The suppression of the glutelin storage protein gene in transgenic rice seeds results in a higher yield of recombinant protein

Glutelin is a major seed storage protein, accounting for 60?C80?% of the total endosperm protein content in rice. To test whether we could augment the expression of an introduced recombinant protein in rice by suppressing the glutelin gene, we generated transgenic glutelin RNAi (glu RNAi) rice seeds. RNA gel blot analyses confirmed that the endogenous glutelin gene was severely suppressed in these transgenic rice lines. RT-PCR analysis further revealed that all the members of glutelin multigene family were downregulated. Transgenic glu RNAi rice seeds expressing a recombinant red fluorescent protein (RFP) showed stronger fluorescence than seeds transformed with the RFP gene only. Western blot analysis further revealed that the relative accumulation of RFP in glu RNAi seeds was twofold higher than that in the RFP-only transgenic seeds. These results suggest that RNAi targeting of an endogenous storage protein could be of great utility in obtaining higher transgene expression in genetically engineered rice and other plant lines.     

Expression and localization of human lysozyme in the endosperm of transgenic rice

In order to understand the characteristics of recombinant protein expression and sublocalization in rice ( Oryza sativa L.) endosperm, we examined the expression level of human lysozyme protein and its subcellular location in transgenic rice seeds driven by rice glutelin and globulin promoters and signal peptides. A time course of human lysozyme expression during endosperm development was analyzed. The results showed that the expression profile of recombinant protein accumulation in endosperm paralleled that of the two storage proteins. Immunofluorescence microscopy revealed that human lysozyme and storage proteins co-localized to type-II protein bodies. Both promoter-signal peptide parings targeted recombinant protein to the protein bodies. In addition, a transgenic line with a higher lysozyme expression level exhibited morphologically different protein bodies with an unbalanced composition of lysozyme and native storage proteins. The high-level expression of recombinant protein distorted the trafficking and sorting of native storage proteins in rice endosperm and affected the expression of native storage protein.     

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 modified gene encoding functional human α-1-antitrypsin protein in transgenic tomato plants

Transgenic plants offer promising alternative for large scale, sustainable production of safe, functional, recombinant proteins of therapeutic and industrial importance. Here, we report the expression of biologically active human alpha-1-antitrypsin in transgenic tomato plants. The 1,182 bp cDNA sequence of human AAT was strategically designed, modified and synthesized to adopt codon usage pattern of dicot plants, elimination of mRNA destabilizing sequences and modifications around 5' and 3' flanking regions of the gene to achieve high-level regulated expression in dicot plants. The native signal peptide sequence was substituted with modified signal peptide sequence of tobacco (Nicotiana tabacum) pathogenesis related protein PR1a, sweet potato (Ipomoea batatas) sporamineA and with dicot-preferred native signal peptide sequence of AAT gene. A dicot preferred translation initiation context sequence, 38 bp alfalfa mosaic virus untranslated region were incorporated at 5' while an endoplasmic reticulum retention signal (KDEL) was incorporated at 3' end of the gene. The modified gene was synthesized by PCR based method using overlapping oligonucleotides. Tomato plants were genetically engineered by nuclear transformation with Agrobacterium tumefaciens harbouring three different constructs pPAK, pSAK and pNAK having modified AAT gene with different signal peptide sequences under the control of CaMV35S duplicated enhancer promoter. Promising transgenic plants expressing recombinant AAT protein upto 1.55% of total soluble leaf protein has been developed and characterized. Plant-expressed recombinant AAT protein with molecular mass of around approximately 50 kDa was biologically active, showing high specific activity and efficient inhibition of elastase activity. The enzymatic deglycosylation established proper glycosylation of the plant-expressed recombinant AAT protein in contrast to unglycosylated rAAT expressed in E. coli ( approximately 45 kDa). Our results demonstrate feasibility for high-level expression of biologically active, glycosylated human alpha-1-antitrypsin in transgenic tomato plants.     

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.     

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.     

新城疫病毒融合蛋白在转基因水稻叶片中的表达及其免疫原性

利用转基因植物作为生物反应器表达抗原蛋白具有广阔的应用前景。以新城疫病毒融合蛋白（NDVF）基因1.7kb全长编码区序列为外源基因与组成型表达的玉米泛素蛋白基因（Ubi）启动子和农杆菌胭脂碱合成酶基因（nos）终止子组成嵌合基因,构建了适宜于农杆菌介导转化水稻的转化载体pUNDV,经根癌农杆菌介导的遗传转化方法将由Ubi动子驱动的NDVF嵌合基因导入水稻细胞中,经潮霉素抗性筛选,共再生获得了6个独立的转基因株系。PCR分析结果表明NDVF基因已整合到水稻基因组中。ELISA和Western blot分析结果证实NDVF蛋白在部分转基因水稻叶片组织中获得表达,其中植株F5叶片组织中具有较高的表达水平。将F5叶片可溶性总蛋白皮下注射免疫BALB／c小鼠,结果表明能够诱导小鼠产生一定水平的NDVF蛋白特异抗体。     

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.     

The High-Level Expression of Human Tissue Plasminogen Activator in the Milk of Transgenic Mice with Hybrid Gene Locus Strategy

Transgene expression for the mammary gland bioreactor aimed at producing recombinant proteins requires optimized expression vector construction. Previously we presented a hybrid gene locus strategy, which was originally tested with human lactoferrin (hLF) as target transgene, and an extremely high-level expression of rhLF ever been achieved as to 29.8 g/l in mice milk. Here to demonstrate the broad application of this strategy, another 38.4 kb mWAP-htPA hybrid gene locus was constructed, in which the 3-kb genomic coding sequence in the 24-kb mouse whey acidic protein (mWAP) gene locus was substituted by the 17.4-kb genomic coding sequence of human tissue plasminogen activator (htPA), exactly from the start codon to the end codon. Corresponding five transgenic mice lines were generated and the highest expression level of rhtPA in the milk attained as to 3.3 g/l. Our strategy will provide a universal way for the large-scale production of pharmaceutical proteins in the mammary gland of transgenic animals.     

水稻草矮病毒NS6基因在大肠杆菌中的表达及植物表达载体的构建

Large amount of disease-specific protein(SP) accumulated in the rice plant cells infected by rice grassy stunt virus(RGSV). It was deduced that the protein was encoded by NS6 gene on genomic vRNA6 and thus referred to as NS6 protein.But its function is unknown. In an effort to prove the above deduction and to elucidate the function of NS6 protein of RGSV, we constructed a bacterial expression plasmid pGTNS6 producing a fusion protein of glutathione S-transferase (GST) and NS6 protein, and a plant expression vector pCBTNSv6 containing NS6 gene. A recombinant plasmid pTNSv 6 containing the coding region of NS6 gene and the non-coding region at its 5' terminus, cloned by RT-PCR from purified RNAs of Shaxian isolate of RGSV, was used as the start point. Western blot analysis showed that the fusion protein reacted strongly with antisera raised against RGSV-SP, which served as evidence of the deduction.EHA105 of Agrobacterium tumefasciens containing pCBTNSv6 has been obtained and the transformation of rice is underway.     

Constitutive Expression of Soybean Ferritin cDNA Intransgenic Wheat and Rice Results in Increased Iron Levels in Vegetative Tissues but not in Seeds

We used particle bombardment to produce transgenic wheat and rice plants expressing recombinant soybean ferritin, a protein that can store large amounts of iron. The cDNA sequence was isolated from soybean by RT-PCR and expressed using the constitutive maize ubiquitin-1 promoter. The presence of ferritin mRNA and protein was confirmed in the vegetative tissues and seeds of transgenic wheat and rice plants by northern and western blot analysis, respectively. The levels of ferritin mRNA were similar in the vegetative tissues of both species, but ferritin protein levels were higher in rice. Both ferritin mRNA and protein levels were lower in wheat and rice seeds. ICAP spectrometry showed that iron levels increased only in vegetative tissues of transgenic plants, and not in the seeds. These data indicate that recombinant ferritin expression under the control of the maize ubiquitin promoter significantly increases iron levels invegetative tissues, but that the levels of recombinant ferritin in seeds are not sufficient to increase iron levels significantly over those in the seeds of non-transgenic plants.     

Production of human growth hormone in transgenic rice seeds: co-introduction of RNA interference cassette for suppressing the gene expression of endogenous storage proteins

Rice seeds are potentially useful hosts for the production of pharmaceutical proteins. However, low yields of recombinant proteins have been observed in many cases because recombinant proteins compete with endogenous storage proteins. Therefore, we attempt to suppress endogenous seed storage proteins by RNA interference (RNAi) to develop rice seeds as a more efficient protein expression system. In this study, human growth hormone (hGH) was expressed in transgenic rice seeds using an endosperm-specific promoter from a 10 kDa rice prolamin gene. In addition, an RNAi cassette for reduction of endogenous storage protein expressions was inserted into the hGH expression construct. Using this system, the expression levels of 13 kDa prolamin and glutelin were effectively suppressed and hGH polypeptides accumulated to 470 μg/g dry weight at the maximum level in transgenic rice seeds. These results suggest that the suppression of endogenous protein gene expression by RNAi could be of great utility for increasing transgene products.     

Effects of the new C1q/TNF-related protein (CTRP-3) "cartonectin" on the adipocytic secretion of adipokines

Background: Cartonectin (collagenous repeat‐containing sequence of 26‐kDa protein; CORS‐26) was described as a new adipokine of the C1q/TNF molecular superfamily C1q/TNF‐related protein‐3 (CTRP‐3), secreted by the adipocytes of mice and humans. The receptor and function of cartonectin are unknown and the recombinant protein is not commercially available. Objective: To investigate the effects of recombinant cartonectin on the secretion of adipokines such as adiponectin, leptin, and resistin from adipocytes of human and murine origin. The effect of the BMI of the adipocyte donor was also investigated. Methods and Procedures: Human adipocytes from pooled lean and preobese healthy individuals and murine 3T3‐L1 adipocytes were used for stimulation experiments. Recombinant cartonectin was expressed in insect H5 cells. Adipokine secretion was measured using enzyme‐linked immunosorbent assay. In addition, western blot analysis and luciferase reporter gene assays were employed. Results: Cartonectin (1, 10, 50, and 250 ng/ml) in higher doses stimulates the secretion of adiponectin and resistin from murine adipocytes. This effect is not caused by an induction of peroxisome proliferator‐activated receptor‐γ (PPAR‐γ) protein expression, as confirmed by western blot analysis. Also, luciferase reporter gene assay revealed that cartonectin failed to induce luciferase activity at the peroxisome proliferator‐activated receptor responsive element site containing the adiponectin/luciferase promoter fragment. Human adipocytes from lean individuals secrete higher amounts of adiponectin and leptin when compared with adipocytes of individuals with a preobesity BMI (25–30 kg/m²). Cartonectin failed to stimulate adiponectin or leptin secretion from human adipocytes, irrespective of the BMI value. Discussion: Cartonectin is a new adipokine that differentially regulates the secretion of classical adipokines, with marked differences between the human and the murine systems. These effects are species‐dependent, while basal adipokine secretion is influenced by the BMI.     

Commercial production of aprotinin in transgenic maize seeds

The development of genetic transformation technology for plants has stimulated an interest in using transgenic plants as a novel manufacturing system for producing different classes of proteins of industrial and pharmaceutical value. In this regard, we report the generation and characterization of transgenic maize lines producing recombinant aprotinin. The transgenic aprotinin lines recovered were transformed with the aprotinin gene using the bar gene as a selectable marker. The bar and aprotinin genes were introduced into immature maize embryos via particle bombardment. Aprotinin gene expression was driven by the maize ubiquitin promoter and protein accumulation was targeted to the extracellular matrix. One line that showed a high level of aprotinin expression was characterized in detail. The protein accumulates primarily in the embryo of the seed. Southern blot analysis showed that the line had at least 20 copies of the bar and aprotinin genes. Further genetic analysis revealed that numerous plants derived from this transgenic line had a large range of levels of expression of the aprotinin gene (0–0.069%) of water-soluble protein in T₂ seeds. One plant lineage that showed stable expression after 4 selfing generations was recovered from the parental transgenic line. This line showed an accumulation of the protein in seeds that was comparable to the best T₂ lines, and the recombinant aprotinin could be effectively recovered and purified from seeds. Biochemical analysis of the purified aprotinin from seeds revealed that the recombinant aprotinin had the same molecular weight, N-terminal amino acid sequence, isoelectric point, and trypsin inhibition activity as native aprotinin. The demonstration that the recombinant aprotinin protein purified from transgenic maize seeds has biochemical and functional properties identical to its native counterpart provides a proof-of-concept example for producing new generation products for the pharmaceutical industry.     

Development of Transgenic Mice Expressing Calcitonin as a Beta-lactoglobulin Fusion Protein in Mammary Gland

Expression of foreign proteins in mammalian milk is becoming a widespread strategy for high-level production of recombinant pharmaceuticals, especially those with the most complex post-translational modifications. A milk-specific ovine beta-lactoglobulin (oBLG) promoter was used to drive expression of recombinant calcitonin in mouse milk. A gene construct was generated, consisting of 10.7 kbp of the oBLG gene including its promoter and 3′ flanking region with the calcitonin coding sequences inserted in-frame into the oBLG fifth exon. After microinjection, six founder mice transmitted the transgene to their progeny. RT-PCR confirmed mammary-gland specific expression of recombinant mRNA in most transgenic mice and Western blot analysis confirmed expression of chimeric protein. Calcitonin can thus be expressed under the oBLG promoter and regulatory elements in a mammary-gland specific manner.     

Subcellular targeting of green fluorescent protein to plastids in transgenic rice plants provides a high-level expression system

In order to develop a high-level expression system in transgenic rice, we inserted a synthetic gene (sgfp) encoding a modified form of the green fluorescent protein (GFP) into two expression vectors, Act1-sgfp for an untargeted and rbcS-Tp-sgfp for a chloroplast targeted expression. Several fertile transgenic rice plants were produced by the Agrobacterium-mediated method. Confocal microscopic analyses demonstrated that, in cells expressing the Act1-sgfp, GFP fluorescence was localized within the cytoplasm and nucleoplasm whereas, in cells expressing the rbcS-Tp-sgfp fusion gene, the fluorescence was specifically targeted to chloroplasts and non-green plastids. The levels of sgfp expression were about 0.5% of the total soluble protein in mature leaf tissues of the Act1-sgfp transformed lines. In contrast, expression levels were markedly increased in mature leaf tissues of the rbcS-Tp-sgfp transformed lines, yielding about 10% of the total soluble protein. N-terminal sequencing of the localized GFPs revealed that the Tp-GFP fusion protein was correctly processed during import to non-green plastids, as well as to chloroplasts. Thus, our results demonstrate that GFP can be produced at high levels and localized in specific subcellular spaces of transgenic plants, providing a high-level expression system for general use in rice, an agronomically important cereal.     

Immunogenicity of recombinant hepatitis B virus surface antigen fused with preS1 epitopes expressed in rice seeds

To test the possibility of producing a novel hepatitis B vaccine in plants, the modified hepatitis B virus (HBV) surface antigen (HBsAg) gene SS1 was expressed in rice under the control of the seed-specific Glub-4 promoter. The SS1 gene encodes a fusion protein consisting of amino acids 21-47 of the hepatocyte receptor-binding presurface 1 region (preS1) fused to the truncated C-terminus of the major HBV surface (S) protein. The production of antibodies against the preS1 region acts to protect humans against HBV infection by preventing HBV from binding to hepatocytes. The presence of SS1 in the genome of transgenic rice was confirmed by PCR and Southern blot analysis, and RNA dot blot analysis indicated that the fused SS1 gene was specifically expressed in rice seeds, with the highest expression level being about 31.5 ng/g dry weight grain. Western blot analysis revealed that the recombinant SS1 protein could be specifically recognized by both an anti-S protein antibody and an anti-preS1 antibody. The recombinant SS1 protein was also observed to form virus-like particles with a diameter of about 22 nm and a density of 1.25 g cm(-3). Furthermore, immunological responses against both the S and preS1 epitopes were induced in BALB/c mice immunized with the recombinant SS1 protein, indicating that this rice-derived SS1 protein could be a promising candidate as an alternative HBV vaccine for preventing hepatitis B.