Production of functional recombinant bovine trypsin in transgenic rice cell suspension cultures

A synthetic bovine trypsinogen (sbTrypsinogen) was synthesized on the basis of rice-optimized codon usage via an overlap PCR strategy, prior to being expressed under the control of the sucrose starvation-inducible rice α-amylase 3D (RAmy3D) promoter. Secretion of trypsin into the culture medium was achieved by using the existing signal peptide. The plant expression vector was introduced into rice calli (Oryza sativa L. cv. Dongjin), mediated by Agrobacterium tumefaciens. The integration of the sbTrypsinogen gene into the chromosome of the transgenic rice callus was verified via genomic DNA PCR amplification, and sbTrypsin expression in transgenic rice suspension cells was confirmed via Northern blot analysis. Western blot analysis detected glycosylated proteins in the culture medium, having masses from 24 to 26 kDa, following induction by sugar starvation. Proteolytic activity of the rice-derived trypsin was confirmed by gelatin zymogram, and was similar to that of the commercial bovine-produced trypsin. The yields of sbTrypsin that accumulated in the transgenic rice cell suspension medium were 15 mg/L at 5 days after sugar starvation.     

Production of bioactive human granulocyte-colony stimulating factor in transgenic rice cell suspension cultures

Human granulocyte-colony stimulating factor (hG-CSF), a human cytokine, was expressed in transgenic rice cell suspension culture. The hG-CSF gene was cloned into the rice expression vector containing the promoter, signal peptide, and terminator derived from a rice alpha-amylase gene Amy3D. Using particle bombardment-mediated transformation, hG-CSF gene was introduced into the calli of rice (Oryza sativa) cultivar Dong-jin. Expression of the hG-CSF gene was confirmed by ELISA and Northern blot analysis. The amount of recombinant hG-CSF accumulated in culture medium from transgenic rice cell suspension culture on the sugar starvation was determined by time series ELISA. Biological activity of the plant derived hG-CSF was confirmed by measuring the proliferation of the AML-193 cells, and was similar to that of the commercial Escherichia coli-derived hG-CSF. In this paper, we discuss the attractive attributes of using rice cell suspension system for the expression of therapeutic recombinant hG-CSF.     

Co-expression of proteinase inhibitor enhances recombinant human granulocyte-macrophage colony stimulating factor production in transgenic rice cell suspension culture

The synthetic gene (sPI-II) harboring the chymotrypsin (C1) and trypsin (T1) inhibitor domains of the Nicotiana alata serine proteinase inhibitor II gene has been previously expressed, and extracellular protease activity was shown to be reduced in the suspension culture medium. In this study, the sPI-II gene was introduced into transgenic rice cells expressing rhGM-CSF (recombinant human granulocyte–macrophage colony-stimulating factor), in an effort to reduce protease activity and increase rhGM-CSF accumulation in the suspension culture medium. The integration and expression of the introduced sPI-II gene in the transgenic rice cells were verified via genomic DNA PCR amplification and Northern blot analysis, respectively. Relative protease activity was found to have been reduced and rhGM-CSF production was increased 2-fold in the co-transformed cell suspension culture with rhGM-CSF and the sPI-II gene, as compared with that observed in the transformed cell suspension culture expressing rhGM-CSF only. These results indicate that a transformed plant cell suspension culture system expressing the proteinase inhibitor can be a useful tool for increasing recombinant protein production.     

Reduced protease activity in transformed rice cell suspension cultures expressing a proteinase inhibitor

In this study, we synthesized a synthetic serine proteinase inhibitor II gene (sPI-II) that harbored the chymotrypsin and trypsin inhibitor domains of the PI-II gene from Nicotiana alata. In an effort to reduce protease activity in a rice cell suspension culture, we first synthesized sPI-II using overlap PCR and then introduced the gene into a rice calli (Oryza sativa L. cv. Dongin) by particle bombardment-mediated transformation. The sPI-II gene was under the control of a rice alpha-amylase 3D promoter induced by sugar starvation. To verify the integration and expression of the sPI-II gene in the transformed rice cells, we employed genomic DNA PCR amplification and Northern blot analysis, respectively. The relative protease activity of the transformed cell suspension culture was reduced to approximately 23% when compared to the non-transformed culture. This indicates that a transformed suspension culture system expressing a proteinase inhibitor, may be a useful tool to protect against recombinant protein losses resulting from extracellular proteases.     

Production and secretion of human interleukin-18 in transgenic tobacco cell suspension culture

Interleukin-18 (IL-18), otherwise known as interferon-gamma-inducing factor (IGIF), is one of several well characterized and important cytokines that contribute to host defenses. The complementary DNA (cDNA) of mature human interleukin-18 gene (hIL-18) was fused with the signal peptide of the rice amylase 1A gene (Ramy1A) and introduced into the plant expression vector under the control of a duplicated CaMV 355 promoter. The recombinant plasmid was transformed into tobacco (Nicotiana tabacum L. cv Havana) using theAgrobacterium-mediated transformation method. The integration of the hIL-18 gene into the genome of transgenic tobacco plants was confirmed by polymerase chain reaction (PCR) amplification and its expression was observed in the suspension cells that were derived from the transgenic plant callus by using Northern blot analysis. The hIL-18 protein was detected in the extracts of the transgenic callus and in the medium of the transgenic tobacco suspension culture by using immunoblot analysis. Based upon enzyme-linked immunosorbant assay (ELISA) results, the expression level of the hIL-18 protein approximated 166 μg/L in the suspension culture medium. Bioassay results from the induction of interferon-γ from a KG-1 cell line indicated that the hIL-18 secreted into the suspension culture medium was bioactive.     

High level of expression of recombinant human granulocyte-macrophage colony stimulating factor in transgenic rice cell suspension culture

Recombinant human granulocyte-macrophage colony stimulating factor (hGM-CSF) has been previously produced in tobacco cell suspension cultures. However, the amount of hGM-CSF accumulated in the culture medium dropped quickly from its maximum of 150 microg/L at 5 d after incubation. To overcome this problem, we sought an expression system in which heterologous gene expression could be induced at high levels. We selected a rice amylase expression system in which the promoter Ramy3D is induced to express recombinant protein by sucrose starvation. This induction system was found to give good yield of recombinant hGM-CSF in transgenic rice cell suspension culture and protease activity of this culture medium was low compared to that of tobacco culture system.     

Expression of a consensus dengue virus envelope protein domain III in transgenic callus of rice

An effective dengue vaccine should elicit immune responses against all four different dengue virus serotypes. This study optimized the codon usage of a gene encoding consensus dengue virus envelope protein domain III (cEDIII) with cross-neutralizing activity against four dengue virus serotypes for plant expression. Then, a plant expression vector was constructed with this gene under the control of the rice amylase 3D promoter (RAmy3D), which is a strong inducible promoter under sugar starvation conditions. The synthetic cEDIII gene was fused with the RAmy3D signal peptide and ER retention signal, SEKDEL, and was introduced into rice callus by particle bombardment-mediated transformation. The integration and expression of cEDIII gene in transgenic rice callus was confirmed by genomic DNA PCR amplification, Northern blot analysis, and western blot analysis, respectively. Densitometric analysis determined that the highest expression level of the cEDIII protein in lyophilized rice callus was approximately 0.45 mg g⁻¹. These results suggest that it is feasible to use transgenic rice callus to produce the consensus dengue virus envelop protein domain III for edible vaccine purposes.     

Expression of hepatitis B small surface antigen in <Emphasis Type="Italic">Santalum album</Emphasis> embryogenic cell suspension cultures

Embryogenic cell suspension cultures of Santalum album were transformed with Agrobacterium tumefaciens harboring pD35SHER plant expression vector having hepatitis B small surface antigen (HBsAg) with a C-terminal ER retention signal. The transformed colonies were selected on culture medium supplemented with kanamycin and subsequently the transgenic nature of these colonies was confirmed by PCR analysis. The expression of HBsAg was confirmed by RT-PCR analysis and Western blot analysis and the expression was quantified using monoclonal antibody-based ELISA. Cell suspension cultures were initiated from the colony with expression of 11.09 μg(HBsAg) g⁻¹(f.m.). To further increase the expression of HBsAg, transgenic S. album suspensions were cultured on media with various medium additives and cells growing in medium with 30 mM trehalose showed the expression of 19.95 μg(HBsAg) g⁻¹(f.m.).     

Production and secretion of biologically active human granulocyte-macrophage colony stimulating factor in transgenic tomato suspension cultures

A complementary DNA encoding human granulocyte-macrophage colony stimulating factor (hGM-CSF) was cloned and introduced into tomato (Lycopersicon esculentum cv. Seokwang) using Agrobacterium-mediated transformation. Genomic PCR and Northern blot analysis demonstrated the integration of the construction into the plant nuclear genome and expression of the hGM-CSF in transgenic tomato. The cell suspension culture was established from leaf-derived calli of the transgenic tomato plants transformed with the hGM-CSF gene. Recombinant hGM-CSF was synthesized by the transgenic cell culture and secreted into the growth medium at 45 g l^–1 after 10 d' cultivation.     

Expression of Rice Stripe Virus Coat Protein Gene in Transgenic Rice Plants

Rice stripe virus (RSV) is a pathogen of rice stripe disease causing great damage to rice. The disease is transmitted by Laodelphax striatellus and three other planthoppers. RSV infects as much as 37 cereals including rice, wheat, maize and results in a significant reduction in yield in epidemic year. In order to develop efficient means of controlling the disease, authors have studied the amino acid composition of RSV coat protein (CP), synthesized and cloned the cDNA to CP, sequenced the full-length CP gene. Having inserted the RSV CP gene into plant expression vector pROK Ⅱ, authors transformed rice suspension culture via microprojectile bombardment and obtained transgenic plants expressing the CP gene. The suspension culture was initiated by inoculating yellowish, compact and embryogenic calli derived from seeds into suspension medium containing proline and maltose. After being cultured at 26℃ in the dark for about half a year, finely-dispersed and embryogenic suspension culture was estabolished. Before bombardment the suspension culture was evently applied onto three-layered filter-paper discs in a petri dish. CaCl2 and spermidine was employed to coat tungsten particle with plasmid DNA. 2.5 μl of coated particle was loaded onto bullet and each dish was bombarded three times. Immediately after being bombarded, the suspensions were cultured in modified N6 medium. 2 days later the suspensions were transferred to the same medium but containing G418, which were subcultured weekly. Being subject to G418 selection for two months, white and fast-growing clones were emerged from the brownish cultures. Green plants regenerated when the resistant calli were transferred to differentiation medium. The regenerated plants were firm enough to grow well in the greenhouse. 10 plants regenerated from G418 resistant calli were tested for their transformed nature by Southern blot using 32P-labelled CP gene as a probe. Among the plants tested, 2 plants showed clearly hy bridizing bands with a molecular weight corresponding to RSV CP gene. Western blot further demonstrated that RSV CP gene was expressed in transgenic rice plants. At present tests on the antiviral effects of transgenic plants by feeding plantphoppers infccted with RSV are being underway.     

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.     

MALDI‐TOF characterization of hGH1 produced by hairy root cultures of Brassica oleracea var. italica grown in an airlift with mesh bioreactor

Expression systems based on plant cells, tissue, and organ cultures have been investigated as an alternative for production of human therapeutic proteins in bioreactors. In this work, hairy root cultures of Brassica oleracea var. italica (broccoli) were established in an airlift with mesh bioreactor to produce isoform 1 of the human growth hormone (hGH1) as a model therapeutic protein. The hGH1 cDNA was cloned into the pCAMBIA1105.1 binary vector to induce hairy roots in hypocotyls of broccoli plantlets via Agrobacterium rhizogenes. Most of the infected plantlets (90%) developed hairy roots when inoculated before the appearance of true leaves, and keeping the emerging roots attached to hypocotyl explants during transfer to solid Schenk and Hildebrandt medium. The incorporation of the cDNA into the hairy root genome was confirmed by PCR amplification from genomic DNA. The expression and structure of the transgenic hGH1 was assessed by ELISA, western blot, and MALDITOF‐MS analysis of the purified protein extracted from the biomass of hairy roots cultivated in bioreactor for 24 days. Production of hGH1 was 5.1 ± 0.42 µg/g dry weight (DW) for flask cultures, and 7.8 ± 0.3 µg/g DW for bioreactor, with productivity of 0.68 ± 0.05 and 1.5 ± 0.06 µg/g DW*days, respectively, indicating that the production of hGH1 was not affected by the growth rate, but might be affected by the culture system. These results demonstrate that hairy root cultures of broccoli have potential as an alternative expression system for production of hGH1, and might also be useful for production of other therapeutic proteins. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:161–171, 2014     

A protocol for consistent, large-scale production of fertile transgenic rice plants

A protocol for consistent production of fertile transgenic rice plants was established utilizing microparticle bombardment of embryogenic tissues (Oryza sativa L. japonica cv. Taipei 309). This system has been employed to produce several thousand independently transformed plant lines carrying the hygromycin phosphotransferase (hph) gene and various genes of interest. The most efficient target tissue was highly embryogenic callus or suspension cell aggregates, when they were given an osmotic pre- and post-transformation treatment of 0.6 m carbohydrate. By optimizing the age of the tissue at the time of gene transfer and applying an improved selection procedure, transgenic plants were recovered in 8 weeks from the time of gene transfer, at an average of 22.3±9.7 per 100 calli and 22.4±8.0 plant lines per dish of suspension cell aggregates. This system has facilitated a number of studies using rice as a model for genetic transformation and will enable the large-scale production of transgenic rice plants for genomic studies. Received: 12 March 1998 / Revision received: 5 May 1998 / Accepted: 15 May 1998     

Efficient <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation using embryogenic suspension cultures in sweetpotato, <Emphasis Type="Italic">Ipomoea batatas</Emphasis> (L.) Lam.

Efficient Agrobacterium tumefaciens-mediated transformation was achieved using embryogenic suspension cultures of sweetpotato (Ipomoea batatas (L.) Lam.) cv. Lizixiang. Cell aggregates from embryogenic suspension cultures were cocultivated with the A. tumefaciens strain EHA105 harboring a binary vector pCAMBIA1301 with gusA and hygromycin phosphotransferase II gene (hpt II) genes. Selection culture was conducted using 25 mg l⁻¹ hygromycin. A total of 2,218 plants were regenerated from the inoculated 1,776 cell aggregates via somatic embryogenesis. β-glucuronidase (GUS) assay and PCR, dot blot and Southern blot analyses of the regenerated plants randomly sampled showed that 90.37% of the regenerated plants were transgenic plants. The number of integrated T-DNA copies varied from 1 to 4. Transgenic plants, when transferred to soil in a greenhouse and a field, showed 100% survival. No morphological variations were observed in the ex vitro transgenic plants. These results exceed all transformation experiments reported so far in the literature in quantity of independent events per transformation experiment in sweetpotato.     

Development of transgenic rice pure lines by particle bombardment‐mediated transformation and genetic analysis‐based selection

Mature seed‐derived callus from an elite Chinese japonica rice cv. Eyl 105 was transformed with a plasmid containing the selectable marker hygromycin phosphotransferase (hpt) and the reporter β‐glucuronidase (gusA) genes via particle bombardment. After two rounds of selection on hygromycin (30 mg/l)‐containing medium, resistant callus was transferred to hygromycin (30 mg/l)‐containing regeneration medium for plant regeneration. Twenty‐three independent transgenic rice plants were regenerated from 127 bombarded callus with a transformation frequency of 18.1%. All the transgenic plants contained both gusA and hpt genes, revealed by PCR/Southern blot analysis. GUS assay revealed 18 out of 23 plants (78.3%) proliferated on hygromycin‐containing medium had GUS expression at various levels. Genetic analysis confirmed Mendelian segregation of transgenes in progeny. From R2 generations with their R1 parent plants showing 3:1 Mendelian segregation, we identified three independent homozygous transgenic rice lines. The homozygous lines were phenotypically normal and fertile compared to the control plants. We demonstrate that homozygous transgenic rice lines can be obtained via particle bombardment‐mediated transformation and through genetic analysis‐based selection.     

Efficient transformation of rice protoplasts mediated by a synthetic polycationic amino polymer

 A very simple and efficient transformation system for rice was established using a synthetic polycationic amino polymer (polycation). Improvements in the culture conditions, especially filtration of the suspension cells before and after protoplast culture, greatly contributed to a large yield of high-quality protoplasts and an increased ability of the cells to regenerate. Transformation parameters, such as the ratio of DNA and polycation concentrations, preincubation of the DNA and polycation prior to DNA transfer, and precentrifugation and resuspension of protoplasts before DNA transfer, were analyzed. Fertile transgenic plants containing the bar gene were selected and shown to demonstrate resistance against high concentrations of bialaphos. Southern blot analysis showed four to nine bands representing the bar gene in polycation-mediated transgenic rice plants compared with two to three bands in electroporation-mediated transgenic rice plants. The regeneration efficiency of the polycation-mediated method was compared to that of the electroporation-mediated method; while the polycation-mediated method tended to show a relatively lower regeneration rate, regenerants showed a normal phenotype. Received: 26 February 1998 / Accepted: 15 May 1998