Expression of the B subunit of<Emphasis Type="Italic"> Escherichia coli</Emphasis> heat-labile enterotoxin as a fusion protein in transgenic tomato

Epitopes often require co-delivery with an adjuvant or targeting protein to enable recognition by the immune system. This paper reports the ability of transgenic tomato plants to express a fusion protein consisting of the B subunit of the Escherichia coli heat-labile enterotoxin (LTB) and an immunocontraceptive epitope. The fusion protein was found to assemble into pentamers, as evidenced by its ability to bind to gangliosides, and had an average expression level of 37.8 microg g(-1) in freeze-dried transgenic tissues. Processing of selected transgenic fruit resulted in a 16-fold increase in concentration of the antigen with minimal loss in detectable antigen. The species-specific nature of this epitope was shown by the inability of antibodies raised against non-target species to detect the LTB fusion protein. The immunocontraceptive ability of this vaccine will be tested in future pilot mice studies.     

Expression of a cholera toxin B subunit and consensus dengue virus envelope protein domain III fusion gene in transgenic rice callus

Dengue (DEN) is one of the most important emerging mosquito-borne viral human diseases. Therefore, an effective dengue vaccine with immune responses against all four dengue virus serotypes is highly needed. A fusion gene encoding a synthetic consensus envelope protein domain III (scEDIII) of dengue virus with neutralizing activity against the four dengue virus serotypes and with the B subunit of cholera toxin (CTB) to increase its mucosal immunogenicity was constructed and was introduced into rice callus under the control of the inducible rice amylase 3D promoter expression system. The integration and expression of the CTB-scEDIII fusion gene in transgenic rice callus were confirmed by genomic DNA PCR amplification, Northern, and Western blot analyses, respectively. The biological binding activity of the CTB-cEDIII fusion protein to its G_M1-ganglioside receptor was confirmed via G_M1-ELISA with anti-CT and anti-dengue virus antibodies. Delivery of the CTB-cEDIII fusion protein into mucosal immune inductive sites (including M cells) in BALB/c mice was confirmed by in vitro and in vivo antigen uptake assays. These results showed that the CTB-cEDIII fusion protein was produced in the transgenic rice callus, and that plant-produced ligand fusion antigen proteins have the potential to be targeted to the mucosal immune system for improvement of the overall immune responses.     

Expression of synthetic neutralizing epitope of porcine epidemic diarrhea virus fused with synthetic B subunit of Escherichia coli heat-labile enterotoxin in tobacco plants

The pentameric B subunit of Escherichia coli heat-labile enterotoxin (LTB) can be used as an efficient mucosal carrier of either immunogenic or tolerogenic T-cell epitopes. Co-delivery of therapeutic proteins with carrier proteins could increase the effectiveness of the antigen. This paper reports the ability of transgenic tobacco plants to express a fusion protein consisting of the synthetic LTB and a synthetic neutralizing epitope of porcine epidemic diarrhea virus (PEDV), causing an enteric disease that is especially severe in piglets. Both components of the fusion proteins were detected in Western blot analysis, and binding assay confirmed that plant-synthesized pentameric LTB-PEDV fusion bound to the intestinal membrane GM1-ganglioside receptor. This suggested that the fusion protein retained both its native antigenicity and the ability to form pentamers.     

水稻Qb-SNARE蛋白OsNPSN11多克隆抗体制备、鉴定与应用

在真核生物细胞囊泡运输过程中的膜融合主要是由SNARE蛋白介导的, OsNPSN11是从水稻中克隆的Qb-SNARE家族基因, 文章将OsNPSN11构建到原核表达载体pET-30a中与6个His标签融合, 重组质粒pET-OsNPSN11转化BL21(DE3)0.5 mmol/L IPTG诱导4 h后获得了高效表达。用镍离子亲和树脂(Ni²⁺-NTA His Bind Resin) 纯化融合蛋白, 以纯化后的蛋白为抗原免疫新西兰家兔制备多克隆抗体, Western blotting结果显示, 该抗体能特异识别在原核系统表达的抗原, 以及水稻不同组织质膜组分中的OsNPSN11, 可用于转基因水稻中目标蛋白的表达分析。     

M Cell-Targeting Ligand and Consensus Dengue Virus Envelope Protein Domain III Fusion Protein Production in Transgenic Rice Calli

The spread of dengue (DEN) virus is becoming a major concern due to the possibility of primary infection with one of the four dengue serotypes (DEN 1–4) and secondary infection with other heterotypes, which can further aggravate clinical manifestations. A gene encoding consensus envelope protein domain III (cEDIII) of dengue virus with neutralizing activity against four dengue virus serotypes was fused to M cell-targeting peptide ligand (Co1) to increase its mucosal immunogenicity and was introduced into rice calli under the control of the inducible rice amylase 3D promoter expression system. The integration and expression of scEDIII–Co1 fusion gene in transgenic rice calli were confirmed by genomic DNA PCR amplification, Northern and Western blot analyses, respectively. The deliveries of cEDIII–Co1 fusion proteins into mucosal immune inductive site (including M cells) were confirmed by in vitro and in vivo antigen uptake assays. These results showed that plant-produced M cell-targeting peptide ligand, Co1, fusion antigen proteins have the potential to be targeted to the mucosal immune system for improvement of immune responses.     

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.     

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。     

Accumulation of rice prolamin–GFP fusion proteins induces ER-derived protein bodies in transgenic rice calli

Key message

We showed that rice prolamin polypeptides formed ER-derived PBs in transgenic rice calli, and that this heterologous transgene expression system is suitable for studying the mechanism of rice PB-I formation.

Abstract

Rice prolamins, alcohol-soluble seed storage proteins, accumulate directly within the rough endoplasmic reticulum (ER) lumen, leading to the formation of ER-derived type I protein bodies (PB-Is) in rice seed. Because rice prolamins do not possess a well-known ER retention signal such as K(H)DEL, or a unique sequence for retention in the ER such as a tandem repeat domain of maize and wheat prolamins, the mechanisms of prolamin accumulation in the ER and PB-I formation are poorly understood. In this study, we examined the formation mechanisms of PBs by expressing four types of rice prolamin species fused to green fluorescent protein (GFP) in transgenic rice calli. Each prolamin–GFP fusion protein was stably accumulated in rice calli and formed ER-derived PBs. In contrast, GFP fused with the signal peptide of prolamin was secreted into the intercellular space in rice calli. In addition, each of the four types of prolamin–GFP fusion proteins was co-localized with the ER chaperone binding protein. These results suggest that the mature polypeptide of prolamin is capable of being retained in the ER and induce the formation of PBs in non-seed tissue, and that the rice callus heterologous transgene expression system is useful for studying the mechanisms of rice PB-I formation.     

Oral immunisation of mice with transgenic rice calli expressing cholera toxin B subunit fused to consensus dengue cEDIII antigen induces antibodies to all four dengue serotypes

Dengue virus (DENV) infection is an emerging global health threat. DENV consists of four distinct serotypes, necessitating a tetravalent vaccine. In this study, expression of consensus envelope protein domain III (cEDIII) fused to cholera toxin B subunit (CTB) in transgenic rice calli was improved using the luminal binding protein BiP at the N-terminus and the SEKDEL signal sequences at the C-terminus, targeting the recombinant protein to endoplasmic reticulum (ER). We found that the fusion protein showed higher levels of expression when compared to the fusion proteins using rice amylase 3D (RAmy3D) or CTB native signal sequence only. The CTB-cEDIII fusion protein was evaluated as an oral dengue vaccine candidate in mice. Serotype specific systemic IgG antibodies and specific IgA response in feces were detected and furthermore, T cell proliferation and high frequency antibody-secreting B cells were detected in the spleen. These results suggest the possible use of plant-based dengue tetravalent vaccine targeted to the mucosal immune system for induction of systemic and mucosal immune responses to DENV infection.     

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.     

转新城疫病毒融合蛋白基因水稻植株的获得

以编码新城疫病毒融合蛋白(NDV—F)基因为外源基因,与玉米泛素蛋白(Ubi)启动子和农杆菌胭脂碱合成酶基因(NOS)终止子构建成嵌合基因,构建了适宜于农杆菌介导转化水稻的表达质粒pUNDV;并以潮霉素磷酸转移酶(HPT)基因作选择标记基因、β-半乳糖苷酸酶(GUS)基因作报告基因,借助于农杆菌介导转化水稻,获得了多株转基因植株。PCR分析和GUS活性检测结果证实含有NDV—F基冈的T—DNA已整合到水稻基因组中,为研制廉价的转基因水稻新城疫基因工程疫苗奠定了基础。     

Harnessing synthetic biology to enhance heterologous protein expression

The ability to express heterologous proteins in microbial hosts is crucial for many areas of research and technology. In most cases, however, successful expression and purification of the desired protein require fusion to another protein. To date, all fusion partners have been chosen from natural sequences, which evolved for other purposes, and may not be optimal fusion partners. However, the rise of synthetic biology and protein design make it possible to design and optimize fusion proteins using novel sequences that did not arise in nature. Here, we describe a series of De novo Expression Enhancer Proteins (DEEPs) that facilitate high‐level expression and facile purification of heterologous proteins and peptides. To test the DEEP system, a de novo protein was fused to several target proteins covering a range of sizes and solubilities. In all cases, fusions to DEEP outperformed fusions to SUMO, a commonly used natural fusion partner. The availability of novel proteins that can be engineered for specific fusion applications could be beneficial to enhance the expression of a wide range of heterologous proteins.     

OsLSD1, a rice zinc finger protein, regulates programmed cell death and callus differentiation

The Arabidopsis LSD1 and LOL1 proteins both contain three conserved zinc finger domains and have antagonistic effects on plant programmed cell death (PCD). In this study, a rice (Oryza sativa) functional homolog of LSD1, designated OsLSD1, was identified. The expression of OsLSD1 was light-induced or dark-suppressed. Overexpression of OsLSD1 driven by the cauliflower mosaic virus 35S promoter accelerated callus differentiation in transformed rice tissues and increased chlorophyll b content in transgenic rice plants. Antisense transgenic rice plants exhibited lesion mimic phenotype, increased expression of PR-1 mRNA, and an accelerated hypersensitive response when inoculated with avirulent isolates of blast fungus. Both sense and antisense transgenic rice plants conferred significantly enhanced resistance against a virulent isolate of blast fungus. Moreover, ectopic overexpression of OsLSD1 in transgenic tobacco (Nicotiana tabacum) enhanced the tolerance to fumonisins B1 (FB1), a PCD-eliciting toxin. OsLSD1 green fluorescent protein fusion protein was located in the nucleus of tobacco cells. Our results suggest that OsLSD1 plays a negative role in regulating plant PCD, whereas it plays a positive role in callus differentiation.     

Synthesis and assembly of dengue virus envelope protein fused to cholera toxin B subunit into biologically active oligomers in transgenic tomato (<Emphasis Type="Italic">Solanum lycopersicum</Emphasis>)

Dengue is the fastest growing mosquito-borne disease worldwide, causing nearly 400 million infections annually. A universally applicable dengue virus vaccine is required to arrest its spread. Here, we generated an edible dengue vaccine by expressing the dengue fusion protein in tomatoes, which is a desirable expression system owing to the inherent adjuvanticity of alpha tomatine and immunogenicity of the tomato lectin/microbial antigen complex. The B subunit of Vibrio cholera toxin (CTB) was genetically fused to dengue envelope antigen for improved delivery to antigen-presenting cells and enhanced immunogenicity, while avoiding immunological tolerance. We utilized domain III of the dengue envelope protein (EDIII), as it has been shown to induce serotype-specific neutralizing antibodies. The CTB–EDIII fusion gene construct containing an endoplasmic reticulum target sequence was introduced into tomato plants by Agrobacterium tumefaciens-mediated gene transformation, and the expression of CTB–EDIII in transgenic plants was confirmed by DNA, RNA and protein analyses. Accumulated fusion protein accounted for up to 0.015 % of total soluble protein, and it assembled into fully functional pentamers as demonstrated by binding to GM1 ganglioside. Future work will involve testing of transgenic tomatoes for immunogenicity in mice following oral delivery.