Application of anoxia with glucose addition for the enhanced production of hCTLA4Ig in transgenic rice suspension cell cultures

To enhance the production of hCTLA4Ig in transgenic rice suspension cell cultures, anoxic conditions were applied during the production phase. Under the anoxic conditions in sugar-depleted media, cell viability was reduced rapidly and protease activity increased compared to aerobic conditions. However, the maximum production level of hCTLA4Ig with sugar-depleted anoxic conditions was the same as that in aerobic conditions. In addition, the production of hCTLA4Ig under anoxic conditions reached a peak 2 days earlier than that in aerobic conditions. Addition of 30 mM glucose at the production phase under anoxic conditions markedly improved cell viability. A viability level over 65% could be maintained for more than 30 days. Repression of the RAmy3D promoter by residual sugar in the production of hCTLA4Ig was not observed under anoxic conditions with 30 mM glucose. In addition, the production periods of hCTLA4Ig was extended up to 30 days and the maximum production level of hCTLA4Ig under anoxic conditions was 2.1-fold higher. Therefore, anoxic conditions could be used for the enhanced production of hCTLA4Ig in transgenic rice cell cultures.     

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 silkworm hemolymph on cell viability and hCTLA4Ig production in transgenic rice cell suspension cultures

Silkworm hemolymph (SH), prepared from fifth-instar larvae of Bombyx mori and heat-treated at 60 degrees C for 30 min, was used to improve cell viability and the production of human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) in transgenic Oryza sativa L. cell suspension cultures. Even though SH could not elevate cell viability at the concentrations up to 3% (v/v), addition of 0.3% (v/v) SH to a culture medium enhanced the production of hCTLA4Ig by 36.8% over an SH-free medium. Moreover, the production period of hCTLA4Ig could be shortened in a 0.3% (v/v) SHadded medium compared with that in an SH-free culture. As a result, addition of 0.3% (v/v) SH improved the productivity of hCTLA4Ig significantly in transgenic rice cell cultures.     

Characterization of human cytotoxic T lymphocyte-associated antigen 4-immunoglobulin (hCTLA4Ig) expressed in transgenic rice cell suspension cultures

The avidity for CD80Ig/CD86Ig and the in vitro immunosuppressive effect of recombinant human cytotoxic T lymphocyte-associated antigen 4-immunoglobulin, produced by transgenic rice cell suspension cultures (hCTLA4Ig^P) with CHO-derived recombinant hCTLA4Ig (hCTLA4Ig^M), were measured. Surface plasmon resonance (SPR) was used for kinetic binding analysis: hCTLA4Ig^P and hCTLA4Ig^M had higher avidity for CD80Ig/CD86Ig than for CD28Ig, and the avidity for CD80Ig/CD86Ig was similar. hCTLA4Ig^P and hCTLA4Ig^M had similar in vitro immunosuppressive activity against the expression of T cell-derived cytokines, such as IL-2, IL-4, and IFN-γ, but did not suppress the expression of macrophage-derived cytokines, including TNF-α and IL-1β, as well as NO. Thus the immunosuppressive mechanism of hCTLA4Ig^P is also T cell-specific and it could therefore be used as an immunosuppressive agent with an equivalent potency to that of hCTLA4Ig^M.     

Comparative proteomic analysis for hCTLA4Ig production in transgenic rice suspension cultures using two-dimensional difference gel electrophoresis

The new technology, two-dimensional difference gel electrophoresis (2D DIGE), uses fluorescent dyes to simplify the process of detecting and matching proteins between multiple gels by allowing for the separation of up to three separate protein samples within the same gel. In this study, recombinant human cytotoxic T lymphocyte-associated antigen 4-immunoglobulin (hCTLA4lg) was produced in transgenic rice suspension cell cultures and the intracellular proteins were analyzed by 2D DIGE. The highest level of hCTLA4Ig (25.4 mg/L) was obtained five days after induction. The intracellular proteins expressed at both the growth and induction culture stages were separated and analyzed using DeCyder software. At least 2,218 spots were detected with two-fold thresholds and 95% confidence. We found that 29 spots increased and 20 spots decreased in their intensities during the production of recombinant hCTLA4Ig. In addition, the 2D Western blot of hCTLA4Ig revealed that this fusion protein was expressed in a variety of isoforms.     

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.     

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.     

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.     

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

Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4I g) 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 hCTLA4I g under the control of rice alpha-amylase 3D (RAmy3D) promoter. Transgenic calli were prepared by particle bombardment mediated transformation and were screened for hCTLA4I g expression using ELISA. Under the induction condition by sugar starvation, suspension-cultured rice cells secreted hCTLA4I g into the media up to 31.4 mg/L in flask culture. The rice-derived hCTLA4Ig (hCTLA4IgP) was purified from the culture media with affinity chromatography using protein A and compared with CHO-derived hCTLA4Ig (hCTLA4IgM). Recombinant hCTLA4IgP has molecular weight of approximately 50 kDa on SDS-PAGE under reducing condition, which is a little different from that of hCTLA4IgM probably due to the difference of carbohydrate chain structures. Purified hCTLA4IgP was biologically active and was confirmed to suppress T-cell proliferation.     

Skin-specifically transgenic expression of biologically active human cytoxic T-lymphocyte associated Antigen4-Immunoglobulin (hCTLA4Ig) in mice using lentiviral vector

Xenogeneic skin, especially porcine skin, has already been used to cover large wounds in clinic practice of wound care. Our previous data showed that transgenic expression of human cytoxic T-lymphocyte associated antigen4-immunoglobulin (hCTLA4Ig) in murine skin graft remarkably prolonged its survival in xenogeneic burn wounds without extensive immunosuppression in recipients, suggesting that transgenic hCTLA4Ig expression in skin graft may be an effective and safe method to prolong its survival in xenogeneic wounds for coverage. Lentiviral transgenesis provides an extremely efficient and cost-effective method to produce transgenic animals. However, tissue-targeted transgenic expression of biologically functional protein by lentiviral transgenesis is rarely reported. In this work, a recombinant lentiviral vector (LV), named FKCW in this article, was constructed by inserting a skin-specific hCTLA4Ig expression cassette consisting of keratin 14 (K14) promoter, hCTLA4Ig coding sequence and an intronic fragment. Its efficacy for transgenesis and skin-specific expression of bio-active hCTLA4Ig protein was tested using mice as models. The LV FKCW was readily to be packaged and concentrated to high titres (1.287-6.254 × 10(9) TU/ml) by conventional lentivirus package system. Using eggs collected from only five mated females having been subjected to conventional super-ovulation treatment, 8 hCTLA4Ig transgenic founder mice were generated with the concentrated FKCW vector, and transgenic founder per injected and transferred egg was 6.3%, which was nearly 9-fold higher than that for DNA micro-injection with a similar transgene construct in our previous work. The lentiviral transgenic hCTLA4Ig exhibited strictly skin-specific expression at a level comparable to or even slightly higher than that of transgenic hCTLA4Ig delivered by micro-injection in a similar cassette. Lentiviral transgenic hCTLA4Ig protein remarkably suppressed human lymphocyte proliferation in vitro to a degree comparable to that of commercially purchased purified hCTLA4Ig protein with defined activity at similar concentrations. Besides, lentiviral hCTLA4Ig transgenic mouse skin grafted into rat burn wounds exhibited remarkably extended survival compared to wild-type skin of the same strain (13.8 ± 3.8 vs. 6.8 ± 3.0 days), indicating that lentiviral transgenic hCTLA4Ig did inhibit immune rejection against xenogeneic skin graft in vivo. These results laid down the foundation to further efficiently generate transgenic pigs skin-specifically expressing bio-active hCTLA4Ig by lentiviral transgenesis, and provided a demonstration that transgenic animals with tissue-targeted expression of biologically functional protein can be efficiently produced using LV.     

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 °C) after slow prefreezing in a deep freezer (−70 °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.     

皮肤组织特异性表达hCTLA4-Ig转基因小鼠品系的建立

为研究皮肤特异性高效表达hCTLA4-Ig分子对移植皮肤存活及受体免疫功能的影响,充分实现hCTLA4-Ig分子在皮肤移植中的免疫调控功能,利用K14（角蛋白14）基因启动子,构建了hCTLA4-Ig分子皮肤组织特异性表达载体,并通过受精卵原核显微注射技术制备了K14／hCTLA4-Ig转基因小鼠并建立了品系。通过RT-PCR和Northern blot分析表明,hCTLA4-Ig在转基因小鼠体内呈皮肤组织特异性高效表达;以GAPDH基因的表达量为内部参照分析表明,hCTLA4-Ig的表达水平在不同世代之间以及转基因个体的不同生命时相点之间保持相对恒定,说明皮肤组织特异性稳定表达hCTLA4-Ig的转基因小鼠品系已被建立。     

Histological and mechanical evaluation of antifreeze peptide (Afp1m) cryopreserved skin grafts post transplantation in a rat model

The objective of this study was to evaluate the use of Afp1m as a cryopreservative agent for skin by examining the transplanted skin histological architecture and mechanical properties following subzero cryopreservation. Thirty four (34) rats with an average weight of 208 ± 31 g (mean ± SD), were used. Twenty four (n = 24) rats were equally divided into four groups: (i) immediate non-cryopreserved skin autografts (onto same site), (ii) immediate non-cryopreserved skin autografts (onto different sites), (iii) skin autografts cryopreserved with glycerol for 72 h and (iv) skin autografts cryopreserved with Afp1m for 72 h at −4 °C. Rounded shaped full-thickness 1.5–2.5 cm in diameter skin was excised from backs of rats for the autograft transplantation. Non-cryopreserved or cryopreserved auto skin graft were positioned onto the wound defects and stitched. Non-transplanted cryopreserved and non-cryopreserved skin strips from other ten rats (n = 10) were allowed for comparative biomechanical test. All skin grafts were subjected to histological and mechanical examinations at the end of day 21. Histological results revealed that tissue architecture especially the epidermal integrity and dermal-epidermal junction of the Afp1m cryopreserved skin grafts exhibited better histological appearance, good preservation of tissue architecture and structural integrity than glycerolized skin. However, there was no significant difference among these groups in other histological criteria. There were no significant differences among the 4 groups in skin graft mechanical properties namely maximum load. In conclusion, Afp1m were found to be able to preserve the microstructure as well as the viability and function of the skin destined for skin transplantation when was kept at −4 °C for 72 h.     

Phenotypic characterization of the progenies of rice plants derived from cryopreserved calli

The progenies of rice plants (Oryza sativa L.) differentiated from calli that had been cryopreserved and from control (non-cryopreserved) calli were used to study the influence of selection pressure during cryopreservation. The phenotypic evaluation of these progenies was based mainly on the response of seedlings and calli to freezing stress and on the characterization of protoplast and cell populations by flow cytometric analyses. The patterns of response to freezing stress, as well as the variations in some morphological and physiological cell parameters, were unrelated to the origin (cryopreserved or control calli) of the parental plants. Received: 6 August 1997 / Revised received: 28 November 1997 / Accepted: 20 January 1998     

Cryopreservation of embryogenic calli of cassava using sucrose cryoprotection and air desiccation

A simplified technique which simultaneously induces and cryoprotects embryogenic calli using sucrose followed by dehydration was developed for the cryopreservation of cassava genetic resources. An initial experiment to optimise the sucrose concentration needed for both embryo production and cryoprotection showed that higher concentrations of sucrose—between 0.4 M and 0.5 M—significantly reduced the viability as well as the number of embryos produced by the embryogenic clumps in the absence of freezing. Post-thaw viability as well as embryogenic competence of clumps depended on the percentage moisture lost, duration of exposure to higher sucrose concentrations and the duration of induction of embryogenic clumps. Extending the period of cryoprotection to 21 days coupled with increased moisture loss (greater than 75%) significantly increased both post-thaw viability and the embryogenic competence of cryopreserved clumps to 95%, while reducing the duration decreased post-thaw viability. Cryopreserved callus clumps developed secondary and cyclic embryos similar to those of the non-cryopreserved controls. The optimised protocol was successfully applied to SM₁-2075-1 Line 1 somatic embryos. The rate of plant recovery from cryopreserved embryos of both TME 9 and SM₁-2075-1 Line 1 was comparable to that of the non-cryopreserved embryos. Successful cryopreservation of embryogenic clumps of cassava can be used to establish in vitro genebanks for long-term conservation of cassava genetic resources to complement field genebanks and other in vitro methods already being used.Communicated by M.R. Davey     

Transgenic expression of CTLA4-Ig by fetal pig neurons for xenotransplantation

The transplantation of fetal porcine neurons is a potential therapeutic strategy for the treatment of human neurodegenerative disorders. A major obstacle to xenotransplantation, however, is the immune-mediated rejection that is resistant to conventional immunosuppression. To determine whether genetically modified donor pig neurons could be used to deliver immunosuppressive proteins locally in the brain, transgenic pigs were developed that express the human T cell inhibitory molecule hCTLA4-Ig under the control of the neuron-specific enolase promoter. Expression was found in various areas of the brain of transgenic pigs, including the mesencephalon, hippocampus and cortex. Neurons from 28-day old embryos secreted hCTLA4-Ig in vitro and this resulted in a 50% reduction of the proliferative response of human T lymphocytes in xenogenic proliferation assays. Transgenic embryonic neurons also secreted hCTLA4-Ig and had developed normally in vivo several weeks after transplantation into the striatum of immunosuppressed rats that were used here to study the engraftment in the absence of immunity. In conclusion, these data show that neurons from our transgenic pigs express hCTLA4-Ig in situ and support the use of this material in future pre-clinical trials in neuron xenotransplantation.Caroline Martin,Martine Plat, Philippe Brachet, Bernard Vanhove - These authors have contributed equally to the development of this work.     

Non-cryopreserved hematopoietic stem cells in autograft patients with lymphoma: a matched-pair analysis comparing a single center experience with the use of cryopreserved stem cells reported to the European Society for Blood and Marrow Transplantation registry

Background aimsAround 50 000 autologous stem cell transplantations are done each year worldwide using cryopreserved peripheral blood stem cells (PBSCs). Cryopreservation is time-consuming and expensive. Since 2007, several retrospective studies have shown that PBSCs can be stored at 4°C for 2–3 days, allowing autologous stem cell transplantation in patients with multiple myeloma receiving high-dose melphalan. Data with non-cryopreserved PBSCs in patients autografted for lymphoma following longer pre-conditioning regimens are limited. In addition, no controlled comparison has been able to detect unforeseen differences.MethodsThe authors compared outcomes of 94 consecutive adult patients with lymphoma (66 with Hodgkin lymphoma) autografted in our department in Oran (Algeria) using PBSCs stored at 4°C, from 2009 to 2018, with patients receiving cryopreserved stem cells reported to the European Society for Blood and Marrow Transplantation registry. Patients autografted in Oran were matched with patients receiving cryopreserved PBSCs in the registry (four controls per patient in Oran).ResultsNeutrophil engraftment was significantly faster with cryopreserved PBSCs (P = 0.003). By day 10, only 17% of patients receiving non-cryopreserved PBSCs engrafted versus 48% for cryopreserved PBSCs. Likewise, platelet recovery to 20 000/mm³ was significantly faster in patients receiving cryopreserved PBSCs (P = 0.01). However, all patients in both groups had recovered by day 20. There were no significant differences in non-relapse mortality (9% versus 7%, P = 0.4), relapse incidence (22% versus 32%, P = 0.13), progression-free survival (70% versus 61%, P = 0.4) or overall survival (85% versus 75%, P = 0.3).ConclusionsThis analysis suggests that, in patients with lymphoma receiving pre-transplant regimens such as carmustine, etoposide, cytarabine and melphalan, PBSCs stored at 4°C for up to 6 days can be used safely in centers with no cryopreservation facility. However, the kinetics of hematopoietic recovery showed a significant, albeit small, delay in engraftment for both neutrophils and platelets, which favors the use of cryopreservation if available.     

Efficient Secretion of Recombinant Proteins from Rice Suspension-Cultured Cells Modulated by the Choice of Signal Peptide

Plant-based expression systems have emerged as a competitive platform in the large-scale production of recombinant proteins. By adding a signal peptide, αAmy3sp, the desired recombinant proteins can be secreted outside transgenic rice cells, making them easy to harvest. In this work, to improve the secretion efficiency of recombinant proteins in rice expression systems, various signal peptides including αAmy3sp, CIN1sp, and 33KDsp have been fused to the N-terminus of green fluorescent protein (GFP) and introduced into rice cells to explore the efficiency of secretion of foreign proteins. 33KDsp had better efficiency than αAmy3sp and CIN1sp for the secretion of GFP from calli and suspension-cultured cells. 33KDsp was further applied for the secretion of mouse granulocyte-macrophage colony-stimulating factor (mGM-CSF) from transgenic rice suspension-cultured cells; approximately 76%–92% of total rice-derived mGM-CSF (rmGM-CSF) was detected in the culture medium. The rmGM-CSF was bioactive and could stimulate the proliferation of a murine myeloblastic leukemia cell line, NSF-60. The extracellular yield of rmGM-CSF reached 31.7 mg/L. Our study indicates that 33KDsp is better at promoting the secretion of recombinant proteins in rice suspension-cultured cell systems than the commonly used αAmy3sp.