Bruno Goddeeris scite author profile

Genetically modified Lactococcus lactis secreting interleukin 10 provides a therapeutic approach for inflammatory bowel disease. However, the release of such genetically modified organisms through clinical use raises safety concerns. In an effort to address this problem, we replaced the thymidylate synthase gene thyA of L. lactis with a synthetic human IL10 gene. This thyA- hIL10+ L. lactis strain produced human IL-10 (hIL-10), and when deprived of thymidine or thymine, its viability dropped by several orders of magnitude, essentially preventing its accumulation in the environment. The biological containment system and the bacterium's capacity to secrete hIL-10 were validated in vivo in pigs. Our approach is a promising one for transgene containment because, in the unlikely event that the engineered L. lactis strain acquired an intact thyA gene from a donor such as L. lactis subsp. cremoris, the transgene would be eliminated from the genome.

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Orally fed seeds producing designer IgAs protect weaned piglets against enterotoxigenicEscherichia coliinfection

Virdi

Coddens

Buck

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

121

132

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Oral feed-based passive immunization can be a promising strategy to prolong maternal lactogenic immunity against postweaning infections. Enterotoxigenic Escherichia coli (ETEC)-caused postweaning diarrhea in piglets is one such infection that may be prevented by oral passive immunization and might avert recurrent economic losses to the pig farming industry. As a proof of principle, we designed anti-ETEC antibodies by fusing variable domains of llama heavy chain-only antibodies (VHHs) against ETEC to the Fc part of a porcine immunoglobulin (IgG or IgA) and expressed them in Arabidopsis thaliana seeds. In this way, four VHH-IgG and four VHH-IgA antibodies were produced to levels of about 3% and 0.2% of seed weight, respectively. Cotransformation of VHH-IgA with the porcine joining chain and secretory component led to the production of light-chain devoid, assembled multivalent dimeric, and secretory IgA-like antibodies. In vitro analysis of all of the antibody-producing seed extracts showed inhibition of bacterial binding to porcine gut villous enterocytes. However, in the piglet feed-challenge experiment, only the piglets receiving feed containing the VHH-IgA-based antibodies (dose 20 mg/d per pig) were protected. Piglets receiving the VHH-IgA-based antibodies in the feed showed a progressive decline in shedding of bacteria, significantly lower immune responses corroborating reduced exposure to the ETEC pathogen, and a significantly higher weight gain compared with the piglets receiving VHH-IgG producing (dose 80 mg/d per pig) or wild-type seeds. These results stress the importance of the antibody format in oral passive immunization and encourage future expression of these antibodies in crop seeds. molecular farming | mucosal immunity | nanobody | enteric infections | antibiotic replacement

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The role of enterocytes in the intestinal barrier function and antigen uptake

Snoeck

Goddeeris

Cox

2005

Microbes and Infection

172

110

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The effect of β-glucans on porcine leukocytes

Sonck

Stuyven

Goddeeris

et al. 2010

Veterinary Immunology and Immunopathology

112

109

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Bruno Goddeeris

Biological containment of genetically modified Lactococcus lactis for intestinal delivery of human interleukin 10

Orally fed seeds producing designer IgAs protect weaned piglets against enterotoxigenicEscherichia coliinfection

The role of enterocytes in the intestinal barrier function and antigen uptake

The effect of β-glucans on porcine leukocytes

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