Ravinder Sardana

Transgenic rice plants with a synthetic cry1Ab gene from Bacillus thuringiensis were highly resistant to eight lepidopteran rice pest species.

To fully explore the resistance potential of transgenic rice produced by Agrobacterium-mediated transformation, an elite line KMD1 was assessed for its resistance to eight lepidopteran rice pest species. KMD1 contained a synthetic cry1Ab gene from Bacillus thuringiensis under the control of a maize ubiquitin promoter. It was derived from a commercial japonica Chinese rice variety Xiushui 11, and bred true for both agronomic traits and a cry1Ab gene when the bioassays were done in 1998 in the R5 generation. The eight lepidopteran pest species were: four Pyralidae species: Chilo suppressalis (striped stem borer, SSB), Scirpophaga incertulas (yellow stem borer, YSB), Cnaphalocrocis medinalis (leaf folder), Herpitogramma licarisalis; two Noctuidae: Sesamia inferens (pink stem borer, PSB) and Naranga anescens; one Stayridae: Mycalesis gotama; and one Hesperiidae, Parnara guttata. In laboratory bioassays, 100% mortality was observed in all insect species when their newly hatched or third-instar larvae were fed KMD1 leaf tissues, whereas only 9.65% of the neonates and none of the third-instar larvae died when fed the leaf tissues of non-transgenic control. Moreover, the leaf area of control tissues consumed in four days by stem borers was 20 to 40 times higher than that of KMD1 tissues, and the area of control tissues eaten by leaf-feeding species was 120 to 180 times greater than that of the transgenic tissues. Under natural infestation, no KMD1 plant was visibly damaged by the SSB, YSB and leaf folder in field evaluation. On the other hand, 80, 9.3 and 88.7% of control plants were injured by SSB, YSB, and leaf folder, respectively. These data disclosed that the transgenic line was highly resistant to a broad spectrum of lepidopteran insect species and could be useful in insect resistance breeding programs.

Development of biopharmaceuticals in plant expression systems: cloning, expression and immunological reactivity of human cytomegalovirus glycoprotein B (UL55) in seeds of transgenic tobacco.

Plant seeds offer unique opportunities for the production and delivery of oral subunit vaccines. We have used the immunodominant glycoprotein B complex of human cytomegalovirus (HCMV), introduced into tobacco plants, as a model system for studying the merit of this promising approach. Given the advantages of expressing proteins in seeds, a novel expression vector was developed incorporating regulatory sequences of glutelin, the major rice seed storage protein, to direct synthesis of recombinant glycoprotein B. Analysis of genomic DNA of 28 selected tobacco transformants by PCR amplification showed that 71% harboured the gB cDNA, a finding further documented by Southern blotting. Specific immunoassays of protein extracts from seeds of positive plants showed that all were producing antigenic glycoprotein B at levels ranging from 70-146 ng/mg extracted protein. In addition, similarity with native glycoprotein B produced in HCMV-infected cells was also demonstrated by inhibition of immunofluorescence on HCMV-infected human fibroblasts. These data are the first to report the expression of an immunodominant antigen of HCMV in plant tissues, indicating the fidelity with which this very large heterologous viral glycoprotein can be synthesized in this model system.

Inheritance and expression of the cry1Ab gene in Bt (Bacillus thuringiensis) transgenic rice

Abstract The inheritance and expression patterns of the cry1Ab gene were studied in the progenies derived from different Bt (Bacillus thuringiensis) transgenic japonica rice lines under field conditions. Both Mendelian and distorted segregation ratios were observed in some selfed and crossed F2 populations. Crosses between japonica intra-subspecies had no significant effect on the segregation ratios of the cry1Ab gene, but crossing between japonica and indica inter-subspecies led to distorted segregation of the cry1Ab gene in the F2 population. Field-release experiments indicated that the cry1Ab gene was stably transmitted in an intact manner via successive sexual generations, and the concentration of the Cry1Ab protein was kept quantitatively stable up to the R6 generation. The cry1Ab gene, driven by the maize ubiquitin promoter, displayed certain kinds of spatial and temporal expression patterns under field conditions. The content of the Cry1Ab protein varied in different tissues of the main stems, the primary tillers and the secondary tillers. Higher levels of the Cry1Ab protein were found in the stems, leaves and leaf sheaths than in the roots, while the lowest level was detected in grains at the maturation stage. The content of the Cry1Ab protein in the leaves peaked at the booting stage and was lowest at the heading stage. Furthermore, the Cry1Ab content of cry1Ab expression in different tissues of transgenic rice varied individually with temperature.

Sorting of glycoprotein B from human cytomegalovirus to protein storage vesicles in seeds of transgenic tobacco.

As part of ongoing studies into the use of plant expression systems for making human therapeutic proteins, we have successfully expressed the major glycoprotein, gB, of human cytomegalovirus (HCMV) in transgenic tobacco plants. Viral glycoprotein was detectable in the protein extracts of mature tobacco seeds using neutralizing and non-neutralizing monoclonal antibodies specific for gB. Although several mammalian proteins have been expressed in tobacco, localization of these proteins in transgenic tobacco tissue has not been extensively examined. The objective of this study was to identify the site(s) of recombinant gB deposition in mature tobacco seeds. Using immunogold labelling and electron microscopy, we found specific labelling for gB in the endosperm of transgenic seeds, with gB localized almost exclusively in protein storage vesicles (PSV). This occurred in seeds that were freshly harvested and in seeds that had been stored for several months. These data indicate that gB behaves like a plant storage protein when expressed in tobacco seeds, and provide further support for the suitability of plants for producing recombinant proteins of potential clinical relevance.

Recombinant Protein Expression Plasmids Optimized for Industrial E. coli Fermentation and Plant Systems Produce Biologically Active Human Insulin-like Growth Factor-1 in Transgenic Rice and Tobacco Plants

Human insulin-like growth factor-1 (hIGF-1) is a growth factor with clinical significance in medicine. The therapeutic potential of recombinant hIGF-1 (rthIGF-1) stems from the fact that hIGF-1 resembles insulin in many aspects of physiology. The expression of hIGF-1 in transgenic tobacco and rice plants using different expression cassettes is reported here. In the present study, two coding sequences were tested, one with the original human sequence, but partially optimized for expression in E. coli and the other with a plant-codon-optimized sequence that was expected to give a higher level of expression in plant systems. Three different hIGF-1 recombinant expression constructs were generated. All expression constructs utilized the maize ubiquitin 1 promoter with or without a signal sequence. Analyses conducted using a hIGF-1 specific ELISA kit showed all transgenic plants produced hIGF-1 and the accumulated hIGF-1 increased from the E. coli codon bias to higher levels when the hIGF-1 coding sequence was codon-optimized to match that of the maize zeamatin protein – the most transcribed gene in maize endosperm suspension cells. Further analyses that compared the functionality of the bacterial signal peptide Lam B in plants showed that this leader peptide led to lower expression levels when compared to transgenic plants that did not contain this sequence. This indicated that this expression construct was functional without removal of the bacterial signal sequence. The maize ubiquitin 1 promoter was found to be more active in rice plants than tobacco plants indicating that in this case, there was a class preference that was biased towards a monocot host. Biological analyses conducted using protein extracts from transgenic plants showed that the rthIGF-1 was effective in stimulating the in vitro growth and proliferation of human SH-SY5Y neuroblastoma cells. This indicated that the plant-produced rthIGF-1 was stable and biologically active. As some plants have been reported to express an endogenous insulin-like protein, we also looked for any effect of the human growth factor in transgenic plants, but no developmental or morphological differences with wild type tobacco or rice plants were detected. Since insulin and hIGF-1 share some overlapping roles, hIGF-1 may become a substitute therapeutic agent in subjects with certain defects in their insulin receptor signaling. Hence, if the full beneficial potential of rthIGF-1 is achieved, it is expected that in the future the demand will likely increase significantly.

Biologically active human GM-CSF produced in the seeds of transgenic rice plants

Rice flour is a well-known and characterized source of pharmaceutical ingredients, which are gluten-free and incorporated in many drug delivery applications such as excipient starch. To further exploit this uniqueness, the synthetic capacity of rice endosperm tissue, the basis of rice flour, was extended by genetic transformation. Recombinant human GM-CSF, a cytokine used in treating neutropenia and with other potential clinical applications, has been expressed in transgenic rice seeds using a rice glutelin promoter. Rice seeds accumulated human GM-CSF to a level of 1.3% of total soluble protein. The rice seed-produced human GM-CSF was found to be biologically active when tested using a human cell line TF-1. Use of rice as a host plant offers not only attractive features of safe production in seeds but also self-containment of foreign genes, as rice is primarily a self-pollinated crop plant.

Plant-derived recombinant human insulin-like growth factor precursor prohormone IGF-1B caused differentiation of human neuroblastoma cell lines SH-SY5Y

The potential of plant expression systems to produce functional recombinant proteins was used to produce human prohormone insulin-like growth factor-1B (pro-IGF-1B). Insulin-like growth factor-1 (IGF-1) plays a role in normal growth, development and cell division. The analysis of IGF-1 cDNAs predicted two prohormone precursors (pro-IGF-1A and pro-IGF-1B) with distinct C-terminal E domains. The functions of these precursors, and the E-peptides generated on cleavage to mature IGF-1, are unknown. We expressed human pro-IGF-1B in transgenic tobacco plants and to our knowledge this is the first report of the plant-based recombinant prohormone. The plant-expressed pro-IGF-1B caused proliferation and differentiation of human neuroblastoma cell line SH-SY5Y comparable to human IGF-1. This implies a distinct biological role for pro-IGF-1B. It also suggests that pro-IGF-1B may play a role in tumorigenesis. These results are important in view of obtaining a better knowledge of the role of pro-IGF-1B in human neuroblastoma cells and its relationship to IGF-1. The data also confirm the feasibility of using plant expression system as a cheap and safe bioreactor to produce the recombinant protein for further analysis.

An Improved Method for Production of Recombinant Human Glutamic Acid Decarboxylase 65 for Use in Phytopharmaceutical Assessment

Abstract The pharmacological activity of neuroactive phytochemicals on recombinant human glutamic acid decarboxylase 65 (hGAD65) was investigated. GAD catalyzes the conversion of glutamic acid to γ-aminobutyric acid (GABA), which acts as an important inhibitory neurotransmitter in the central nervous system (CNS). We describe an improved method in which recombinant hGAD65 was expressed at high levels using a maltose binding protein (MBP) fusion system. The expression and purification process was superior to the commonly used glutathioneS.-transferase (GST) fusion partner. The in vitro. system developed here detected both enzyme inhibition and stimulation, under varying pyridoxal-5′-phosphate (PLP) concentrations. The known GAD inhibitor, 3-mercaptopropionic acid, was tested as a positive control and had an IC50 = 12.3 μ M. Phytochemicals were tested (10 μ g/mL) for their effects on in vitro. hGAD65 activity. Minor inhibition was seen with the ethanol extract of Panax quinquefolius. L. (ginsenosides) (23%), betulinic acid (27%), and valerenic acid (20%). An increase in hGAD65 activity by approximately 20% was observed with bilobalide and asiaticoside. As a result, these small changes in GAD activity may have physiologic implications. The possibility that phytochemicals influence GABAergic neurotransmission in vivo. and the mechanisms by which it may occur is discussed.