Cross-modulation of pathogen-specific pathways enhances malnutrition during enteric co-infection with Giardia lamblia and enteroaggregative Escherichia coli
Cross-modulation of pathogen-specific pathways enhances malnutrition during enteric co-infection with Giardia lamblia and enteroaggregative Escherichia coli
Diverse enteropathogen exposures associate with childhood malnutrition. To elucidate mechanistic pathways whereby enteric microbes interact during malnutrition, we used protein deficiency in mice to develop a new model of co-enteropathogen enteropathy. Focusing on common enteropathogens in malnourished children, Giardia lamblia and enteroaggregative Escherichia coli (EAEC), we provide new insights into intersecting pathogen-specific mechanisms that enhance malnutrition. We show for the first time that during protein malnutrition, the intestinal microbiota permits persistent Giardia colonization and simultaneously contributes to growth impairment. Despite signals of intestinal injury, such as IL1α, Giardia-infected mice lack pro-inflammatory intestinal responses, similar to endemic pediatric Giardia infections. Rather, Giardia perturbs microbial host co-metabolites of proteolysis during growth impairment, whereas host nicotinamide utilization adaptations that correspond with growth recovery increase. EAEC promotes intestinal inflammation and markers of myeloid cell activation. During co-infection, intestinal inflammatory signaling and cellular recruitment responses to EAEC are preserved together with a Giardia-mediated diminishment in myeloid cell activation. Conversely, EAEC extinguishes markers of host energy expenditure regulatory responses to Giardia, as host metabolic adaptations appear exhausted. Integrating immunologic and metabolic profiles during co-pathogen infection and malnutrition, we develop a working mechanistic model of how cumulative diet-induced and pathogen-triggered microbial perturbations result in an increasingly wasted host.
Animals, Child, Coinfection/immunology, Cytokines/immunology, Disease Models, Animal, Escherichia coli/physiology, Escherichia coli Infections/immunology, Giardia lamblia/physiology, Giardiasis/immunology, Humans, Intestinal Mucosa/immunology, Male, Malnutrition/immunology, Mice, Mice, Inbred C57BL, Myeloid Cells/immunology
1-28
Bartelt, Luther A.
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Bolick, David T.
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Mayneris-Perxachs, Jordi
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Kolling, Glynis L.
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Medlock, Gregory L.
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Zaenker, Edna I.
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Donowitz, Jeffery
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Thomas-Beckett, Rose Viguna
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Rogala, Allison
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Carroll, Ian M.
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Singer, Steven M.
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Papin, Jason
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Swann, Jonathan R.
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Guerrant, Richard L.
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27 July 2017
Bartelt, Luther A.
b1bf9b0e-8476-4594-9145-6ca797f8ef16
Bolick, David T.
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Mayneris-Perxachs, Jordi
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Kolling, Glynis L.
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Medlock, Gregory L.
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Zaenker, Edna I.
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Donowitz, Jeffery
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Thomas-Beckett, Rose Viguna
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Rogala, Allison
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Carroll, Ian M.
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Singer, Steven M.
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Papin, Jason
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Swann, Jonathan R.
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Guerrant, Richard L.
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Bartelt, Luther A., Bolick, David T., Mayneris-Perxachs, Jordi, Kolling, Glynis L., Medlock, Gregory L., Zaenker, Edna I., Donowitz, Jeffery, Thomas-Beckett, Rose Viguna, Rogala, Allison, Carroll, Ian M., Singer, Steven M., Papin, Jason, Swann, Jonathan R. and Guerrant, Richard L.
(2017)
Cross-modulation of pathogen-specific pathways enhances malnutrition during enteric co-infection with Giardia lamblia and enteroaggregative Escherichia coli.
PLOS Pathogens, 13 (7), , [e1006471].
(doi:10.1371/journal.ppat.1006471).
Abstract
Diverse enteropathogen exposures associate with childhood malnutrition. To elucidate mechanistic pathways whereby enteric microbes interact during malnutrition, we used protein deficiency in mice to develop a new model of co-enteropathogen enteropathy. Focusing on common enteropathogens in malnourished children, Giardia lamblia and enteroaggregative Escherichia coli (EAEC), we provide new insights into intersecting pathogen-specific mechanisms that enhance malnutrition. We show for the first time that during protein malnutrition, the intestinal microbiota permits persistent Giardia colonization and simultaneously contributes to growth impairment. Despite signals of intestinal injury, such as IL1α, Giardia-infected mice lack pro-inflammatory intestinal responses, similar to endemic pediatric Giardia infections. Rather, Giardia perturbs microbial host co-metabolites of proteolysis during growth impairment, whereas host nicotinamide utilization adaptations that correspond with growth recovery increase. EAEC promotes intestinal inflammation and markers of myeloid cell activation. During co-infection, intestinal inflammatory signaling and cellular recruitment responses to EAEC are preserved together with a Giardia-mediated diminishment in myeloid cell activation. Conversely, EAEC extinguishes markers of host energy expenditure regulatory responses to Giardia, as host metabolic adaptations appear exhausted. Integrating immunologic and metabolic profiles during co-pathogen infection and malnutrition, we develop a working mechanistic model of how cumulative diet-induced and pathogen-triggered microbial perturbations result in an increasingly wasted host.
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More information
Accepted/In Press date: 14 June 2017
Published date: 27 July 2017
Keywords:
Animals, Child, Coinfection/immunology, Cytokines/immunology, Disease Models, Animal, Escherichia coli/physiology, Escherichia coli Infections/immunology, Giardia lamblia/physiology, Giardiasis/immunology, Humans, Intestinal Mucosa/immunology, Male, Malnutrition/immunology, Mice, Mice, Inbred C57BL, Myeloid Cells/immunology
Identifiers
Local EPrints ID: 440755
URI: http://eprints.soton.ac.uk/id/eprint/440755
ISSN: 1553-7366
PURE UUID: 51a215e6-a520-4506-bbb5-f82eb66a36a2
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Date deposited: 15 May 2020 16:31
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
Luther A. Bartelt
Author:
David T. Bolick
Author:
Jordi Mayneris-Perxachs
Author:
Glynis L. Kolling
Author:
Gregory L. Medlock
Author:
Edna I. Zaenker
Author:
Jeffery Donowitz
Author:
Rose Viguna Thomas-Beckett
Author:
Allison Rogala
Author:
Ian M. Carroll
Author:
Steven M. Singer
Author:
Jason Papin
Author:
Richard L. Guerrant
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