Expression of natural antimicrobial human lysozyme in rice grains

In the present study, we explored the expression of human lysozyme in maturing rice grains. Particle bombardment-mediated transformation was utilized to deliver the codon-optimized structural gene for human lysozyme to the callus of rice cultivar Taipei 309. Lysozyme expression is controlled by the promoter and signal peptide sequence for rice storage protein Glutelin 1. A total of 33 fertile plants were regenerated from independent transformation events and 12 of them with significant expression levels of lysozyme were advanced to further generations. The transgenes were characterized by PCR and Southern blot analysis. Segregation analysis indicated a typical Mendelian 3: 1 inheritance, suggesting a single locus or closely linked loci of gene insertion. The expression levels of lysozyme reached 0.6% of the brown rice weight or 45% of soluble proteins. Seven transgenic breeding lines have been selected and followed over six generations. Lysozyme expression levels were maintained in all generations. Biochemical, biophysical and functional comparisons of native and recombinant human lysozyme revealed identical N-terminal sequence, molecular weight, pI and specific activity. Similar thermal and pH stability was observed for lysozyme from two sources. Furthermore, similar bactericidal activity was displayed towards a laboratory strain of E. coli. The possibility of improving medical and nutritional quality of infant formulas and baby foods with rice flour or rice extract containing recombinant human lysozyme is discussed.     

Expression of bioactive human interferon-gamma in transgenic rice cell suspension cultures

We investigated the possibility of producing the therapeutic recombinant cytokine, Interferon-gamma (IFN-), in transgenic rice cell (Oryza sativa, cultivar TNG67) suspension cultures. We tested expression of two vector constructs, each harboring an Amy3 leader peptide and a C-terminus His 6 tag fused to a human IFN- cDNA, one driven by a sucrose-starvation inducible promoter (rice Amy3 promoter) and the other by a constitutive maize ubiquitin promoter, in rice cell suspensions, introduced via Agrobacterium tumefaciens. There was a significant difference in the amounts of recombinant IFN- protein produced by the Ups and Amy cell lines, as cytosolic and secretory proteins respectively. Immunological analysis of IFN- recombinant protein conferred a dose-dependent anti-dengue virus activity in human A549 cells, similar to the commercial product. We discuss the attractive attributes of using rice cell suspension system for the expression of therapeutic recombinant IFN-.     

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 human lysozyme mRNA in the mammary gland of transgenic mice

Owing to its inherent antimicrobial effect and positive charge, the expression of human lysozyme in bovine milk could be beneficial by altering the overal microbial level and the functional and physical properties of the milk. We have used transgenic mice as model systems to evaluate the expression of human lysozyme containing fusion gene constructs in the mammary gland. Expression of human lysozyme was targeted to the mammary gland by using the 5 promoter elements of either the bovine (line B mice) or _s1 (line H mice) casein genes coupled to the cDNA for human lysozyme. Expression of human lysozyme mRNA was not found in mammary tissue from any of line B mice. Tissues were analysed from six lines of H mice and two, H6 and H5, were found to express human lysozyme mRNA in the mammary gland at 42% and 116%, respectively, of the levels of the endogenous mouse whey acidic protein gene. At peak lactation, female mice homozygous for the H5 and H6 transgene have approximately twice the amount of mRNA encoding human lysozyme as hemizygous animals. Expression levels of human lysozyme mRNA in the mammary gland at time points representing late pregnancy, early, peak and late lactation corresponded to the profile of casein gene expression. Human lysozyme mRNA expression was not observed in transgenic males, virgin females or in the kidney, liver, spleen or brain of lactating females. A very low level of expression of human lysozyme mRNA was observed in the salivary gland of line H5.     

Process evaluations and economic analyses of recombinant human lysozyme and hen egg-white lysozyme purifications

Human lysozyme and hen egg-white lysozyme have antibacterial, antiviral, and antifungal properties with numerous potential commercial applications. Currently, hen egg-white lysozyme dominates low cost applications but the recent high-level expression of human lysozyme in rice could provide an economical source of lysozyme. This work compares human lysozyme and hen egg-white lysozyme adsorption to the cation exchange resin, SP-Sepharose FF, and the effect of rice extract components on lysozyme purification. With one exception, the dynamic binding capacities of human lysozyme were lower than those of hen egg-white at pH 4.5, 6, and 7.5 with ionic strengths ranging from 0 to 100 mM (5-20 mS). Ionic strength and pH had a similar effect on the adsorption capacities, but human lysozyme was more sensitive to these two factors than hen egg-white lysozyme. In the presence of rice extract, the dynamic binding capacities of human and hen egg-white lysozymes were reduced by 20-30% and by 32-39% at pH 6. Hen egg-white lysozyme was used as a benchmark to compare the effectiveness of human lysozyme purification from transgenic rice extract. Process simulation and cost analyses for human lysozyme purification from rice and hen egg-white lysozyme purification from egg-white resulted in similar unit production costs at 1 ton per year scale.     

Evaluation of alternatives for human lysozyme purification from transgenic rice: impact of phytic acid and buffer

Producing economically competitive recombinant human lysozyme from transgenic rice demands an inexpensive purification process for nonpharmaceutical applications. Human lysozyme is a basic protein, and thus, cation exchange chromatography was the selected method for lysozyme purification. Similar to other protein production systems, the identification of critical impurities in the rice extract was important for the development of an efficient purification process. Previous adsorption data indicated that phytic acid was probably responsible for an unacceptably low cation exchange adsorption capacity. In this study, we confirm that reducing phytic acid concentration improves lysozyme binding capacity and investigate alternative process conditions that reduce phytic acid interference. Compared with the previous best process, the adsorption capacity of human lysozyme was increased from 8.6 to 19.7 mg/mL when rice extract was treated with phytase to degrade phytic acid. Using tris buffer to adjust pH 4.5 extract to pH 6 before adsorption reduced phytic acid interference by minimizing phytic acid-lysozyme interactions, eliminated the need for phytase treatment, and increased the binding capacity to 25 mg/mL. Another method of reducing phytic acid concentration was to extract human lysozyme from rice flour at pH 10 with 50 mM NaCl in 50 mM sodium carbonate buffer. A similar binding capacity (25.5 mg/mL) was achieved from pH 10 extract that was clarified by acidic precipitation and adjusted to pH 6 for adsorption. Lysozyme purities ranged from 95 to 98% for all three processing methods. The tris-mediated purification was the most efficient of the alternatives considered.     

Large-scale production of functional human lysozyme in transgenic cloned goats

Human lysozyme (hLZ), an essential protein against many types of microorganisms, has been expressed in transgenic livestock to improve their health status and milk quality. However, the large-scale production of hLZ in transgenic livestock is currently unavailable. Here we describe the generation of transgenic goats, by somatic cell-mediated transgenic cloning, that express large amounts of recombinant human lysozyme (rhLZ) in milk. Specifically, two optimized lysozyme expression cassettes (β-casein/hLZ and β-lactoglobulin/hLZ) were designed and introduced into goat somatic cells by cell transfection. Using transgenic cell colonies, which were screened by 0.8 mg/mL G418, as a nuclear donor, we obtained 10 transgenic cloned goats containing one copy of hLZ hybrid gene. An ELISA assay indicated that the transgenic goats secreted up to 6.2 g/L of rhLZ in their milk during the natural lactation period, which is approximately 5–10 times higher than human milk. The average rhLZ expression levels in β-casein/hLZ and β-lactoglobulin/hLZ transgenic goats were 2.3 g/L and 3.6 g/L, respectively. Therefore, both rhLZ expression cassettes could induce high levels of expression of the rhLZ in goat mammary glands. In addition, the rhLZ purified from goat milk has similar physicochemical properties as the natural human lysozyme, including the molecular mass, N-terminal sequence, lytic activity, and thermal and pH stability. An antibacterial analysis revealed that rhLZ and hLZ were equally effective in two bacterial inhibition experiments using Staphylococcus aureus and Escherichia coli. Taken together, our experiments not only underlined that the large-scale production of biologically active rhLZ in animal mammary gland is realistic, but also demonstrated that rhLZ purified from goat milk will be potentially useful in biopharmaceuticals.     

Expression of betaine aldehyde dehydrogenase gene and salinity tolerance in rice transgenic plants

Betaine as one of osmolytes plays an important role in osmoregulation of most high plants. Betaine aldehyde dehydrogenase C BADH) is the second enzyme involved in betaine biosynthesis. The BADH gene from a halophite, Atriplex hortensis, was transformed into rice cultivars by bombarment method. Totally 192 transgenic rice plants were obtained and most of them had higher salt tolerance than controls. Among transgenic plants transplanted in the saline pool containing 0.5% NaCl in a greenhouse, 22 survived, 13 of which set seeds, and the frequency of seed setting was very low, only 10% . But the controls could not grow under the same condition. The results of BADH ac-tivity assay and Northern blot showed that the BADH gene was integrated into chromosomes of transgenic plants and expressed.     

High expression of a human lactoferrin in transgenic tobacco cell cultures

Transgenic Nicotiana tabacum cell lines were developed expressing the human lactoferrin gene driven by the oxidative stress-inducible peroxidase (SWPA2) promoter. Western blot analysis showed the accumulation of both the full-length human lactoferrin protein as well as a immuno-reactive truncated fragment. Accumulation of human lactoferrin as monitored by ELISA increased proportionally to cell growth and reached a maximal (up to 4.3% of total soluble proteins) at the stationary phase of growth. Protein extracts from transgenic tobacco cells exhibited antibacterial activity.     

Expression and long-term stability of a recombinant single-chain Fv antibody fragment in transgenic Nicotiana tabacum seeds

A functionally active anti-hepatitis B surface antigen single-chain Fv antibody fragment (scFv) was expressed in seeds of transgenic tobacco plants using genetic constructs for expression in the vacuole or the apoplastic fluid. Antibody levels close to 0.2% of the total soluble protein were found. After storage of the transgenic tobacco seeds for one year and a half a year at room temperature, the scFv maintained its antigen-binding activity in full.     

Expression of human growth hormone in transgenic rice cell suspension culture

Human growth hormone (hGH), a pituitary-derived polypeptide, evidences a wide range of biological functions, including protein synthesis, cell proliferation, and metabolism. A synthetic hGH gene (shGH) has been synthesized on the basis of plant-optimized codon usage via an overlap PCR strategy and located in a plant expression vector under the control of the rice amylase 3D (Ramy3D) promoter, which is induced by sugar starvation. The plant expression vector was introduced into rice calli (Oryza sativa L. cv. Donjin) via particle bombardment transformation methods. The integration of the shGH gene into the chromosome of the transgenic rice callus was verified via genomic DNA PCR amplification and shGH expression in transgenic rice suspension cells was confirmed via Northern blot analysis. The shGH protein was detected in the transgenic rice cell suspension culture medium following induction with sugar starvation, using Western blot analysis. The quantity of shGH that accumulated in the transgenic rice cell suspension medium was 57 mg/l. The shGH accumulated in the transgenic rice cell suspension culture medium evidenced a biological activity similar to that of Escherichia coli-derived recombinant hGH. These results indicate that the shGH was generated and accumulated in the transgenic rice cell suspension culture medium, and manifested biological activity.     

重组人蛋白C的研究进展

人蛋白C具有抗凝,促纤维蛋白溶解和潜在的抗炎作用,本在简要介绍了人蛋白C的结构,功能的基础上,重点对哺乳动物细胞和转基因动物表达重组人蛋白C的研究进展作了综述。     

Expression of a single-chain human interleukin-12 gene in transgenic tobacco plants and functional studies

Interleukin 12 (IL-12) is a key heterodimeric cytokine produced by a variety of antigen-presenting cells, including dendritic cells, macrophages, and B cells. It displays a potent array of biological activities affecting natural killer (NK) and T cells. These activities include promotion of cell-mediated or type 1 T helper cell responses (Th1). Due to that property, IL-12 has been employed in cancer immunotherapy, in mouse models of infectious diseases and in airway inflammation, and it may also have utility as a vaccine adjuvant. Transgenic plants are being used in many laboratories around the world for the production of therapeutically valuable proteins and as vehicles for oral vaccines. Here we present the expression of a single-chain human interleukin-12 in transgenic tobacco plants. The biological activity of plant-produced IL-12 was determined by interferon gamma (IFN-gamma) production by natural killer (NK) cells, and the level of production was comparable to that obtained with commercially available recombinant IL-12. The potential use of this recombinant protein is discussed.     

Purification of human lysozyme from milk and pancreatic juice

Human milk lysozyme was purified by heparin-Sepharose affinity chromatography and Sepharose 4B gel-permeation chromatography. This procedure was also found applicable to the purification of human pancreatic juice lysozyme. Double-diffusion analyses indicated that human milk lysozyme was immunochemically identical to human saliva and human pancreatic juice lysozyme. Based on the identity of the N-terminal 10-amino-acid-residue sequence analyzed, it was suggested that human milk lysozyme and human pancreatic juice lysozyme are identical molecular entities.     

Production of mouse granulocyte-macrophage colony-stimulating factor by gateway technology and transgenic rice cell culture

To establish a production platform for recombinant proteins in rice suspension cells, we first constructed a Gateway-compatible binary T-DNA destination vector. It provided a reliable and effective method for the rapid directional cloning of target genes into plant cells through Agrobacterium-mediated transformation. We used the approach to produce mouse granulocyte-macrophage colony-stimulating factor (mGM-CSF) in a rice suspension cell system. The promoter for the αAmy3 amylase gene, which is induced strongly by sugar depletion, drove the expression of mGM-CSF. The resulting recombinant protein was fused with the αAmy3 signal peptide and was secreted into the culture medium. The production of rice-derived mGM-CSF (rmGM-CSF) was scaled up successfully in a 2-L bioreactor, in which the highest yield of rmGM-CSF was 24.6 mg/L. Due to post-translational glycosylation, the molecular weight of rmGM-CSF was larger than that of recombinant mGM-CSF produced in Escherichia coli. The rmGM-CSF was bioactive and could stimulate the proliferation of a murine myeloblastic leukemia cell line, NSF-60.     

Matrix attachment region from the chicken lysozyme locus reduces variability in transgene expression and confers copy number-dependence in transgenic rice plants

Matrix-attachment regions (MARs) may function as domain boundaries and partition chromosomes into independently regulated units. In this study, BP-MAR, a 1.3-kb upstream fragment of the 5MAR flanking the chicken lysozyme locus, was tested for its effects on integration and expression of transgenes in transgenic rice plants. Using the Agrobacterium-mediated method, we transformed rice with nine different constructs containing seven and six different promoters and coding sequences, respectively. Genomic Southern blot analyses of 357 independent transgenic lines revealed that in the presence of BP-MAR, 57% of the lines contained a single copy of the transgene, whereas in its absence, only 20% of the lines contained a single copy of the transgene. RNA gel-blot and immunoblot experiments demonstrated that in the presence of BP-MAR, transgene expression levels were similar among different lines. These data were in direct contrast to those derived from transgenes expressed in the absence of BP-MAR, which varied markedly with the chromosomal integration site . Thus, it can be concluded that BP-MAR significantly reduces the variability in transgene expression between independent transformants. Moreover, the presence of BP-MAR appears to confer a copy number-dependent increase in transgene expression, although it does not increase expression levels of individual transgenes. These data contrast with results previously obtained with various MARs that increased expression levels of transgene significantly. Therefore, we conclude that the incorporation of BP-MAR sequences into the design of transformation vectors can minimize position effects and regulate transgene expression in a copy number-dependent way.S.-J. Oh, J.S. Jeong, E.-H. Kim, N.R. Yi and S.-I. Yi contributed equally to the paper     

Expression of recombinant human acetylcholinesterase in transgenic tomato plants

Enzyme therapy for the prevention and treatment of organophosphate poisoning depends on the availability of large amounts of cholinesterases. Transgenic plants are being evaluated for their efficiency and cost-effectiveness as a system for the bioproduction of therapeutically valuable proteins. Here we report production of a recombinant isoform of human acetylcholinesterase in transgenic tomato plants. Active and stable acetylcholinesterase, which retains the kinetic characteristics of the human enzyme, accumulated in tomato plants. High levels of specific activity were registered in leaves (up to 25 nmol min(-1) mg protein(-1)) and fruits (up to 250 nmol min(-1) mg protein(-1)).