Prophage phiv142-3 enhances the colonization and resistance to environmental stresses of avian pathogenic Escherichia coli

Abstract

Bacterial acquisition of prophages reflects natural selection. Phage DNA has been shown to constitute up to 20% if bacterial genomes. However, prophages’ role in Avian Pathogenic Escherichia coli (APEC) is unclear. In this study, APEC strain DE142 harboring prophage phiv142-3, was subjected to deletion and the WT and deletion mutant were characterized under a range of conditions. Prophage deletion mutant DE142Δphiv142-3 was constructed and characterized. The DE142Δphiv142-3 colonies were much smaller than those of the wild-type, and the mutant cells were elongated. The mutant showed reduced adherence to DF-1 cells (87.4% reduction) compared to the wild-type (P < 0.001), and showed a significantly decreased resistance to the killing action of serum (P < 0.001). The mutant demonstrated 95.6%, 71.6%, and 99.6% reduced survival under acid, alkaline, and oxidative stress, respectively. In vitro competition assays showed that the cell number of the mutant was about one-tenth that of the wild-type (competitive index (CI) value, 0.1177). In vivo, the mutant showed significantly decreased colonization of chicken tissues compared with the wild-type. Thus phiv142-3 helps DE142 cope with adverse environments and aids bacterial colonization.