Human Cytotoxic T-lymphocyte Antigen 4-immunoglobulin Research Articles

α2,6-Sialyltransferase 과발현을 통한 인간형 시알산 부가 hCTLA4-Ig 생산 CHO 세포주 제작

Sialylation is important in producing therapeutic proteins such as antibody, cytokine and fusion protein. Thus, enhancement of sialylation is usually performed in CHO cell cultures. α2,6-Sialyltransferase (ST), which plays a key role in the attachment of α2,6-sialic acid, is present in human cells but not in Chinese hamster ovary (CHO) cells. Overexpression of α2,6-ST can be used for enhancing the degree of sialylation and achieving human-like glycosylation. In this study, we constructed CHO cells producing human cytotoxic T-lymphocyte antigen4-immunoglobulin (hCTLA4-Ig) as well as α2,6- ST. Transfected CHO cells were selected using G418 and stable cell line was established. Profiles of viable cell density and hCTLA4-Ig titer in an overexpressed cell line were similar to those of a wild-type cell line. It was confirmed that the total amount of sialic acid was increased and α2,6-sialic acid was attached to the terminal residues of N-glycan of hCTLA4-Ig by ESI-LC-MS. Compared to 100% of α2,3-sialic acid in wild type cells, 70.9% of total sialylated N-glycans were composed of α2,6-sialic acid in transfected cells. In conclusion, overexpression of α2,6-ST in CHO cells led to the increase of both the amount of total sialylated N-glycan and the content of α2,6- sialic acid, which is more resemble to human-like structure of glycosylation.

Effective delivery of siRNA to transgenic rice cells for enhanced transfection using PEI-based polyplexes

Various polymers were used as transfection factors for small interfering RNA (siRNA) to effectively suppress human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) gene in transgenic rice cells. Five kinds of polymers (PEI, PVA, PVP, and 8 and 20 kDa PEGs) were applied for delivery of siRNA with lipofectamine used as a control. In the cytotoxicity test, all polymers except 8 kDa PEG showed nontoxicity in relation to cell viability. For transfection efficiency, polyplexes composed of siRNA and PEG (20 kDa) did not significantly reduce production of intracellular hCTLA4Ig. On the other hand, siRNA + PEI polyplexes showed the most effective suppression efficiency with regards to production of intracellular hCTLA4Ig among all other polyplexes (PVA, PVP, and PEG (8 kDa)). Effects of molecular weight ratios of siRNA:PEI were investigated to obtain optimal transfection efficiency and avoid excessive damage to cells. PEI-based polyplexes with a 1:10 ratio of siRNA:PEI reduced production of intracellular hCTLA4Ig up to 70.6% without alteration of cell viability. These results demonstrate that PEI-based polyplexes are easy to prepare, inexpensive, non-toxic, and effective to deliver siRNA to transgenic plant cell cultures.

형질전환 벼 현탁세포 배양에서 hCTLA4Ig의 in situ 회수

In this research, recombinant human cytotoxic Tlymphocyte antigen 4-immunoglobulin (hCTLA4Ig) was produced by transgenic rice cells. RAmy3D promoter was used for overcome the limitation of low expression level in transgenic plant cells, and the secretion of target protein was accomplished by signal peptide. However, the RAmy3D promoter system which can be induced only by sugar starvation causes the decrease of cell viability. As a result, cell death promotes the release of protease which degrades the target proteins. The protein stability and productivity can be significantly influenced by proteolysis activity. Therefore, development of new strategies are necessary for the in situ recovery of target proteins from cell culture media. In this study, in situ recovery was performed by various strategies. Direct addition of Protein A resin with nylon bag leads to cell death by increased shear stress and decrease in production of hCTLA4Ig by protease. Medium exchange through modified flask could recover hCTLA4Ig with high cell viability and low protease activity, on the other hand, the productivity was lower than that of control. When in situ recovery was conducted at day 7 after induction in air-lift bioreactor, 1.94-fold of hCTLA4Ig could be recovered compared to control culture without in situ recovery. Consequently, in situ recovery of hCTLA4Ig from transgenic rice cell culture could enhance productivity significantly and prevent degradation of target proteins effectively.

형질전환 벼 현탁세포 배양에서 투과성 증진을 통한 hCTLA4Ig의 생산성 증대

In this system, rice cells were genetically modified to express human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) using RAmy3D promoter induced by sugar depletion. Even though the target protein fused with signal sequence peptide, plant cell wall can be a barrier against secretion of recombinant proteins. Therefore, hCTLA4Ig can be trapped inside cell wall or remained in intracellular space. In this study, to enhance the secretion of hCTLA4Ig from cytoplasm and cell walls into the medium, permeabilizing agents, such as dimethyl sulfoxide (DMSO), Triton X-100 and Tween 20, were applied in transgenic rice cell cultures. When 0.5% (v/v) of DMSO was added in sugar-free medium, intracellullar hCTLA4Ig was increased, on the other hand, the secreted extracellular hCTLA4Ig was lower than that of control. DMSO did not give permeable effects on transgenic rice cell cultures. And Triton X-100 was toxic to rice cells and also did not give enhancing permeability of cells. When 0.05% (v/v) Tween 20 was added in rice cell cultures, however, intracellular hCTLA-4Ig was lower than that of control cultures. And the maximum 44.76 mg/L hCTLA4Ig was produced for 10 days after induction, which was 1.4-fold increase compared to that of control cultures. Especially, Tween 20 at 0.05% (v/v) showed the positive effect on the secretion of hCTLA4Ig though the decrease of intracellular hCTLA4Ig. Also, Tween 20 as a non-toxic surfactant did not affect the cell growth, cell viability and protease activity. In conclusion, secretion of hCTLA4Ig could be increased by enhancing permeability of cells regardless of the cell growth, cell viability and protease activity.

Glycan structure and serum half-life of recombinant CTLA4Ig, an immunosuppressive agent, expressed in suspension-cultured rice cells with coexpression of human β1,4-galactosyltransferase and human CTLA4Ig.

Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) is an immunosuppressive therapeutic, and recently produced rice cell-derived hCTLA4Ig (hCTLA4Ig(P)) reportedly exhibits in vitro immunosuppressive activities equivalent to those of Chinese hamster ovary cell-derived hCTLA4Ig (hCTLA4Ig(M)). However, limitations of hCTLA4Ig(P) include shortened in vivo half-life as well as the presence of nonhuman N-glycans containing (β1-2)-xylose and α1,3-fucose, which cause immunogenic reactions in humans. In the present study, human β1,4-galactose-extended hCTLA4Ig(P) (hCTLA4Ig(P)-Gal) was expressed through the coexpression of human β1,4-galactosyltransferase (hGalT) and hCTLA4Ig in an attempt to overcome these unfavorable effects. The results indicated that both encoding hGalT and hCTLA4Ig were successfully coexpressed, and the analysis of N-glycan and its relative abundance in purified hCTLA4Ig(P)-Gal indicated that not only were the two glycans containing (β1-4)-galactose newly extended, but also glycans containing both β1,2-xylose and α1,3-fucose were markedly reduced and high-mannose-type glycans were increased compared to those of hCTLA4Ig(P), respectively. Unlike hCTLA4Ig(P), hCTLA4Ig(P)-Gal was effective as an acceptor via (β1-4)-galactose for in vitro sialylation. Additionally, the serum half-life of intravenously injected hCTLA4Ig(P)-Gal in Sprague-Dawley rats was 1.9 times longer than that of hCTLA4Ig(P), and the clearance pattern of hCTLA4Ig(P)-Gal was close to that for hCTLA4Ig(M). These results indicate that the coexpression with hGalT and hCTLA4Ig(P) is useful for both reducing glycan immunogens and increasing in vivo stability. This is the first report of hCTLA4Ig as an effective therapeutics candidate in glycoengineered rice cells.

형질전환 벼 현탁세포 배양에서 세포 사멸 억제를 통한 hCTLA4Ig 생산성 증대

Transgenic plant cell cultures are an attractive expression system for the production of industrial and pharmaceutical proteins because of their advantages in safety and low production cost. Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) was produced and secreted when sugar was depleted in culture medium by transgenic rice cell lines (Oryza sativa L.) using RAmy3D promoter. Due to the production of the target protein by sugar depletion, concomitant occurrence of cell death is inevitable. For that reason, inhibition of cell death for enhancing productivity was necessary for the production period without energy sources. Supplementation of 0.1 mM sodium nitroprusside improved cell viability by 1.4-fold and maximum hCTLA4Ig production by 1.3-fold compared to those of control. Addition of 1 and 10 mM glutathione, N-acetylcysteine (NAC), and nicotinamide inhibited apoptotic-like programmed cell death by decreasing the activity of reactive oxygen species. Production hCTLA4Ig was enhanced 1.4-, 1.25-, and 1.15-fold with 10 mM NAC, 1 mM NAC, and 1 mM glutathione, respectively. In addition, it was found that the supplementation of NAC enhanced the cell viability.

Assessment of long-term cryopreservation for production of hCTLA4Ig in transgenic rice cell suspension cultures

For the commercialization of plant-made pharmaceuticals (PMPs) using transgenic plant cell cultures, the establishment of a cell-banking system has been known to be an essential process. Plant cells are traditionally maintained by repeated subcultures. However, this method has several problems including genetic instability of transformed cell lines, time- and cost-consuming. In this study, long-term cryopreserved rice suspension cells were firstly investigated for the production of human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig). The cryopreserved cells for 5 years were regrowed to callus successfully and then suspended into the liquid medium. Consequently, the maximum cell mass and the hCTLA4Ig production were similar levels compared to those of the non-cryopreserved cells (control) even though hCTLA4Ig productivity was 1.7-fold higher than that of control. To further assess the level of improvements in hCTLA4Ig productivity in cryopreserved cells, hCTLA4Ig production profiles were statistically assessed between data of the cryopreserved cells for 5 years and annual data of non-cryopreserved cells maintained by subculture for 5 years. These results also indicate that hCTLA4Ig productivity in cryopreserved cells for 5 years was significantly increased (p-value: <0.001, 95% confidence interval) and it could be related to cell lysis resulting in release of hCTLA4Ig which was confirmed by the measurement of electrolyte leakage. In conclusion, we show that the long-term cryopreservation of transgenic rice cells was possible to support stable cell lines for the production of PMPs.

Bioreactor engineering using disposable technology for enhanced production of hCTLA4Ig in transgenic rice cell cultures

Two kinds of disposable bioreactors, air-lift disposable bioreactors (ADB) and wave disposable bioreactors (WDB) were compared with stirred-tank reactors (5-L STR). These bioreactors were successfully applied to transgenic rice cell cultures for the production of recombinant human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig). In both systems, a fed-batch culture method was used to produce hCTLA4Ig efficiently by feeding concentrated amino acids and production levels were enhanced when dissolved oxygen (DO) level was regulated at 30% using pure oxygen sparging. Agitation and aeration rate during cultivation in ADB and WDB were determined by the same mixing time. The results in both disposable bioreactors showed similar values in maximum cell density (11.9 gDCW/L and 12.6 gDCW/L), doubling time (4.8- and 5.0-day), and maximum hCTLA4Ig concentration (43.7 and 43.3 mg/L). Relatively higher cell viability was sustained in the ADB whereas hCTLA4Ig productivity was 1.2-fold higher than that in WDB. The productivity was improved by increasing aeration rate (0.2 vvm). Overall, our experiments demonstrate pneumatically driven disposable bioreactors are applicable for the production of recombinant proteins in plant cell cultures. These results will be useful for development and scale-up studies of disposable bioreactor systems for transgenic plant cell cultures.

Process Characterization of hCTLA4Ig Production in Transgenic Rice Cell Cultures Using a 3-L Bioreactor

Most of the technical know-how and experience of bioreactor engineering is applicable to plant cell cultures. In this study, transgenic rice cell cultures using RAmy3D promoter were used for the production of human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig). In process aspect, the rice cells during production phase are strongly influenced by hydrodynamic stresses, such as shear stress and bubble burst. Therefore, the effects of agitation and aeration rates on cell growth and hCTLA4Ig production were investigated in a 3-L multi-bioreactor. By increasing over 240 rpm, the detrimental effects on cell growth and hCTLA4Ig production were observed. At an aeration rate of 0.3 vvm, relative cell viability sharply decreased 2 days earlier than those of lower aeration rates. In addition, it was confirmed that the specific yields and the specific productivity at 0.3 vvm were superior to those values at 0.05 vvm. Overall, higher aeration rate showed the improved hCTLA4Ig production in combination experiment. High aeration rates in general, however, have an undesired effect as excessive aeration was found to negatively affect the quality of hCTLA4Ig. Consequently, the hydrodynamic conditions must be tightly regulated during bioreactor operation in order to enhance hCTLA4Ig productivity and quality in transgenic rice cell cultures.

Adsorptive loss of secreted recombinant proteins in transgenic rice cell suspension cultures

Adsorptive loss of human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) in transgenic rice cell suspension cultures was investigated using glass flasks, plastic flasks, disposable vessels, and stainless steel vessels. When hCTLA4Ig was added to the glass flasks containing sterile AA medium, a rapid decrease in the concentration of hCTLA4Ig, independent on pH, was observed resulting in more than 90% of the protein loss within 1 h due to the surface adsorption. When the same experiments were performed on four different types of culture equipments mentioned above, the lowest adsorption level was observed in the plastic flasks and the highest level was observed in the glass flasks. The use of the plastic flasks retarded the adsorptive loss of hCTLA4Ig at the early stage of the protein production. There was a significant increase in the production of hCTLA4Ig when the flasks were coated with bovine serum albumin. However, the spike test of purified hCTLA4Ig at two different concentrations of 15 and 100 mg L(-1) in 500-mL spinner flasks confirmed that the amount of hCTLA4Ig adsorbed was dependent on the surface area of the flasks but not on the concentrations. In conclusion, although the protein adsorption affected the total amount of the protein yielded to some extent, it could be regarded as a minor factor in transgenic plant cell cultures with higher titer.

Sodium butyrate와 sodium pyruvate 첨가에 의한 hCTLA4Ig 생산성 증대

Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig), an immunosuppressive agent, was expressed in transgenic rice cells using RAmy3D promoter and RAmy1A signal peptide for the inducible production and secretion into culture media by sugar depletion. In this study, sodium butyrate was used as a small molecular enhancer (SME) to enhance the production of hCTLA4Ig in transgenic rice cell suspension cultures. When 1 mM sodium butyrate was added in sugar-free media, relative viability was not reduced, while the productivity was improved 1.3-fold. In addition, by supplementing 87 mM sodium pyruvate as an alternative energy source during the production phase, death rate of the cells was decreased. When sodium pyruvate was not added, most cells became dead at day 6. However, by adding sodium pyruvate, 18% of viability can be maintained until day 10 and the production of hCTLA4Ig was enhanced 1.4-fold. When the combination of sodium pyruvate and sodium butyrate at optimum concentrations was added, the highest viability and hCTLA4Ig production could be obtained. The highest level of hCTLA4Ig reached up to 35 mg/L at day 10.

Fed-batch cultivation of transgenic rice cells for the production of hCTLA4Ig using concentrated amino acids

RAmy3D promoter is capable of expressing high levels of recombinant proteins in response to the depletion of sugar in transgenic rice cell suspension cultures. For this reason, it is necessary to change the growth medium into sugar-free production medium to produce the target protein, human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig), using the inducible RAmy3D promoter. Since the two-stage culture is a complex process to perform in large-scale, a fed-batch method was evaluated with the addition of concentrated amino acids before the depletion of sugar to induce hCTLA4Ig production. This fed-batch culture was found to be effective and the production of hCTLA4Ig was enhanced up to 1.2-fold compared to that of two-stage cultures with medium exchange. In addition, when this fed-batch culture was performed in a 15-l stirred-tank bioreactor, maximum hCTLA4Ig level was 76.5 mg l −1 at day 10.

Effects of culture media on hCTLA4Ig production and protein expression patterns in transgenic rice cell suspension cultures

The effects of culture media on the production of human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) and intracellular protein expression patterns were investigated in transgenic rice cell suspension cultures. Using comparative proteomic analysis, changes in the intracellular proteome in different culture media were identified. Culture media were found to be an important factor for the production of the recombinant target protein in this expression system, which was under the control of the rice α-amylase 3D (RAmy3D) promoter. In terms of hCTLA4Ig production, the N6 medium produced a 3.7-fold higher level of protein than the AA medium. In addition, the N6 medium provided better protein stability and cell viability. In the intracellular proteome analysis, we identified eight proteomes that were differentially expressed. These results could provide valuable information for the improvement of cell growth and target protein production.

Cryopreservation of transgenic rice suspension cells producing recombinant hCTLA4Ig

Transgenic suspension cells of Oryza sativa L. cv. Dongjin utilized as a host for producing recombinant human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) were preserved in liquid nitrogen (-196 degrees C) after slow prefreezing in a deep freezer (-70 degrees C). The development of an optimal procedure for long-term storage was investigated by the addition of various concentrations of cryoprotectant mixture and osmoticum in preculture media before cooling. A pre-deep-freezing time of 120 min was the most effective for maintaining cell viability. Compared with mannitol, sorbitol, trehalose, and NaCl under the same osmotic conditions, 0.5 M sucrose was found to be the best osmoticum for preculture media. The cryoprotectant comprising sucrose, glycerol, and dimethylsulfoxide (DMSO) was applied to the precultured cells, and a combination of 1 M sucrose, 1 M glycerol, and 1 M DMSO provided the best result. The viability with this optimized condition was 88% after cryocell-banking for 1 day. The expression of hCTLA4Ig in recovered callus from cryopreservation was also kept stable, and the production level was similar to that observed in noncryopreserved cultures.

The Glycosylation and Pharmacokinetics of CTLA4Ig Produced in Rice Cells

Cytotoxic T-lymphocyte antigen 4-immunoglobulin (CTLA4Ig) has immunosuppressive activity and the ability to induce immune tolerance. There has been no report of its glycosylation ratio or of the role of its glycans. We investigated the terminal sialylation of rice cell-derived recombinant human CTLA4Ig (rrhCTLA4Ig) using lectins. The glycosylation ratios of rrhCTLA4Ig and Chinese hamster ovary (CHO) cell-derived recombinant human CTLA4Ig (crhCTLA4Ig) were evaluated by chemical deglycosylation. After intravenous (i.v.) or subcutaneous (s.c.) administration to rats, the pharmacokinetics of rrhCTLA4Ig and crhCTLA4Ig as well as of their deglycosylated forms were evaluated. rrhCTLA4Ig does not have terminal sialic acids and its glycosylation ratio was slightly lower than that of crhCTLA4Ig. Its terminal elimination half-life (T(1/2)) was shorter than that of crhCTLA4Ig following i.v. administration. However, the half-life was significantly prolonged and was similar with that of crhCTLA4Ig following s.c. administration. Moreover, the deglycosylated forms of both preparations were cleared from the circulation faster than the native forms. These results suggest that the presence of glycans on rrhCTLA4Ig and crhCTA4Ig are important for their in vivo stability. In addition, the glycan structure of rrhCTLA4Ig is more effective in maintaining in vivo stability after s.c. administration than after i.v. administration although the glycans on rrhCTLA4Ig lack terminal sialic acids, suggesting that its glycans have the potential for in vivo stability.

Production and characterization of human CTLA4Ig expressed in transgenic rice cell suspension cultures

Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) fusion protein, a novel immunosuppressive agent, was expressed in transgenic rice cell suspension culture and its characteristics and in vitro activities were investigated. The expression vector pMYN409 was constructed to express hCTLA4Ig under the control of rice α-amylase 3D (RAmy3D) promoter. Transgenic calli were prepared by particle bombardment mediated transformation and were screened for hCTLA4Ig expression using ELISA. Under the induction condition by sugar starvation, suspension-cultured rice cells secreted hCTLA4Ig into the media up to 31.4 mg/L in flask culture. The rice-derived hCTLA4Ig (hCTLA4Ig P) was purified from the culture media with affinity chromatography using protein A and compared with CHO-derived hCTLA4Ig (hCTLA4Ig M). Recombinant hCTLA4Ig P has molecular weight of ∼50 kDa on SDS–PAGE under reducing condition, which is a little different from that of hCTLA4Ig M probably due to the difference of carbohydrate chain structures. Purified hCTLA4Ig P was biologically active and was confirmed to suppress T-cell proliferation.