Pharming vaccines for hepatitis and cytomegalovirus: Towards the development of multivalent and subunit vaccines for oral delivery of antigens

A plant based high fidelity vaccine production system is being developed with emphasis on producing antigens capable of being orally delivered in multivalent or subunit plant packets. Plant-based edible vaccines may provide an attractive, safe and inexpensive alternative to conventional vaccine prod...

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Bibliographic Details
Published in:Phytochemistry reviews 2002-01, Vol.1 (1), p.55-66
Main Authors: Alli, Zaman, Sardana, Ravinder K., Pierre, Béatrice, Andonov, Anton, Robert, Laurian S., Schernthaner, Johann P., Porter, Suzanne L., Dudani, Anil K., Ganz, Peter R., Tackaberry, Eilleen S., Altosaar, Illimar
Format: Article
Language:English
Subjects:
Antibodies
Antigen presentation
Antigens
Construction planning
Core particles
Cytomegalovirus
Deoxyribonucleic acid
DNA
Drug delivery systems
Electron microscopy
Endosperm
Epitopes
Extensin
Gene expression
Genetic transformation
Glycoprotein B
Glycoproteins
Hepatitis
Hepatitis B
Immune response
Immune response (humoral)
Immune system
Immunization
Immunostimulation
Intestine
Low concentrations
Microscopy
Mucosal immunity
Nucleocapsids
Oral administration
Plant protection
Plant tissues
Proteins
Schedules
Seeds
Self-assembly
Storage proteins
Strains (organisms)
Tobacco
Transgenic plants
Vaccines
Viruses
Western blotting
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Summary:A plant based high fidelity vaccine production system is being developed with emphasis on producing antigens capable of being orally delivered in multivalent or subunit plant packets. Plant-based edible vaccines may provide an attractive, safe and inexpensive alternative to conventional vaccine production. Edible plant tissues are not normally antigenic in nature. However, foreign antigens from common infectious organisms like hepatitis-B virus (HBV) can be produced along with naturally occurring storage proteins in DNA-transformed plants. Upon administration via the oral route, these transgenic plant tissues may mobilize the protective humoral and mucosal immune responses to challenge the natural infectious agent. When tobacco, carrot and rice plants were transformed with the truncated version of the HBV nucleocapsid gene expression construct, non-infective hepatitis B viral core particles were observed via electron microscopy. A second plant codon-optimised HBV expression construct was designed that included the extensin signal sequence for augmented HBV particle accumulation. Upon transformation of tobacco plants with the codon-optimised construct, over 4 times more transgenic plants with high levels of expression of the HBV nucleocapsid protein were generated in comparison with a similar vector containing the unmodified wild-type HBV gene codon sequence. Further analysis via Western blotting confirmed the presence of the viral antigen in the total protein extracts from transgenic tobacco leaves and seeds. Electron microscopy showed that the expressed protein self-assembled into viral-like particles of 25–30 nm in diameter. To develop an edible subunit vaccine in plant seeds, a third plant transformation construct was used for the synthesis of the human cytomegalovirus glycoprotein B (HCMV gB) subunit. The gB protein derived from tobacco seeds retained critical structural features including epitopes for neutralizing antibodies and was targeted to the protein storage vesicles of tobacco seed endosperm. Two different strains of mice were orally immunized with tobacco seeds containing low concentrations of HCMV gB, with varying dosages, but without adjuvant. No anti-gB response was detected in intestinal or serum samples. However, a systemic immune response to normal tobacco seed proteins was observed in both strains of mice. While higher expression levels of antigens in seeds must be achieved, seeds may provide an effective and immunostimulatory vehicle f
ISSN:1568-7767
1572-980X
DOI:10.1023/A:1015832302721