media containing colostrum and low amounts of serum. The monoclonal antibody production in media containing combinations of serum and milk or colostrum was comparable to that obtained in media with higher serum concentrations. Experiments performed with conditioned media suggest that the rapid decrease in viability, after the maximum cell concentration has been reached, is partially due to the presence of some inhibitory components generated during the cell culture rather than due to depletion of some serum components.     

Contribution of CD54 to human eosinophil and neutrophil superoxide production.

We have reported that CD54 on eosinophils is involved in eosinophil degranulation. However, the role of CD54 in eosinophil and neutrophil superoxide production is still uncertain. We assessed the effect of CD54 on eosinophils and neutrophils in recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF)- or phorbol myristate acetate (PMA)-induced superoxide production through CD18. Anti-CD54 monoclonal antibody attenuated leukocyte aggregation and superoxide production of rGM-CSF- or PMA-stimulated neutrophils and PMA-stimulated eosinophils. Anti-CD18 monoclonal antibody or theophylline attenuated superoxide production of eosinophils and neutrophils stimulated by either stimuli. Flow cytometric analysis demonstrated CD54 expression on freshly isolated neutrophils but not on freshly isolated eosinophils. CD54 newly expressed on eosinophils reached its peak expression 30 min after PMA stimulation. The increase in CD18 and CD54 expression on neutrophils caused by rGM-CSF stimulation was partially inhibited by theophylline. These data demonstrated that CD54 and CD18 interaction of eosinophils or neutrophils is involved in superoxide production and that the inhibition of superoxide production by theophylline may be at least partly due to the inhibition of CD54 and CD18.     

Engineering of a mammalian cell line for reduction of lactate formation and high monoclonal antibody production

Lactate and ammonia are the two major waste products formed during mammalian cell growth. Accumulation of these side products can have a negative effect on cell growth, and has drawn recent attention because of their inhibitory effects on the specific product synthesis rate. Our aim is to reduce lactate formation in the cell culture by genetically manipulating of the pathway of lactate synthesis with an aim to achieve high monoclonal antibody production. We have partially disrupted the LDH-A gene by homologous recombination in hybridoma cells (ATCC-CRL-1606). The cells that received the newly introduced DNA were selected by G418, and an LDH-deficient cell was identified by a screening method based on medium color changing in 96-well plates. A variant cell, LDH-neo21, was identified through this screening method and was characterized. The specific productivity of lactate by LDH-neo21 cells was 50% lower than that of parental cells. Intracellular LDH enzyme activity was significantly reduced. The cell growth was improved both in terms of cell density and cell viability. Total cell density potentially reached 5 x 10(6) cells/mL while the parental hybridoma cells had a cell density of 3.5 x 10(6) cells/mL, which represented a 30% increase. The antibody production of LDH-neo21 cells was threefold greater than that of parental cells during 5-day batch culture. Polymerase chain reaction (PCR) results showed that at least one copy of the LDH-A gene was disrupted in the LDH-neo21 cells. The variant of the hybridoma cell exhibited a significant advantage of reduced lactate formation in the cell culture with a high concentration of glucose, which led to a higher production of monoclonal antibody. 2001 John Wiley & Sons, Inc.     

Retinoic acid improves a hybridoma culture in a fructose-based medium by up-regulation of fructose incorporation via retinoid nuclear receptors

Fructose was focused on as an alternative sugar source to glucose in a hybridoma culture medium because it decreases lactate production during cultivation, leading to cell and product stability. But, not all human hybridoma cell lines grew well in a fructose-based serum-free medium. We found that the addition of all-trans-retinoic acid to the fructose-based medium improved the growth and monoclonal antibody production of hybridoma cell lines by up-regulation of fructose incorporation that represented increased expression of the fructose transporter, GLUT5. Selective activation of retinoid nuclear receptor by synthetic ligands showed that both retinoic acid receptors and retinoid X receptors might be related to the improvement of the fructose-based hybridoma culture. This study might be applicable to cell cultures susceptible to lactate and pH changes as well as hybridoma cultures.     

Preparation of human salivary alpha-amylase specific monoclonal antibody

A mouse hybridoma cell line which produced an anti-human salivary alpha-amylase monoclonal antibody was obtained by fusion between mouse spleen cells immunized with human salivary alpha-amylase and mouse myeloma cells, followed by screening the hybridoma cells by enzyme-linked immunosorbent assay. The hybridoma cell line (27-4-1) secreted IgG. The monoclonal antibody produced by the hybridoma showed no inhibitory effect on the activity of human salivary alpha-amylase. The specificity and reactivity of this monoclonal antibody were examined by determining the activities of human salivary and pancreatic alpha-amylases bound to the monoclonal antibody immobilized on polystyrene balls or by enzyme immunoassay with the monoclonal antibody conjugated with beta-D-galactosidase. The results revealed that the monoclonal antibody produced by the hybridoma cell line was specific for salivary alpha-amylase and absolutely unreactive to pancreatic alpha-amylase.     

Production and properties of a monoclonal antibody against human epidermal growth factor

A monoclonal antibody against human epidermal growth factor (hEGF) was obtained from a mouse hybridoma cell line. The purified monoclonal antibody from the ascites fluid of a mouse injected with one of the cell lines was specific for hEGF and did not cross-react with mouse EGF (mEGF). Its Kd value for hEGF was 1.4 X 10(-9) M. This monoclonal antibody inhibited the biological activities of hEGF, including its binding to the receptor of BALB/3T3 cells and its stimulation of DNA synthesis in the cells, but did not affect the activities of mEGF. The monoclonal antibody completely inhibited DNA synthesis stimulated by human urine from a patient without a tumor, but only partially inhibited the stimulatory activity in urine from a tumor-bearing patient.     

Retinoic Acid Improves a Hybridoma Culture in a Fructose-Based Medium by Up-Regulation of Fructose Incorporation via Retinoid Nuclear Receptors

Fructose was focused on as an alternative sugar source to glucose in a hybridoma culture medium because it decreases lactate production during cultivation, leading to cell and product stability. But, not all human hybridoma cell lines grew well in a fructose-based serum-free medium. We found that the addition of all-trans-retinoic acid to the fructose-based medium improved the growth and monoclonal antibody production of hybridoma cell lines by up-regulation of fructose incorporation that represented increased expression of the fructose transporter, GLUT5. Selective activation of retinoid nuclear receptor by synthetic ligands showed that both retinoic acid receptors and retinoid X receptors might be related to the improvement of the fructose-based hybridoma culture. This study might be applicable to cell cultures susceptible to lactate and pH changes as well as hybridoma cultures.     

Hybridoma cells in a protein-free medium within a composite gel perfusion bioreactor

A composite gel system has been developed combining the chemical and physical properties of calcium alginate and agarose gels. The results of growing composite gel immobilized hybridoma SPO1 cells in a protein-free medium within a fluidized-bed perfusion bioreactor are presented in this paper. During the continuous operation of this system, the total cell density reached 3.9×10⁷ cells per ml of beads (viability 79.6%). The specific productivity of monoclonal antibody of the immobilized hybridoma cells reached more than 1.5 g per 10⁶ viable cells per hour, compared with 0.5 for non-immobilized viable cells grown in a one liter agitated bioreactor with the same medium. Significant increases in cell metabolic activities, including substrate utilization and byproduct formation, were also observed. Leaching of materials from the beads was evident and the major fraction of released materials was alginate.     

Cultivation of hybridoma cells in continuous cultures: kinetics of growth and product formation

Mouse hybridoma cells were grown in suspension in continuous stirred bioreactors. Cell growth, substrate utilization, and monoclonal antibody (MAb) production were studied using serum-free medium. Steady-state data were obtained at different dilution rates, between 0.012 and 0.039 h(-1) Viability was profoundly affected by dilution rate, particularly near the lower end of the dilution-rate range investigated. MAb concentration and productivity went through a maximum with respect to dilution rate. Lactate yield on glucose declined with in creasing dilution rate. Experiments were carried out to study the effects of medium glucose concentration on cell growth, product formation, and lactate yield on glucose. Reduction of glucose concentration in the feed medium did not considerably affect cell density and MAb concentration in the culture, but lactate levels dropped sharply; lactate yield on glucose declined substantially, indicating alterations in cell metabolic path ways for energy metabolism. Optimization strategy for continuous cell culture is discussed.     

Manipulation of heterogeneous hybridoma cultures for overproduction of monoclonal antibodies.

In searching for ways to manipulate heterogeneous hybridoma cell cultures (ATCC HB124) to obtain increased production of monoclonal antibodies (IgG2a), we have selected for a higher secreting but slower growing subpopulation using the level of fluorescent surface-associated antibodies and a fluorescence-activated cell sorter. Cell surface fluorescence was found to be correlated with specific antibody secretion rate over the short term but not with intracellular antibody content. Also, the specific secretion rate of a heterogeneous population of hybridoma cells grown in batch culture has been shown to be inversely correlated with an increase in either the initial cell concentration or the medium antibody concentration. Several experiments suggest that an upper limit exists for medium antibody concentration, above which antibody is degraded at the same rate at which it is produced. Should other cell lines behave similarly, strategies for overproduction of monoclonal antibodies suggested herein could be profitably used in industry.     

Modulation of hybridoma formation by dexamethasone

In an effort to determine the effect of dexamethasone on hybridoma formation, spleen cells from BALB/c mice hyperimmunized with sheep red blood cells (SRBC) were fused with mouse plasmacytoma cells (P3U1) in the presence of polyethylene glycol (PEG). Dexamethasone was added in decreasing doses (10(-3) to 10(-9) mM) to the hypoxanthine-aminopterin-thymide (HAT) medium immediately after the PEG-mediated cell fusion. 10(-3) mM of this steroid was found to inhibit markedly the number and size of hybridoma clones generated, while 10(-5) mM dexamethasone was shown to enhance hybridoma formation. The effect of 10(-3) mM dexamethasone was most pronounced when added immediately after fusion. When this dose was given 48 or 120 h after cell fusion, the extent of the inhibitory effect was less pronounced. High concentration of dexamethasone may also inhibit monoclonal antibody production by hybridomas once generated. An increase in the number of clones formed was observed when 10(-5) mM dexamethasone was added to HAT medium as well as an increase in the average colony size. Large clones were also observed with lower dexamethasone doses ranging from 10(-7) to 10(-9) mM. Possible mechanisms on the effect of dexamethasone on hybridoma formation are discussed.     

Hybridoma cultures using porcine serum not containing immunoglobulin and dialysis fractions

The whole swine serum was treated with ammonium sulphate to precipitate immunoglobulins. The remained IgG was removed with the use of protein A-sepharose. The hybridoma cells producing monoclonal antibodies to lambda phage (class IgG) were cultured in Dalbecco's modified Eagle medium with addition of a 5% whole swine serum or of a treated unwhole one (final concentration of the protein being 3 mg/ml). Upon these conditions, hybridoma cells had similar growth rate and population density (1-1.3 X 10(6) cells/ml). Maximal antibody concentration was almost similar (80-90 mcg/ml). Purity of a sample of monoclonal antibodies isolated by the method of chromatography with the use of protein A-sepharose from supernatant containing the unwhole serum was no less than 99%, whereas it was considerably lower (12-15%) in the case of the whole serum.     

Production of rat monoclonal antibody from rat x mouse hybridoma cell lines using microencapsulation technology

Summary The cell growth and monoclonal antibody production characteristics of two rat x mouse heterohybridoma cell lines, designated 187.1 and M1/9.3, were investigated using a biocompatible microencapsulation technology. Both cell lines, derived from the fusion of immunized rat spleen cells with either the NS1 or X63Ag8.653 myeloma cell lines, were found to reach a maximum intracapsular cell density of 1.3 to 1.5×10⁷ cells/ml during a 27-d culture period. During this period, rat monoclonal antibody accumulated in the intracapsular space of both cultures to a final concentration of 2.0 to 2.8 mg/ml. Comparison of the concentration of rat monoclonal antibody in the extracapsular vs. the intracapsular space of both cultures indicated that significantly less than 1% of the antibody produced by the encapsulated hybridoma cells was capable of transiting the microcapsule membrane during the culture period. Due to the partition of the rat monoclonal antibody within the intracapsular space, the initial purity of the antibody harvested from 21-d microcapsule cultures of 187.1 and M1/9.3 cells was approximately 48 and 75% by weight, respectively. Analysis of the intracapsular protein by sodium dodecyl sulfoxide gel electrophoresis at different times during the culture period demonstrated that the principal contaminant associated with the unpurified antibody was bovine serum albumin.     

无牛血清IgG细胞培养基（—GFCS培养基）的制备及其在杂交瘤细胞体外培养中的应用

为了制备不含牛血清IgG的细胞培养基（－GFCS培养基）,并研究其在杂交瘤细胞体外培养中的应用,采用蛋白G亲和层析的方法,将含有血清的细胞培养基中的牛血清IgG去除,以制备无IgG的培养基。使用该培养基体外培养杂交瘤细胞后,监测细胞生长和上清抗体浓度。对培养上清中的IgG类单克隆抗体可以采用蛋白G亲和层析进行纯化。与示去除牛血清IgG的培养基相比,－GFCS培养基培养的杂交瘤细胞的生长状况及上清抗体浓度均无明显变化;从－GFCS培养上清中成功纯化出不被血清IgG污染的IgG类单克隆抗体,本文结果表明,采用－GFCS培养基体外培养分泌IgG类单抗的杂交瘤细胞,可以简化上清抗体的纯化工艺。     

Enhanced monoclonal antibody production in hybridoma cells by LPS and Anti-mIgG

This paper reports on a methodology for increasing proliferation and monoclonal antibody (mAb) production in hybridoma cultures. The 55-6 murine B cell hybridoma line (CD40 and CD19-deficient expression) was treated with increasing concentrations of lipopolysaccharide (LPS). Expression of CD69, CD40, and CD19 surface antigens on 55-6 cells did not show significant changes from untreated cells. The specific growth rate decreased at higher concentrations of LPS, but the monoclonal antibody production rate was highest at the highest LPS concentration assayed. These data are in agreement with the lowest growth rate found at this concentration of LPS. Furthermore, cells were cultured with anti-mouse surface immunoglobulin G antibody (anti-mIgG) plus LPS to find out whether LPS-derived signals and anti-mIgG stimuli are synergistic. CD69, CD40, and CD19 expression was greater than for either untreated cells (control culture) or cells stimulated with LPS alone. Moreover, LPS stimulation in combination with anti-mIgG enhanced both the growth rate and IgG2a production over the control culture and cells stimulated with LPS alone. Maximum antibody concentration increased almost 500% compared to the control and about 100% with respect to culture stimulated with LPS alone. The maximum specific IgG2a production rate was about 300% higher than in the control culture and about 30% higher than in culture stimulated only with LPS.     

表达抗-CD25单克隆抗体的GS-NS0骨髓瘤细胞无血清培养及代谢特性

抗-CD25单克隆抗体作为免疫抑制剂拥有广阔的市场前景和巨大的经济价值。本实验以表达抗?CD25单克隆抗体的GS-NS0细胞为研究对象,开发了支持其大规模培养和抗体表达的无血清低蛋白培养基,批培养最大活细胞密度和最大抗体浓度分别达3×106cells/mL和300mg/L以上,比商业无血清培养基(Excell 620+0.2% primatone)分别提高了100%和46%。通过批培养实验,研究了细胞的生长、葡萄糖和氨基酸代谢、以及产物表达特点,并揭示了批培养过程中初始葡萄糖浓度对GS-NS0细胞生长与代谢的影响规律。为优化GS-NS0细胞培养过程和抗CD25单抗成功迈向产业化提供了重要的科学依据。     

The effect of the catalytic topoisomerase II inhibitor dexrazoxane (ICRF-187) on CC9C10 hybridoma viability and productivity

The effect of dexrazoxane on monoclonal antibody (Mab) production by CC9C10 hybridoma cells was investigated. Dexrazoxane is a catalytic inhibitor of DNA topoisomerase II. DNA topoisomerase II has a critical role in DNA metabolism and its inhibition by dexrazoxane can prevent completion of cytokinesis. Incubation of hybridomas with dexrazoxane was found to increase specific monoclonal antibody production by up to four-fold. However, due to the growth inhibitory effects of dexrazoxane the total Mab yield decreased by 40%. Under high density culture conditions(defined here as 10⁶ cells ml^-1) specific monoclonal antibody production increased by up to 37%, which was, however, accompanied by up to a 48% decrease in Mab yield. Hybridomasthat were incubated with dexrazoxane significantly increased in size due to the inhibition of cytokinesis. Dexrazoxane was also observed to induce a delayed apoptosis in the hybridomas. The caspase inhibitor Z-VAD-fmk slightly decreased the apoptotic effects of dexrazoxane. Preincubation with the caspase inhibitorZ-Asp-CH2-DCB had no effect on dexrazoxane-treated hybridomas, but it did have antiapoptotic effects on the untreated hybridomas which normally undergo a significant basal level of apoptosis. In conclusion, dexrazoxane-induced growth inhibition (which results in higher specific antibody production) and apoptosis inhibition (which results in prolonged viability) has the potential to significantly enhance the productivity of hybridoma cell cultures. This revised version was published online in August 2006 with corrections to the Cover Date.     

Feasibility study on the use of calcium alginate-entrapped hybridoma cells for IgM production

In order to test the feasibility of using calcium alginate-entrapped hybridoma cells for IgM production, HO-22-1 hybridoma cells entrapped into calcium alginate beads with varying alginate concentrations were cultivated in spinner flasks. It was observed that the IgM produced by the entrapped cells could diffuse out of the calcium alginate beads regardless of alginate concentrations tested (0.8–2.5%). Since the increase in alginate concentrations showed an adverse effect on cell growth and maximum cell concentration, the use of lower alginate concentration was desirable for higher volumetric monoclonal antibody (MAb) productivity. When the entrapped cells in 0.8% alginate beads were cultivated in repeated-fed batch mode, the reduction of serum concentration in the medium from 10% to 1% did not decrease the volumetric IgM production. Taken together, the data obtained here showed the feasibility of using calcium alginate-entrapped hybridoma cells for IgM production.Alginate was generously provided by the Kelco company. This work was supported by the Ministry of Science and Technology, Korea.