BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Holistic medicine, Fenofibrate, rs3825942, LEP, Apoptosis, Diabetes mellitus, Leukocyte)
Bookmark Forward

Production of a subunit vaccine candidate against porcine post-weaning diarrhea in high-biomass transplastomic tobacco.

Igor Kolotilin, Angelo Kaldis, Bert Devriendt, Jussi Joensuu, Eric Cox, Rima Menassa

PloS one 2012


filter terms:
  • adhesins escherichia coli (2)
  • biomass (3)
  • chloroplast (2)
  • diarrhea (6)
  • donor (1)
  • dsc (5)
  • escherichia coli (6)
  • F4 receptors (2)
  • faeg protein, e coli (1)
  • microvilli (1)
  • nicotiana (1)
  • plants (5)
  • plastids (1)
  • protein e coli (1)
  • subunit (2)
  • swine (2)
  • tobacco (3)
  • vaccines subunit (3)
    • Sizes of these terms reflect their relevance to your search.

    Post-weaning diarrhea (PWD) in piglets is a major problem in piggeries worldwide and results in severe economic losses. Infection with Enterotoxigenic Escherichia coli (ETEC) is the key culprit for the PWD disease. F4 fimbriae of ETEC are highly stable proteinaceous polymers, mainly composed of the major structural subunit FaeG, with a capacity to evoke mucosal immune responses, thus demonstrating a potential to act as an oral vaccine against ETEC-induced porcine PWD. In this study we used a transplastomic approach in tobacco to produce a recombinant variant of the FaeG protein, rFaeG(ntd/dsc), engineered for expression as a stable monomer by N-terminal deletion and donor strand-complementation (ntd/dsc). The generated transplastomic tobacco plants accumulated up to 2.0 g rFaeG(ntd/dsc) per 1 kg fresh leaf tissue (more than 1% of dry leaf tissue) and showed normal phenotype indistinguishable from wild type untransformed plants. We determined that chloroplast-produced rFaeG(ntd/dsc) protein retained the key properties of an oral vaccine, i.e. binding to porcine intestinal F4 receptors (F4R), and inhibition of the F4-possessing (F4+) ETEC attachment to F4R. Additionally, the plant biomass matrix was shown to delay degradation of the chloroplast-produced rFaeG(ntd/dsc) in gastrointestinal conditions, demonstrating a potential to function as a shelter-vehicle for vaccine delivery. These results suggest that transplastomic plants expressing the rFaeG(ntd/dsc) protein could be used for production and, possibly, delivery of an oral vaccine against porcine F4+ ETEC infections. Our findings therefore present a feasible approach for developing an oral vaccination strategy against porcine PWD.

    Citation

    Igor Kolotilin, Angelo Kaldis, Bert Devriendt, Jussi Joensuu, Eric Cox, Rima Menassa. Production of a subunit vaccine candidate against porcine post-weaning diarrhea in high-biomass transplastomic tobacco. PloS one. 2012;7(8):e42405

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 22879967

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.