Exclusive dependence of IL-10R[alpha] signalling on intestinal microbiota homeostasis and control of whipworm infection

Exclusive dependence of IL-10R[alpha] signalling on intestinal microbiota homeostasis and control of whipworm infection

The whipworm Trichuris trichiura is a soil-transmitted helminth that dwells in the epithelium of the caecum and proximal colon of their hosts causing the human disease, trichuriasis. Trichuriasis is characterized by colitis attributed to the inflammatory response elicited by the parasite while tunne...

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Veröffentlicht in:PLoS Pathogens 2019, Vol.15 (1)
Hauptverfasser: Duque-Correa, María A, Karp, Natasha A, McCarthy, Catherine, Forman, Simon, Goulding, David, Sankaranarayanan, Geetha, Jenkins, Timothy P, Reid, Adam J, Cambridge, Emma L, Ballesteros Reviriego, Carmen, Müller, Werner, Cantacessi, Cinzia, Dougan, Gordon, Grencis, Richard K, Berriman, Matthew
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Sprache:eng
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B cells
Bacteria
Colitis
Epithelium
Genetic aspects
Health aspects
Homeostasis
Human whipworm
Infection control
Inflammation
Interleukin-10
Liver diseases
Microbiota (Symbiotic organisms)
Pathogenic microorganisms
Physiological aspects
Roundworm infections
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container_issue 1
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container_title PLoS Pathogens
container_volume 15
creator Duque-Correa, María A
Karp, Natasha A
McCarthy, Catherine
Forman, Simon
Goulding, David
Sankaranarayanan, Geetha
Jenkins, Timothy P
Reid, Adam J
Cambridge, Emma L
Ballesteros Reviriego, Carmen
Müller, Werner
Cantacessi, Cinzia
Dougan, Gordon
Grencis, Richard K
Berriman, Matthew
description The whipworm Trichuris trichiura is a soil-transmitted helminth that dwells in the epithelium of the caecum and proximal colon of their hosts causing the human disease, trichuriasis. Trichuriasis is characterized by colitis attributed to the inflammatory response elicited by the parasite while tunnelling through intestinal epithelial cells (IECs). The IL-10 family of receptors, comprising combinations of subunits IL-10R[alpha], IL-10R[beta], IL-22R[alpha] and IL-28R[alpha], modulates intestinal inflammatory responses. Here we carefully dissected the role of these subunits in the resistance of mice to infection with T. muris, a mouse model of the human whipworm T. trichiura. Our findings demonstrate that whilst IL-22R[alpha] and IL-28R[alpha] are dispensable in the host response to whipworms, IL-10 signalling through IL-10R[alpha] and IL-10R[beta] is essential to control caecal pathology, worm expulsion and survival during T. muris infections. We show that deficiency of IL-10, IL-10R[alpha] and IL-10R[beta] results in dysbiosis of the caecal microbiota characterised by expanded populations of opportunistic bacteria of the families Enterococcaceae and Enterobacteriaceae. Moreover, breakdown of the epithelial barrier after whipworm infection in IL-10, IL-10R[alpha] and IL-10R[beta]-deficient mice, allows the translocation of these opportunistic pathogens or their excretory products to the liver causing organ failure and lethal disease. Importantly, bone marrow chimera experiments indicate that signalling through IL-10R[alpha] and IL-10R[beta] in haematopoietic cells, but not IECs, is crucial to control worm expulsion and immunopathology. These findings are supported by worm expulsion upon infection of conditional mutant mice for the IL-10R[alpha] on IECs. Our findings emphasize the pivotal and complex role of systemic IL-10R[alpha] signalling on immune cells in promoting microbiota homeostasis and maintaining the intestinal epithelial barrier, thus preventing immunopathology during whipworm infections.
doi_str_mv 10.1371/journal.ppat.1007265
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Trichuriasis is characterized by colitis attributed to the inflammatory response elicited by the parasite while tunnelling through intestinal epithelial cells (IECs). The IL-10 family of receptors, comprising combinations of subunits IL-10R[alpha], IL-10R[beta], IL-22R[alpha] and IL-28R[alpha], modulates intestinal inflammatory responses. Here we carefully dissected the role of these subunits in the resistance of mice to infection with T. muris, a mouse model of the human whipworm T. trichiura. Our findings demonstrate that whilst IL-22R[alpha] and IL-28R[alpha] are dispensable in the host response to whipworms, IL-10 signalling through IL-10R[alpha] and IL-10R[beta] is essential to control caecal pathology, worm expulsion and survival during T. muris infections. We show that deficiency of IL-10, IL-10R[alpha] and IL-10R[beta] results in dysbiosis of the caecal microbiota characterised by expanded populations of opportunistic bacteria of the families Enterococcaceae and Enterobacteriaceae. Moreover, breakdown of the epithelial barrier after whipworm infection in IL-10, IL-10R[alpha] and IL-10R[beta]-deficient mice, allows the translocation of these opportunistic pathogens or their excretory products to the liver causing organ failure and lethal disease. Importantly, bone marrow chimera experiments indicate that signalling through IL-10R[alpha] and IL-10R[beta] in haematopoietic cells, but not IECs, is crucial to control worm expulsion and immunopathology. These findings are supported by worm expulsion upon infection of conditional mutant mice for the IL-10R[alpha] on IECs. 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Trichuriasis is characterized by colitis attributed to the inflammatory response elicited by the parasite while tunnelling through intestinal epithelial cells (IECs). The IL-10 family of receptors, comprising combinations of subunits IL-10R[alpha], IL-10R[beta], IL-22R[alpha] and IL-28R[alpha], modulates intestinal inflammatory responses. Here we carefully dissected the role of these subunits in the resistance of mice to infection with T. muris, a mouse model of the human whipworm T. trichiura. Our findings demonstrate that whilst IL-22R[alpha] and IL-28R[alpha] are dispensable in the host response to whipworms, IL-10 signalling through IL-10R[alpha] and IL-10R[beta] is essential to control caecal pathology, worm expulsion and survival during T. muris infections. We show that deficiency of IL-10, IL-10R[alpha] and IL-10R[beta] results in dysbiosis of the caecal microbiota characterised by expanded populations of opportunistic bacteria of the families Enterococcaceae and Enterobacteriaceae. Moreover, breakdown of the epithelial barrier after whipworm infection in IL-10, IL-10R[alpha] and IL-10R[beta]-deficient mice, allows the translocation of these opportunistic pathogens or their excretory products to the liver causing organ failure and lethal disease. Importantly, bone marrow chimera experiments indicate that signalling through IL-10R[alpha] and IL-10R[beta] in haematopoietic cells, but not IECs, is crucial to control worm expulsion and immunopathology. These findings are supported by worm expulsion upon infection of conditional mutant mice for the IL-10R[alpha] on IECs. Our findings emphasize the pivotal and complex role of systemic IL-10R[alpha] signalling on immune cells in promoting microbiota homeostasis and maintaining the intestinal epithelial barrier, thus preventing immunopathology during whipworm infections.</abstract><pub>Public Library of Science</pub><doi>10.1371/journal.ppat.1007265</doi></addata></record>
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subjects B cells
Bacteria
Colitis
Epithelium
Genetic aspects
Health aspects
Homeostasis
Human whipworm
Infection control
Inflammation
Interleukin-10
Liver diseases
Microbiota (Symbiotic organisms)
Pathogenic microorganisms
Physiological aspects
Roundworm infections
title Exclusive dependence of IL-10R[alpha] signalling on intestinal microbiota homeostasis and control of whipworm infection
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