Open Veterinary Journal (Apr 2022)

Generation of an inactivated vaccine for avian pathogenic Escherichia coli using microarrays: A more rational approach to inactivated vaccine design

  • Xiangmei Zhou,
  • Philip Richards,
  • Daniel Windhorst,
  • Ariel Imre,
  • Agnes Bukovinski,
  • Jessica Ruggeri,
  • Altayeb Elazomi,
  • Paul Barrow

DOI
https://doi.org/10.5455/OVJ.2022.v12.i2.10
Journal volume & issue
Vol. 12, no. 2
pp. 221 – 230

Abstract

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Background: Escherichia coli remains a major pathogen of poultry. Most vaccines are inactivated and produced empirically. Although inactivated Salmonella vaccines have been produced by culture under conditions of Fe deprivation, no vaccines have been produced which are likely to express all the proteins expressed during infection of antigen presenting cells. Aim: The aim was to produce a more protective inactivated vaccine by culturing the avian E. coli in a synthetic medium that resembled the environment of the phago-lysosome. Methods: Global gene expression in a pathogenic avian O78:K80 strain of Escherichia coli, harvested from infected avian macrophage-like HD11 cells, was compared by microarray with bacteria cultured in tissue culture medium. A liquid synthetic medium was produced based on the environmental conditions identified to which the bacteria were exposed intracellularly. A bacterin was produced from this strain and its protective ability was assessed in chickens. Results: The changes in E. coli gene expression observed included the use of different electron acceptors and carbon sources such as ethanolamine, β -glucosides, galactonate, dicarboxylic acids and amino acids, up-regulation of genes associated with Fe and Mn uptake and up-regulation of type-1 and curli fimbriae, other adhesion genes and down-regulation of sialic acid synthesis genes. The bacterin produced in the synthetic medium was statistically more protective than a bacterin prepared from bacteria cultured in nutrient broth when tested in vaccinated chickens challenged with a different virulent E. coli O78:K80 strain. Conclusion: The approach of using gene expression to produce synthetic media for the generation of more effective bacterins could be used for a number of intra-cellular bacteria pathogens including Enteroinvasive E. coli (EIEC), Salmonella and the Pasteurella/Riemerella/Mannheimia group of organisms.

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