Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome

Lisa A. Reynolds; Stephen A. Redpath; Sophie Yurist-Doutsch; Navkiran Gill; Eric M. Brown; Joris Van Der Heijden; Tara P. Brosschot; Jun Han; Natalie C. Marshall; Sarah E. Woodward; Yanet Valdez; Christoph H. Borchers; Georgia Perona-Wright; B. Brett Finlay

doi:10.1093/infdis/jix141

Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome

Lisa A. Reynolds, Stephen A. Redpath, Sophie Yurist-Doutsch, Navkiran Gill, Eric M. Brown, Joris Van Der Heijden, Tara P. Brosschot, Jun Han, Natalie C. Marshall, Sarah E. Woodward, Yanet Valdez, Christoph H. Borchers, Georgia Perona-Wright, B. Brett Finlay

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

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.

Original language	English
Pages (from-to)	1245-1254
Number of pages	10
Journal	Journal of Infectious Diseases
Volume	215
Issue number	8
DOIs	https://doi.org/10.1093/infdis/jix141
State	Published - 15 Apr 2017
Externally published	Yes

Keywords

Bacterial infection
Co-infection
Helminths
Immunomodulation
Intestinal metabolites

ASJC Scopus subject areas

General Medicine

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10.1093/infdis/jix141

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Reynolds, L. A., Redpath, S. A., Yurist-Doutsch, S., Gill, N., Brown, E. M., Van Der Heijden, J., Brosschot, T. P., Han, J., Marshall, N. C., Woodward, S. E., Valdez, Y., Borchers, C. H., Perona-Wright, G., & Finlay, B. B. (2017). Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome. Journal of Infectious Diseases, 215(8), 1245-1254. https://doi.org/10.1093/infdis/jix141

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title = "Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome",

abstract = "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.",

keywords = "Bacterial infection, Co-infection, Helminths, Immunomodulation, Intestinal metabolites",

author = "Reynolds, {Lisa A.} and Redpath, {Stephen A.} and Sophie Yurist-Doutsch and Navkiran Gill and Brown, {Eric M.} and {Van Der Heijden}, Joris and Brosschot, {Tara P.} and Jun Han and Marshall, {Natalie C.} and Woodward, {Sarah E.} and Yanet Valdez and Borchers, {Christoph H.} and Georgia Perona-Wright and Finlay, {B. Brett}",

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doi = "10.1093/infdis/jix141",

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Reynolds, LA, Redpath, SA, Yurist-Doutsch, S, Gill, N, Brown, EM, Van Der Heijden, J, Brosschot, TP, Han, J, Marshall, NC, Woodward, SE, Valdez, Y, Borchers, CH, Perona-Wright, G & Finlay, BB 2017, 'Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome', Journal of Infectious Diseases, vol. 215, no. 8, pp. 1245-1254. https://doi.org/10.1093/infdis/jix141

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AU - Reynolds, Lisa A.

AU - Redpath, Stephen A.

AU - Yurist-Doutsch, Sophie

AU - Gill, Navkiran

AU - Brown, Eric M.

AU - Van Der Heijden, Joris

AU - Brosschot, Tara P.

AU - Han, Jun

AU - Marshall, Natalie C.

AU - Woodward, Sarah E.

AU - Valdez, Yanet

AU - Borchers, Christoph H.

AU - Perona-Wright, Georgia

AU - Finlay, B. Brett

PY - 2017/4/15

Y1 - 2017/4/15

N2 - 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.

AB - 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.

KW - Bacterial infection

KW - Co-infection

KW - Helminths

KW - Immunomodulation

KW - Intestinal metabolites

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Enteric helminths promote Salmonella coinfection by altering the intestinal metabolome

Abstract

Keywords

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