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Plant-based vaccination strategies have the potential to overcome the limitations of the current measles vaccine. The measles virus hemagglutinin (MV-H) protein has been expressed in tobacco. Oral immunisation of mice with plant-derived MV-H protein resulted in MV-specific antibodies and secretory IgA, indicative of humoral and mucosal immune responses. In addition, boosting with oral plant-derived...
Transgenic plants present a novel system for both production and oral delivery of vaccine antigens. Production of protein antigen in food plants is substantially cheaper than production in bacterial, fungal, insect cell, or mammalian cell culture. Edible plants themselves can also serve as the oral vaccine delivery system. Phase-1 studies of raw transgenic potatoes expressing the B subunit of Escherichia...
The chloroplast genetic engineering offers a number of unique advantages including high level of transgene expression, multi-gene expression in single transformation event and transgene containment due to maternal inheritance. Hyper-expression of vaccine antigens or therapeutic proteins in transgenic chloroplasts (leaves) or chromoplasts (fruits/roots) facilitates efficient oral delivery. Ability...
Exclusion of infectious agents from mucosal surfaces of the reproductive tract is a key objective of microbicides and mucosal vaccines. With mucosal antibodies as a common mechanism of exclusion, parallel development of passive and active immunization strategies is an opportunity to determine and achieve protective antibody concentrations in the female reproductive tract. Recognizing that access to...
Induction of immune responses following oral immunization is frequently dependent upon the co-administration of appropriate adjuvants that can initiate and support the transition from innate to adaptive immunity. The three bacterial products with the greatest potential to function as mucosal adjuvants are the ADP-ribosylating enterotoxins (cholera toxin and the heat-labile enterotoxin of Escherichia...
The use of transgenic plants for the production of recombinant proteins is not a universal solution for all proteins. The choice of this expression system depends very much on the type of protein and its applications. Many proteins will best be made by conventional microbial fermentation, similarly, we are already identifying proteins where plants represent the only practical option for one reason...
Plants have become, over the last ten years, a suitable alternative to microbial and animal cell factories for the production of clinically-useful, therapeutic proteins. Besides the well known advantage of low-cost and large-scale production of safe and biologically active mammalian proteins, plants also are able to perform most post-translational maturations required for biological activity and suitable...
Possums (Trichosurus vulpecula), originally introduced from Australia, are spread over 90% of New Zealand and cause major economic and environmental damage. Immunocontraception has been suggested as a humane means to control them. Marsupial-specific reproductive antigens expressed at high levels in edible transgenic plant tissue might provide a safe, effective, and cheap oral delivery bait for immunocontraceptive...
There is an ever-growing interest in plant molecular farming as a system for producing valuable recombinant pharmaceutical molecules, such as single-chain variable fragments, on an industrial/agricultural scale and it appears that it is going to become a reality. Human epidermal growth factor receptor-2 (HER2) is an oncogene involved in abnormal cell growth in breast cancer and is considered for the...
Plants are now gaining widespread acceptance as a general platform for the large-scale production of recombinant proteins. The principle has been demonstrated by the success of a diverse repertoire of proteins, with therapeutic molecules showing the most potential for added value. Over the past 10 years, several efficient plant-based expression systems have emerged. However, a number of issues remain...
The use of transgenic plants as vectors for the expression of viral and bacterial antigens has been increasingly tested as an alternative methodology for the production of experimental vaccines. Here, we report the production of transgenic alfalfa plants containing the genes encoding the polyprotein P1 and the protease 3C of foot and mouth disease virus (FMDV). The immunogenicity of the expressed...
Cowpea mosaic virus (CPMV) is a bipartite RNA plant virus which has proved to be useful both for epitope presentation and as a polypeptide expression system. For epitope presentation, short antigenic sequences are expressed on the surface of the assembled virus. Chimaeric virus particles produced in this way can stimulate protective immunity in experimental animals. For polypeptide expression, we...
Like any biotechnology innovation, the production of human vaccines in plants will succeed partly on its technical merits, and partly on the social acceptance of the new technology. The latter is harder to predict than the former, and may pose the most significant challenges to plant-derived vaccines’ (PDVs) success. To realize the potential benefits of plant-derived vaccines, especially for developing...
Expression of vaccine antigens in plants and delivery via ingestion of transgenic plant material has shown promise in numerous pre-clinical animal studies and in a few clinical trials. A number of different viral antigens have been tested, and among the most promising are those that can assemble virus-like particles (VLP), which mimic the form of authentic virions and display neutralizing antibody...
The use of transgenic plants for the production of pharmaceutical compounds has received increasing attention in the last few years. However, many technological and regulatory issues regarding the practical exploitation of this alternative system of production remain to be solved; a situation that explains the lack of commercial products derived from such a system. This paper reports the expression...
Protein based therapeutics have enjoyed great success over the past decade. Unfortunately, with this clinical success comes a heavy price tag, owing to the inherently high costs of capitalization and production using mammalian cell fermentation. To address this problem, we have begun developing a system for the expression of recombinant proteins in the unicellular eukaryotic green algae, Chlamydomonas...
Positive-strand RNA viruses have proven to be valuable vectors for delivery and expression of antigens for direct vaccination of animals and vaccine production in plants. However, optimal use of these viruses as vectors for vaccine and other purposes is limited by incomplete understanding of their replication pathways and associated constraints on inserted foreign genes. Further insights into RNA...
The enhancement of protective mucosal responses to infectious agents sought by vaccinologists, and the desired suppression of immune responses to autoantigens, allergens and food antigens induced by mucosal exposure to relevant antigens, may seem paradoxical. However, such outcomes are not mutually exclusive because of a hierarchy in the quality of immune responses: mucosal immunity manifested by...
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