The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response

Katherine A. Dunn; Jessica Moore-Connors; Brad Macintyre; Andrew Stadnyk; Nikhil A. Thomas; Angela Noble; Gamal Mahdi; Mohsin Rashid; Anthony R. Otley; Joseph P. Bielawski; Johan Van Limbergen

doi:10.1097/MIB.0000000000000949

The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response

Katherine A. Dunn, Jessica Moore-Connors, Brad Macintyre, Andrew Stadnyk, Nikhil A. Thomas, Angela Noble, Gamal Mahdi, Mohsin Rashid, Anthony R. Otley, Joseph P. Bielawski, Johan Van Limbergen

Medicine

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

32 Citations (Scopus)

Abstract

Background: Exclusive enteral nutrition (EEN) is a first-line therapy in pediatric Crohn's disease (CD) thought to induce remission through changes in the gut microbiome. With microbiome assessment largely focused on microbial taxonomy and diversity, it remains unclear to what extent EEN induces functional changes that thereby contribute to its therapeutic effect. Methods: Fecal samples were collected from 15 pediatric CD patients prior to and after EEN treatment, as well as from 5 healthy controls. Metagenomic data were obtained via next-generation sequencing, and nonhuman reads were mapped to KEGG pathways, where possible. Pathway abundance was compared between CD patients and controls, and between CD patients that sustained remission (SR) and those that did not sustain remission (NSR). Results: Of 132 KEGG pathways identified, 8 pathways differed significantly between baseline CD patients and controls. Examination of these eight pathways showed SR patients had greater similarity to controls than NSR patients in all cases. Pathways fell into one of three groups: 1) no prior connection to IBD, 2) previously reported connection to IBD, and 3) known roles in innate immunity and immunoregulation. Conclusions: The microbiota of CD patients and controls represent alternative ecological states that have broad differences in functional capabilities, including xenobiotic and environmental pollutant degradation, succinate metavolism, and bacterial HtpG, all of which can affect barrier integrity and immune regulation. Moreover, our finding that SR patients were more similar to healthy controls suggests that community microbial function, as inferred from fecal microbiomes, could serve as a valuable diagnostic tool.

Original language	English
Pages (from-to)	2607-2618
Number of pages	12
Journal	Inflammatory Bowel Diseases
Volume	22
Issue number	11
DOIs	https://doi.org/10.1097/MIB.0000000000000949
Publication status	Published - Oct 11 2016

Bibliographical note

Funding Information:
J. Van Limbergen was supported by a NASPGHAN/CCFA Young Investigator Development award (2013-2015), a Nova Scotia Health Research Foundation (NSHRF) establishment award (2015-2017), a Future Leaders in Inflammatory Bowel Disease (FLIBD) Program grant (2015-2016), a Dalhousie Medical Research Foundation equipment grant (2015-2016), a donation from the MacLeod family, an IWK Health Centre Research Associateship grant (J.M.-C.) and a Canadian Institutes of Health Research (CIHR)-CAG-CCC New Investigator Award (2015-2020: 201412XGP-340307-205026) and a Canadian Foundation of Innovation John R. Evans Leadership fund (#35235). J. Van Limbergen and A. R. Otley are supported by a CIHRSPOR-Chronic Diseases grant (Inflammation, Microbiome, and Alimentation: Gastro-Intestinal and Neuropsychiatric Effects: the IMAGINE-SPOR chronic disease network). Part of this work was supported by a NSHRF Development and Innovation Grant to N. A. Thomas and A. R. Otley. J. P. Bielawski is supported by grants from CIHR (CMF-108026) and the Atlantic Computational Excellence Network (ACEnet 2011-2285). J. Van Limbergen and A. R. Otley have received support for research, development of educational materials, and participation in advisory boards for Nestlé. The remaining authors have no conflict of interest to disclose.

Publisher Copyright:
Copyright © 2016 Crohn's & Colitis Foundation of America, Inc.

ASJC Scopus Subject Areas

Immunology and Allergy
Gastroenterology

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10.1097/MIB.0000000000000949

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Dunn, K. A., Moore-Connors, J., Macintyre, B., Stadnyk, A., Thomas, N. A., Noble, A., Mahdi, G., Rashid, M., Otley, A. R., Bielawski, J. P., & Van Limbergen, J. (2016). The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response. Inflammatory Bowel Diseases, 22(11), 2607-2618. https://doi.org/10.1097/MIB.0000000000000949

The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response. / Dunn, Katherine A.; Moore-Connors, Jessica; Macintyre, Brad et al.
In: Inflammatory Bowel Diseases, Vol. 22, No. 11, 11.10.2016, p. 2607-2618.

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

Dunn, KA, Moore-Connors, J, Macintyre, B, Stadnyk, A , Thomas, NA , Noble, A, Mahdi, G, Rashid, M, Otley, AR, Bielawski, JP & Van Limbergen, J 2016, 'The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response', Inflammatory Bowel Diseases, vol. 22, no. 11, pp. 2607-2618. https://doi.org/10.1097/MIB.0000000000000949

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title = "The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response",

abstract = "Background: Exclusive enteral nutrition (EEN) is a first-line therapy in pediatric Crohn's disease (CD) thought to induce remission through changes in the gut microbiome. With microbiome assessment largely focused on microbial taxonomy and diversity, it remains unclear to what extent EEN induces functional changes that thereby contribute to its therapeutic effect. Methods: Fecal samples were collected from 15 pediatric CD patients prior to and after EEN treatment, as well as from 5 healthy controls. Metagenomic data were obtained via next-generation sequencing, and nonhuman reads were mapped to KEGG pathways, where possible. Pathway abundance was compared between CD patients and controls, and between CD patients that sustained remission (SR) and those that did not sustain remission (NSR). Results: Of 132 KEGG pathways identified, 8 pathways differed significantly between baseline CD patients and controls. Examination of these eight pathways showed SR patients had greater similarity to controls than NSR patients in all cases. Pathways fell into one of three groups: 1) no prior connection to IBD, 2) previously reported connection to IBD, and 3) known roles in innate immunity and immunoregulation. Conclusions: The microbiota of CD patients and controls represent alternative ecological states that have broad differences in functional capabilities, including xenobiotic and environmental pollutant degradation, succinate metavolism, and bacterial HtpG, all of which can affect barrier integrity and immune regulation. Moreover, our finding that SR patients were more similar to healthy controls suggests that community microbial function, as inferred from fecal microbiomes, could serve as a valuable diagnostic tool.",

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note = "Funding Information: J. Van Limbergen was supported by a NASPGHAN/CCFA Young Investigator Development award (2013-2015), a Nova Scotia Health Research Foundation (NSHRF) establishment award (2015-2017), a Future Leaders in Inflammatory Bowel Disease (FLIBD) Program grant (2015-2016), a Dalhousie Medical Research Foundation equipment grant (2015-2016), a donation from the MacLeod family, an IWK Health Centre Research Associateship grant (J.M.-C.) and a Canadian Institutes of Health Research (CIHR)-CAG-CCC New Investigator Award (2015-2020: 201412XGP-340307-205026) and a Canadian Foundation of Innovation John R. Evans Leadership fund (#35235). J. Van Limbergen and A. R. Otley are supported by a CIHRSPOR-Chronic Diseases grant (Inflammation, Microbiome, and Alimentation: Gastro-Intestinal and Neuropsychiatric Effects: the IMAGINE-SPOR chronic disease network). Part of this work was supported by a NSHRF Development and Innovation Grant to N. A. Thomas and A. R. Otley. J. P. Bielawski is supported by grants from CIHR (CMF-108026) and the Atlantic Computational Excellence Network (ACEnet 2011-2285). J. Van Limbergen and A. R. Otley have received support for research, development of educational materials, and participation in advisory boards for Nestl{\'e}. The remaining authors have no conflict of interest to disclose. Publisher Copyright: Copyright {\textcopyright} 2016 Crohn's & Colitis Foundation of America, Inc.",

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AU - Macintyre, Brad

AU - Stadnyk, Andrew

AU - Thomas, Nikhil A.

AU - Noble, Angela

AU - Mahdi, Gamal

AU - Rashid, Mohsin

AU - Otley, Anthony R.

AU - Bielawski, Joseph P.

AU - Van Limbergen, Johan

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N2 - Background: Exclusive enteral nutrition (EEN) is a first-line therapy in pediatric Crohn's disease (CD) thought to induce remission through changes in the gut microbiome. With microbiome assessment largely focused on microbial taxonomy and diversity, it remains unclear to what extent EEN induces functional changes that thereby contribute to its therapeutic effect. Methods: Fecal samples were collected from 15 pediatric CD patients prior to and after EEN treatment, as well as from 5 healthy controls. Metagenomic data were obtained via next-generation sequencing, and nonhuman reads were mapped to KEGG pathways, where possible. Pathway abundance was compared between CD patients and controls, and between CD patients that sustained remission (SR) and those that did not sustain remission (NSR). Results: Of 132 KEGG pathways identified, 8 pathways differed significantly between baseline CD patients and controls. Examination of these eight pathways showed SR patients had greater similarity to controls than NSR patients in all cases. Pathways fell into one of three groups: 1) no prior connection to IBD, 2) previously reported connection to IBD, and 3) known roles in innate immunity and immunoregulation. Conclusions: The microbiota of CD patients and controls represent alternative ecological states that have broad differences in functional capabilities, including xenobiotic and environmental pollutant degradation, succinate metavolism, and bacterial HtpG, all of which can affect barrier integrity and immune regulation. Moreover, our finding that SR patients were more similar to healthy controls suggests that community microbial function, as inferred from fecal microbiomes, could serve as a valuable diagnostic tool.

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The Gut Microbiome of Pediatric Crohn's Disease Patients Differs from Healthy Controls in Genes That Can Influence the Balance between a Healthy and Dysregulated Immune Response

Abstract

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ASJC Scopus Subject Areas

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