Immune response of heterologous recombinant antigenic protein of viral hemorrhagic septicemia virus (VHSV) in mice

Viral hemorrhagic septicemia (VHS) is an important infectious disease in fish worldwide caused by viral hemorrhagic septicemia virus (VHSV). VHSV is the causative agent of serious systemic diseases in fish, affecting a number of teleost fish species. In this study, VHSV glycoprotein (G), including its epitope, as a subunit vaccine candidate, was expressed in tobacco plant (Nicotiana tabacum). The recombinant gene, VHSVG, was fused to the immunoglobulin Fc fragment and extended with the endoplasmic reticulum (ER) retention signal (KDEL) to generate VHSVG-FcK. The recombinant expression vector for VHSVG-FcK was transferred into Agrobacterium tumefaciens (LBA4404), and plant transformation was conducted N. tabacum. Polymerase chain reaction (PCR) was performed to confirm gene insertion and VHSVG-FcK protein expression was confirmed by immunoblot analysis. VHSVG-FcK protein was successfully purified from tobacco plant leaves. Furthermore, ELISA analysis showed that mice serum immunized with the plant-derived VHSVG-FcK (VHSVGP-FcK) had a high absorbance against VHSVG-FcK, indicating that the plant-derived recombinant subunit vaccine protein VHSVG-FcK can induce immune response. Taken together, this recombinant vaccine protein can be expressed in plant expression systems and can be appropriately assembled to be functional in immunogenicity.     

Comparison of expression systems for the production of human interferon-α2b

The production of human interferon alpha2b (IFN-α2b) in two expression systems, tobacco (Nicotiana tabaccum) and Escherichia coli, was compared in various aspects such as safety, yield, quality of product and productivity. In the E. coli system, IFN-α2b was expressed under a pelB signal sequence and a T7lac promoter in a pET 26b(+) vector. The same gene was also cloned in expression plant vector (pCAMBIA1304) between cauliflower mosaic virus promoter (CaMV35S) and poly A termination region (Nos) and expressed in transgenic tobacco plants. The expression of protein in both systems was confirmed by western immunoblotting and the quantity of the protein was determined by immunoassay. The amount of periplasmic expression in E. coli was 60 μg/L of culture, while the amount of nuclear expression in the plant was 4.46 μg/kg of fresh leaves. The result of this study demonstrated that IFN-α2b was successfully expressed in periplasm of bacterial and plant systems. The limitations on the production of IFN-α2b by both systems are addressed and discussed to form the basis for the selection of the appropriate expression platform.     

Ubiquitin fusion enhances cholera toxin B subunit expression in transgenic plants and the plant-expressed protein binds GM1 receptors more efficiently

Developing plant based systems for the production of therapeutic recombinant proteins requires the development of efficient expression strategies and characterization of proteins made in heterologous cellular environment. In this study, the expression of cholera toxin B subunit (CtxB) was examined in the leaves of transgenic tobacco plants. A synthetic gene encoding CtxB was designed for high level expression in plant cells and cloned as ubiquitin (Ub) fusion in a plant expression vector. Tobacco plants were genetically engineered by nuclear transformation to express the CtxB or Ub-CtxB fusion proteins under the control of CaMV35S duplicated enhancer promoter. Functionally active CtxB accumulated in tobacco leaves at 2.5-fold higher level in the Ub-CtxB plants. In the best expressors, CtxB accumulated at 0.9% of the total soluble leaf protein. In both the constructs, molecular mass of the plant-expressed CtxB was 14.6 kDa in contrast to 11.6 kDa for the authentic CtxB. Schiff's test, retention on concanavalin A column and chemical and enzymatic deglycosylation established that the higher molecular mass was due to glycosylation of the CtxB expressed in plant cells. The glycosylated CtxB made in tobacco leaves had higher affinity of binding to the GM1 receptors.     

FGF‐8b induces growth and rich vascularization in an orthotopic PC‐3 model of prostate cancer

Fibroblast growth factor 8 (FGF‐8) is expressed at an increased level in a high proportion of prostate cancers and it is associated with a poor prognosis of the disease. Our aim was to study the effects of FGF‐8b on proliferation of PC‐3 prostate cancer cells and growth of PC‐3 tumors, and to identify FGF‐8b‐associated molecular targets. Expression of ectopic FGF‐8b in PC‐3 cells caused a 1.5‐fold increase in cell proliferation in vitro and a four‐ to fivefold increase in the size of subcutaneous and orthotopic prostate tumors in nude mice. Tumors expressing FGF‐8b showed a characteristic morphology with a very rich network of capillaries. This was associated with increased spread of the cancer cells to the lungs as measured by RT‐qPCR of FGF‐8b mRNA. Microarray analyses revealed significantly altered, up‐ and downregulated, genes in PC‐3 cell cultures (169 genes) and in orthotopic PC‐3 tumors (61 genes). IPA network analysis of the upregulated genes showed the strongest association with development, cell proliferation (CRIP1, SHC1), angiogenesis (CCL2, DDAH2), bone metastasis (SPP1), cell‐to‐cell signaling and energy production, and the downregulated genes associated with differentiation (DKK‐1, VDR) and cell death (CYCS). The changes in gene expression were confirmed by RT‐qPCR. In conclusion, our results demonstrate that FGF‐8b increases the growth and angiogenesis of orthotopic prostate tumors. The associated gene expression signature suggests potential mediators for FGF‐8b actions on prostate cancer progression and metastasis. J. Cell. Biochem. 107: 769–784, 2009. © 2009 Wiley‐Liss, Inc.     

The vaccine adjuvant extra domain A from fibronectin retains its proinflammatory properties when expressed in tobacco chloroplasts

We previously showed that recombinant extra domain A from fibronectin (EDA) purified from Escherichia coli was able to bind to toll-like receptor 4 (TLR4) and stimulate production of proinflammatory cytokines by dendritic cells. Because EDA could be used as an adjuvant for vaccine development, we aimed to express it from the tobacco plastome, a promising strategy in molecular farming. To optimize the amount of recombinant EDA (rEDA) in tobacco leaves, different downstream sequences were evaluated as potential fusion tags. Plants generated by tobacco plastid transformation accumulated rEDA at levels up to 2% of the total cellular protein (equivalent to approximately 0.3 mg/g fresh weight) when translationally fused to the first 15 amino acids of green fluorescence protein (GFP). The recombinant adjuvant could be purified from tobacco leaves using a simple procedure, involving ammonium sulfate precipitation and anion exchange chromatography. Purified protein was able to induce production of tumour necrosis factor-α (TNF-α) either by bone marrow-derived dendritic cells or THP-1 monocytes. The rEDA produced in tobacco leaves was also able to induce upregulation of CD54 and CD86 maturation markers on dendritic cells, suggesting that the rEDA retains the proinflammatory properties of the EDA produced in E. coli and thus could be used as an adjuvant in vaccination against infectious agents and cancer. Taken together, these results demonstrate that chloroplasts are an attractive production vehicle for the expression of this protein vaccine adjuvant.     

Construction of genetically modified tobacco (<Emphasis Type="Italic">Nicotiana tabacum</Emphasis> cv. Petit Havana) harboring <Emphasis Type="Italic">ompH(A:3)</Emphasis> from <Emphasis Type="Italic">Pasteurella multocida</Emphasis> (A:3)

Fowl cholera, caused by Pasteurella multocida (A:3), is a fearsome disease leading to a nonproductive influence upon poultry industry. It has been known that outer membrane protein H (OmpH) in the bacterium is a strong candidate to bring on the notorious ailment. Genetically modified (GM) tobacco (Nicotiana tabacum cv. Petit Havana) harboring ompH(A:3) was constructed to develop a plant expression system for the protein, OmpH(A:3). Some 987 bp-long (ORF with the stop codon, TAA) of the ompH(A:3) excluding the nucleotide for signal peptide, was amplified by RT-PCR with the gene specific primers and pGEM-T-ompH(A:3) as template DNA. The PCR-amplified DNA was ligated into BamHI/Sacl-cut pBI121 to obtain a recombinant plasmid, pBI121-ompH(A:3). It was then transformed into Agrobacterium tumefaciens (LBA 4404) by liquid nitrogen method to generate a recombinant clone of Agrobacterium LBA4404/pBI121-ompH(A:3). The Agrobacterium LBA4404/pBI121-ompH(A:3) was inoculated into leaf discs of tobacco (2 day old). The gene-transfected leaves were cultured on Murashige-Skoog basal medium containing kanamycin (50 mg/mL) to generate numerous calli, from which some GM tobacco plants were obtained. Transgenicity of the tobacco plant was confirmed by PCR screening along with the DNA sequencing. Also, its expression in the GM-tobacco was examined qualitatively as well as quantitatively by ELISA/Western blot. These results suggest that the genetically modified tobacco plant can be potentially used as a model system to develop plant-based vaccine against the fowl cholera.     

Expression of the major mugwort pollen allergen Art v 1 in tobacco plants and cell cultures: problems and perspectives for allergen production in plants

An economic and cheap production of large amounts of recombinant allergenic proteins might become a prerequisite for the common use of microarray-based diagnostic allergy assays which allow a component-specific diagnosis. A molecular pharming strategy was applied to express the major allergen of Artemisia vulgaris pollen, Art v 1, in tobacco plants and tobacco cell cultures. The original Art v 1 with its endogenous signal peptide which directs Art v 1 to the secretory pathway, was expressed in transiently transformed tobacco leaves but was lost in stable transformed tobacco plants during the alternation of generations. Using a light-regulated promoter and “hiding” the recombinant Art v 1 in the ER succeeded in expression of Art v 1 over three generations of tobacco plants and in cell cultures generated from stable transformed plants. However, the amounts of the recombinant allergen were sufficient for analysis but not high enough to allow an economic production. Although molecular pharming has been shown to work well for the production of non-plant therapeutic proteins, it might be less efficient for closely related plant proteins.     

Expression of a chimeric CaMV 35S Bacillus thuringiensis insecticidal protein gene in transgenic tobacco

Insecticidal transgenic tobacco plants containing a truncated Bacillus thuringiensis cryIA(b) crystal protein (ICP) gene expressed from the CaMV 35S promoter were analyzed for ICP gene expression under field and greenhouse conditions over the course of a growing season. We present new information on temporal and tissue-specific expression of a CaMV 35S/cryIA(b) gene. Levels of cryIA(b) protein and mRNA were compared in both homozygous and hemizygous lines throughout plant development. Levels of ICP mRNA and protein increased during plant development with a pronounced rise in expression at the time of flowering. Homozygous ICP lines produced higher levels of ICP than the corresponding hemizygous lines. ELISA analysis of different tissues in the tobacco plant showed ICP gene expression in most tissues with a predominance of ICP in older tissue. All transgenic ICP tobacco lines which were studied in the field and greenhouse contained 400 ng to 1 g ICP per gram fresh weight in leaves from the mid-section of the plant at flowering. The amounts of ICP produced by field lines were directly comparable to levels observed in greenhouse-grown plants.     

Enhanced expression of the human CD14 protein in tobacco using a 22-kDa alpha-zein signal peptide

The human CD14, a high affinity receptor for lipopolysaccharides (LPS), is involved in the innate immunity system and the inflammatory response. There is increasing interest in using recombinant approaches to produce purified CD14 protein for therapeutic uses. Plants provide ideal expression systems for the production of recombinant proteins, but the levels of expression of recombinant proteins produced in planta are still not high. To improve expression levels of CD14 the 22-kDa alpha-zein signal peptide (ZSP) from maize was fused to the human CD14 cDNA so that recombinant CD14 could stably accumulate in plant cells. The human CD14 gene and the modified human CD14 cDNA with the 22-kDa ZSP were respectively transformed into tobacco to produce transgenic plants. Western blot analysis confirmed human CD14 accumulation in the transgenic tobacco. The concentration of the recombinant protein in the tobacco leaves was measured by ELISA, and the results suggested that fusion with the 22-kDa alpha-ZSP effectively increased the accumulation of the recombinant protein (rCD14). The concentration of rCD14 in some of the transgenic lines was 19.54???g?g^?1 tobacco leaf (fw), which was about 0.6?% of the total soluble protein. The rCD14 protein showed natural LPS-binding bioactivity by using U937 cells mensuration. Our results suggested that the maize 22-kDa alpha-zein signal peptide could be used to increase the accumulation of recombinant protein in tobacco leaves so that proteins can be produced in abundant biomass.     

Efficient transient expression of human GM-CSF protein in Nicotiana benthamiana using potato virus X vector

The human granulocyte macrophage colony-stimulating factor (GM-CSF) is a glycoprotein with important clinical applications for the treatment of neutropenia and aplastic anemia and reducing infections associated with bone marrow transplants. We evaluated the potential for using a potato virus X (PVX) viral vector system for efficient expression of the biologically functional GM-CSF protein in Nicotiana benthamiana leaves. The GM-CSF gene was cloned into PVX viral expression vector, driven with the CaMV 35S promoter. Gene transfer was accomplished by inoculating N. benthamiana leaves with the plasmid DNA of PVX vector containing the GM-CSF gene. The expression level of the recombinant GM-CSF protein was determined with ELISA and its size was confirmed by Western blot analysis. The results showed that: (1) leaf age significantly affects GM-CSF protein concentration with younger leaves accumulating 19.8 mg g⁻¹ soluble protein which is 2.6 times the concentration in older leaves, (2) recombinant protein accumulation within a given leaf declined slightly over time but was not significantly different between 7 and 11 days post-inoculation (dpi), and (3) the two leaves immediately above the inoculated leaves play an important role for GM-CSF accumulation in the younger leaves. Protein extracts of infected N. benthamiana leaves contained recombinant human GM-CSF protein in concentrations of up to 2% of total soluble protein, but only when the pair of leaves immediately above the inoculated leaves remained intact. The recombinant protein actively stimulated the growth of human TF-1 cells suggesting that the recombinant human GM-CSF expressed via PVX viral vector was biologically active.     

重组人成纤维细胞生长因子8b原核表达载体的构建和纯化研究

成纤维细胞生长因子8b(fibroblast growth factor, FGF8b)在生长因子中与内分泌癌的发生和发展相关联,是一个有潜在临床应用价值的候选分子,为了满足重组人FGF8b的研发需要,论文采用分子克隆的方法构建了以包涵体形式表达FGF8b的重组大肠杆菌,并初步摸索出包涵体蛋白的纯化和复性工艺条件,通过Western blot和MTT法鉴定了FGF8b的生物化学特征和促增殖活性,表明利用包涵体复性技术初步得到了具有活性的蛋白,为后续研发进程奠定了基础。     

Characterization of auxin-binding protein 1 from tobacco: content, localization and auxin-binding activity

There is evidence that auxin-binding protein 1 (ABP1) is an auxin receptor on the plasma membrane. Maize (Zea mays L.) possesses a high level of auxin-binding activity due to ABP1, but no other plant source has been shown to possess such an activity. We have analyzed the ABP1 content of tobacco (Nicotiana tabacum L.) to examine whether or not the ABP1 content of maize is exceptionally high among plants. The ABP1 content of tobacco leaves was shown by quantitative immunoblot analysis to be between 0.7 and 1.2 μg ABP1 per gram of fresh leaf. This value is comparable to the reported value in maize shoots, indicating that ABP1 is present at a similar level in both monocot and dicot plants. The ABP1 content of tobacco leaves was increased up to 20-fold by expression of a recombinant ABP1 gene, and decreased to half of the original value by expression of the antisense gene. Although ABP1 was found mainly in the endoplasmic reticulum fraction, a secreted protein showing a molecular size and epitopes similar to intracellular ABP1 was also detected in the culture medium of tobacco leaf disks. The secretion of this protein was dependent on the expression level of the ABP1 gene. Received: 24 February 1999 / Accepted: 25 March 1999     

Ectopic expression of a conifer <Emphasis Type="Italic">Abscisic Acid Insensitive3</Emphasis> transcription factor induces high-level synthesis of recombinant human α-<Emphasis Type="SmallCaps">l</Emphasis>-iduronidase in transgenic tobacco leaves

We are examining various plant-based systems to produce enzymes for the treatment of human lysosomal storage disorders. Constitutive expression of the gene encoding the human lysosomal enzyme, alpha-L-iduronidase (IDUA; EC 3.2.1.76) in leaves of transgenic tobacco plants resulted in low-enzyme activity, and the protein appeared to be subject to proteolysis. Toward enhancing production of this recombinant enzyme in vegetative tissues, transgenic tobacco plants were generated to co-express a CaMV35S:Chamaecyparis nootkatensis Abscisic Acid Insensitive3 (CnABI3) gene construct, along with the human gene construct. The latter contained regulatory sequences of the Phaseolus vulgaris arcelin 5-I gene (5'-flanking, signal-peptide-encoding, and 3'-flanking regions). Ectopic synthesis of the CnABI3 protein led to the transactivation of the arcelin promoter and accordingly high activity (e.g., 25,000 pmol/min/mg total soluble protein) and levels of recombinant IDUA mRNA and protein were induced in leaves of transgenic tobacco, particularly in the presence of 150-200 microM S-(+)-ABA. Synthesis of human IDUA containing a carboxy-terminal ER retention (SEKDEL) sequence was also inducible by ABA in leaves co-transformed with the CnABI3 gene. As compared to the natural S-(+)-ABA, two persistent ABA analogues, (+)-8' acetylene ABA and (+)-8'methylene ABA, led to greater levels of beta-glucuronidase (GUS) reporter activities in leaves co-expressing the CnABI3 gene and a vicilin:GUS chimeric gene. In contrast, (+)-8' acetylene ABA and natural ABA appeared to be equally effective in stimulating the CnABI3-induced expression of an arcelin:GUS gene, and of the human IDUA gene, the latter also driven by arcelin-gene-regulatory sequences. Various stress-related treatments, particularly high concentrations of NaCl, had an even greater effect than ABA in promoting accumulation of human IDUA in co-transformed tobacco leaves. This strategy provides the means of enhancing the yields of recombinant proteins in transgenic plant vegetative tissues and potentially in cultured plant cells. The human recombinant protein can be readily induced in the presence of chemicals such as NaCl that can be added to cell cultures or even whole plants without a significant increase in production costs.     

Expression and Characterization of Fibroblast Growth Factor 8 from Mexican Axolotl, Ambystoma mexicanum

Fibroblast growth factor (FGF) has been known to regulate the proliferation and differentiation of a variety of cell types via interaction with a specific FGF receptor on the cell surface. In the present study, Fgf8 cDNA of Mexican axolotl, Ambystoma mexicanum, was expressed in Escherichia coli as an MBP-FGF8 fusion protein. The cell proliferation activity of the recombinant FGF8 (rFGF8) was measured by 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyl tetrazoliumbromide (MTT) assay. The addition of rFGF8 to the culture medium enhanced proliferation of BALB/c 3T3 and BHK21 cells about 1.4--1.5 fold. To analyze the binding activity of rFGF8 to the cell surface, cell surface enzyme linked immunosorbent assay was developed. Comparison of the structure of basic FGF with the computer-simulated structure of FGF8 suggested that Tyr-58, Glu-132, Tyr-139, and Leu-179 might be the potential receptor binding sites. Amino acid substitution muteins of FGF8 were constructed by PCR-derived directed mutagenesis and the muteins were overexpressed in E. coli. The rFGF8 muteins were purified and their binding activities were analyzed. Substitution of Tyr-58 or Glu-132 or Leu-179 of the FGF8 with alanine reduced the binding affinity, while substitution of Tyr-139 with alanine did not alter the binding affinity. These results imply that Tyr-58, Glu-132, and Leu-179 of FGF8 might be involved in its binding to the cell surface.     

High-level expression of the HIV-1 Pr55gag polyprotein in transgenic tobacco chloroplasts

Plants have been recognized as a promising production platform for recombinant pharmaceutical proteins. The human immunodeficiency virus Gag (Pr55^gag) structural polyprotein precursor is a prime candidate for developing a HIV-1 vaccine, but, so far, has been expressed at very low level in plants. The aim of this study was to investigate factors potentially involved in Pr55^gag expression and increase protein yield in plant cells. In transient expression experiments in various subcellular compartments, the native Pr55^gag sequence could be expressed only in the chloroplast. Experiments with truncated subunits suggested a negative role of the 5′-end on the expression of the full gene in the cytosol. Stable transgenic plants were produced in tobacco by Agrobacterium-mediated nuclear transformation with protein targeted to plastids, and biolistic-mediated plastid transformation. Compared to the nuclear genome, the integration and expression of the gag transgene in the plastome resulted in significantly higher protein accumulation levels (up to 7–8% TSP, equivalent to 312–363 mg/kg FW). In transplastomic plants, a 25-fold higher protein accumulation was obtained by translationally fusing the Pr55^gag polyprotein to the N-terminus of the plastid photosynthetic RbcL protein. In chloroplasts, the Pr55^gag polyprotein was processed in a pattern similar to that achieved by the viral protease, the processing being more extended in older leaves of mature plants. The Gag proteins produced in transgenic plastids were able to assemble into particles resembling VLPs produced in baculovirus/insect cells and E. coli systems. These results indicate that plastid transformation is a promising tool for HIV antigen manufacturing in plant cells. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. IGV publication no. 330     

Molecular characterization of tobacco mitochondrial L-galactono-gamma-lactone dehydrogenase and its expression in Escherichia coli

A cDNA clone encoding L-galactono-gamma-lactone (GAL) dehydrogenase (EC 1.3.2.3) was isolated from tobacco leaves. The cDNA clone contained an open reading frame encoding the protein of 501 amino acids with a calculated molecular mass of 56,926 Da, preceded by a putative mitochondrial targeting signal consisting of 86 amino acid residues. In fact, GAL dehydrogenase was localized in the mitochondria of tobacco cells. The deduced amino acid sequence of the cDNA showed 77 and 82% homology to cauliflower and sweet potato GAL dehydrogenases, respectively. Southern blot analysis showed that tobacco contains one copy of the gene for the enzyme. Northern blot analysis showed that GAL dehydrogenase mRNA (2.0 kb) is expressed in the leaves, stems, and roots in almost equal quantities. We introduced the cDNA clone encoding tobacco GAL dehydrogenase into a pET expression vector to overexpress this protein in Escherichia coli. The partially purified recombinant enzyme was used for comparative studies on the native enzymes from tobacco and other sources; its enzymatic properties were similar to those of other GAL dehydrogenases.