Production of complex viral glycoproteins in plants as vaccine immunogens

Production of complex viral glycoproteins in plants as vaccine immunogens

Summary Plant molecular farming offers a cost‐effective and scalable approach to the expression of recombinant proteins which has been proposed as an alternative to conventional production platforms for developing countries. In recent years, numerous proofs of concept have established that plants ca...

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Bibliographic Details
Published in:Plant biotechnology journal Vol. 16; no. 9; pp. 1531 - 1545
Main Authors: Margolin, Emmanuel, Chapman, Ros, Williamson, Anna‐Lise, Rybicki, Edward P., Meyers, Ann E.
Format: Journal Article
Language:English
Published: England John Wiley & Sons, Inc 01-09-2018
John Wiley and Sons Inc
Subjects:
Antigens
Biological activity
Biological products industry
biopharming
chaperone
Complexity
Developing countries
Expression vectors
glycoprotein
Glycoproteins
Glycosylation
Hemagglutinins
Influenza
LDCs
Plants (botany)
Post-translational modification
Proteins
Proteomes
Recombinant proteins
Review
vaccine
Vaccines
vaccine
glycoprotein
chaperone
biopharming
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Summary:Summary Plant molecular farming offers a cost‐effective and scalable approach to the expression of recombinant proteins which has been proposed as an alternative to conventional production platforms for developing countries. In recent years, numerous proofs of concept have established that plants can produce biologically active recombinant proteins and immunologically relevant vaccine antigens that are comparable to those made in conventional expression systems. Driving many of these advances is the remarkable plasticity of the plant proteome which enables extensive engineering of the host cell, as well as the development of improved expression vectors facilitating higher levels of protein production. To date, the only plant‐derived viral glycoprotein to be tested in humans is the influenza haemagglutinin which expresses at ~50 mg/kg. However, many other viral glycoproteins that have potential as vaccine immunogens only accumulate at low levels in planta. A critical consideration for the production of many of these proteins in heterologous expression systems is the complexity of post‐translational modifications, such as control of folding, glycosylation and disulphide bridging, which is required to reproduce the native glycoprotein structure. In this review, we will address potential shortcomings of plant expression systems and discuss strategies to optimally exploit the technology for the production of immunologically relevant and structurally authentic glycoproteins for use as vaccine immunogens.
Bibliography:ObjectType-Article-2
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ISSN:1467-7644
1467-7652
DOI:10.1111/pbi.12963