Highlights d Dietary undernutrition in mice abolishes IgA targeting of intestinal Lactobacillus d Loss of this targeting is the result of bacterial adaptations to nutrient limitation d Lactobacillus-IgA interactions are glycan mediated and linked to sugar metabolism genes
Intestinal helminth infections occur predominantly in regions where exposure to enteric bacterial pathogens is also common. Helminth infections inhibit host immunity against microbial pathogens, which has largely been attributed to the induction of regulatory or type 2 (Th2) immune responses. Here we demonstrate an additional 3-way interaction in which helminth infection alters the metabolic environment of the host intestine to enhance bacterial pathogenicity. We show that an ongoing helminth infection increased colonization by Salmonella independently of T regulatory or Th2 cells. Instead, helminth infection altered the metabolic profile of the intestine, which directly enhanced bacterial expression of Salmonella pathogenicity island 1 (SPI-1) genes and increased intracellular invasion. These data reveal a novel mechanism by which a helminth-modified metabolome promotes susceptibility to bacterial coinfection.
Summary
Envelope‐localized proteins, such as adhesins and secretion systems, play critical roles in host infection by Gram‐negative pathogens. As such, their folding is monitored by envelope stress response systems. Previous studies demonstrated that the Cpx envelope stress response is required for virulence of Citrobacter rodentium, a murine pathogen used to model infections by the human pathogens enteropathogenic and enterohemorrhagic Escherichia coli; however, the mechanisms by which the Cpx response promotes host infection were previously unknown. Here, we characterized the C. rodentium Cpx regulon in order to identify genes required for host infection. Using transcriptomic and proteomic approaches, we found that the Cpx response upregulates envelope‐localized protein folding and degrading factors but downregulates pilus genes and type III secretion effectors. Mouse infections with C. rodentium strains lacking individual Cpx‐regulated genes showed that the chaperone/protease DegP and the disulfide bond oxidoreductase DsbA were essential for infection, but Cpx regulation of these genes did not fully account for attenuation of C. rodentium ΔcpxRA. Both deletion of dsbA and treatment with the reducing agent dithiothreitol activated the C. rodentium Cpx response, suggesting that it may sense disruption of disulfide bonding. Our results highlight the importance of envelope protein folding in host infection by Gram‐negative pathogens.
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