The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome

Ali I. Mirza; Feng Zhu; Natalie Knox; Jessica D. Forbes; Christine Bonner; Gary Van Domselaar; Charles N. Bernstein; Morag Graham; Ruth Ann Marrie; Janace Hart; E. Ann Yeh; Douglas L. Arnold; Amit Bar-Or; Julia O'Mahony; Yinshan Zhao; William Hsiao; Brenda Banwell; Emmanuelle Waubant; Helen Tremlett

doi:10.1016/j.msard.2022.103829

The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome

Ali I. Mirza, Feng Zhu, Natalie Knox, Jessica D. Forbes, Christine Bonner, Gary Van Domselaar, Charles N. Bernstein, Morag Graham, Ruth Ann Marrie, Janace Hart, E. Ann Yeh, Douglas L. Arnold, Amit Bar-Or, Julia O'Mahony, Yinshan Zhao, William Hsiao, Brenda Banwell, Emmanuelle Waubant, Helen Tremlett

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

Abstract

Background: The aim of this study was to examine the gut microbiome's metabolic potential in paediatric-onset MS patients (symptom onset <18 years). Methods: We included 17 MS participants and 20 controls similar for sex, age, race, and stool consistency from the Canadian Paediatric Demyelinating Disease Network study. Stool-derived gut metagenome gene abundances were used to estimate relative abundances and turnover scores of individual microbial metabolites and the composition and diversity of carbohydrate-active enzymes (CAZymes). MS participants and controls were compared using the Wilcoxon rank-sum test, as were the disease-modifying drug (DMD) exposed and naïve MS participants. Results: The median age(s) at MS symptom onset=16.1 years (interquartile range [IQR]=1.7), and at stool sample procurement=16.9/15.8 years (IQR=2.0/1.4), for the MS participants/controls. Most MS and control participants were girls (80–82%). Five (29%) of the MS participants had never been exposed to a DMD pre-stool sample and 12 (71%) had (7 to beta-interferon and 5 glatiramer acetate). While the relative abundance of metabolites did not differ between MS participants and controls, turnover scores did. MS participants had a greater potential to metabolize lipopolysaccharides than controls (score difference=1.6E-04, p = 0.034) but lower potential to metabolize peptidoglycan molecules and starch (score differences<2.2E-02, p<0.040). Further, although CAZymes diversity did not differ (p>0.050), starch-degrading subfamilies were underrepresented in MS participants versus controls (relative abundance differences >-0.34, p<0.040) and in the DMD exposed verses DMD naïve MS participants (relative abundance differences>-0.20, p<0.049). Conclusion: Paediatric-onset MS participants had an altered gut microbiome-related metabolic potential compared to controls, including higher breakdown of lipopolysaccharide molecules, but lower resistant starch metabolism.

Original language	English (US)
Article number	103829
Journal	Multiple Sclerosis and Related Disorders
Volume	63
DOIs	https://doi.org/10.1016/j.msard.2022.103829
State	Published - Jul 2022
Externally published	Yes

Keywords

CAZymes
Gut microbiome
Metabolism
Metabolome
Metagenomics
Microbial metabolites
Multiple sclerosis

ASJC Scopus subject areas

Neurology
Clinical Neurology

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10.1016/j.msard.2022.103829

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Mirza, A. I., Zhu, F., Knox, N., Forbes, J. D., Bonner, C., Van Domselaar, G., Bernstein, C. N., Graham, M., Marrie, R. A., Hart, J., Yeh, E. A., Arnold, D. L., Bar-Or, A., O'Mahony, J., Zhao, Y., Hsiao, W., Banwell, B., Waubant, E., & Tremlett, H. (2022). The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome. Multiple Sclerosis and Related Disorders, 63, Article 103829. https://doi.org/10.1016/j.msard.2022.103829

Mirza, AI, Zhu, F, Knox, N, Forbes, JD, Bonner, C, Van Domselaar, G, Bernstein, CN, Graham, M, Marrie, RA, Hart, J, Yeh, EA, Arnold, DL, Bar-Or, A, O'Mahony, J, Zhao, Y, Hsiao, W, Banwell, B, Waubant, E & Tremlett, H 2022, 'The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome', Multiple Sclerosis and Related Disorders, vol. 63, 103829. https://doi.org/10.1016/j.msard.2022.103829

@article{44b710e1b31346579d8b96e751256b6c,

title = "The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome",

abstract = "Background: The aim of this study was to examine the gut microbiome's metabolic potential in paediatric-onset MS patients (symptom onset <18 years). Methods: We included 17 MS participants and 20 controls similar for sex, age, race, and stool consistency from the Canadian Paediatric Demyelinating Disease Network study. Stool-derived gut metagenome gene abundances were used to estimate relative abundances and turnover scores of individual microbial metabolites and the composition and diversity of carbohydrate-active enzymes (CAZymes). MS participants and controls were compared using the Wilcoxon rank-sum test, as were the disease-modifying drug (DMD) exposed and na{\"i}ve MS participants. Results: The median age(s) at MS symptom onset=16.1 years (interquartile range [IQR]=1.7), and at stool sample procurement=16.9/15.8 years (IQR=2.0/1.4), for the MS participants/controls. Most MS and control participants were girls (80–82%). Five (29%) of the MS participants had never been exposed to a DMD pre-stool sample and 12 (71%) had (7 to beta-interferon and 5 glatiramer acetate). While the relative abundance of metabolites did not differ between MS participants and controls, turnover scores did. MS participants had a greater potential to metabolize lipopolysaccharides than controls (score difference=1.6E-04, p = 0.034) but lower potential to metabolize peptidoglycan molecules and starch (score differences<2.2E-02, p<0.040). Further, although CAZymes diversity did not differ (p>0.050), starch-degrading subfamilies were underrepresented in MS participants versus controls (relative abundance differences >-0.34, p<0.040) and in the DMD exposed verses DMD na{\"i}ve MS participants (relative abundance differences>-0.20, p<0.049). Conclusion: Paediatric-onset MS participants had an altered gut microbiome-related metabolic potential compared to controls, including higher breakdown of lipopolysaccharide molecules, but lower resistant starch metabolism.",

keywords = "CAZymes, Gut microbiome, Metabolism, Metabolome, Metagenomics, Microbial metabolites, Multiple sclerosis",

author = "Mirza, {Ali I.} and Feng Zhu and Natalie Knox and Forbes, {Jessica D.} and Christine Bonner and {Van Domselaar}, Gary and Bernstein, {Charles N.} and Morag Graham and Marrie, {Ruth Ann} and Janace Hart and Yeh, {E. Ann} and Arnold, {Douglas L.} and Amit Bar-Or and Julia O'Mahony and Yinshan Zhao and William Hsiao and Brenda Banwell and Emmanuelle Waubant and Helen Tremlett",

note = "Publisher Copyright: {\textcopyright} 2022",

year = "2022",

month = jul,

doi = "10.1016/j.msard.2022.103829",

language = "English (US)",

volume = "63",

journal = "Multiple Sclerosis and Related Disorders",

issn = "2211-0348",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome

AU - Mirza, Ali I.

AU - Zhu, Feng

AU - Knox, Natalie

AU - Forbes, Jessica D.

AU - Bonner, Christine

AU - Van Domselaar, Gary

AU - Bernstein, Charles N.

AU - Graham, Morag

AU - Marrie, Ruth Ann

AU - Hart, Janace

AU - Yeh, E. Ann

AU - Arnold, Douglas L.

AU - Bar-Or, Amit

AU - O'Mahony, Julia

AU - Zhao, Yinshan

AU - Hsiao, William

AU - Banwell, Brenda

AU - Waubant, Emmanuelle

AU - Tremlett, Helen

PY - 2022/7

Y1 - 2022/7

N2 - Background: The aim of this study was to examine the gut microbiome's metabolic potential in paediatric-onset MS patients (symptom onset <18 years). Methods: We included 17 MS participants and 20 controls similar for sex, age, race, and stool consistency from the Canadian Paediatric Demyelinating Disease Network study. Stool-derived gut metagenome gene abundances were used to estimate relative abundances and turnover scores of individual microbial metabolites and the composition and diversity of carbohydrate-active enzymes (CAZymes). MS participants and controls were compared using the Wilcoxon rank-sum test, as were the disease-modifying drug (DMD) exposed and naïve MS participants. Results: The median age(s) at MS symptom onset=16.1 years (interquartile range [IQR]=1.7), and at stool sample procurement=16.9/15.8 years (IQR=2.0/1.4), for the MS participants/controls. Most MS and control participants were girls (80–82%). Five (29%) of the MS participants had never been exposed to a DMD pre-stool sample and 12 (71%) had (7 to beta-interferon and 5 glatiramer acetate). While the relative abundance of metabolites did not differ between MS participants and controls, turnover scores did. MS participants had a greater potential to metabolize lipopolysaccharides than controls (score difference=1.6E-04, p = 0.034) but lower potential to metabolize peptidoglycan molecules and starch (score differences<2.2E-02, p<0.040). Further, although CAZymes diversity did not differ (p>0.050), starch-degrading subfamilies were underrepresented in MS participants versus controls (relative abundance differences >-0.34, p<0.040) and in the DMD exposed verses DMD naïve MS participants (relative abundance differences>-0.20, p<0.049). Conclusion: Paediatric-onset MS participants had an altered gut microbiome-related metabolic potential compared to controls, including higher breakdown of lipopolysaccharide molecules, but lower resistant starch metabolism.

AB - Background: The aim of this study was to examine the gut microbiome's metabolic potential in paediatric-onset MS patients (symptom onset <18 years). Methods: We included 17 MS participants and 20 controls similar for sex, age, race, and stool consistency from the Canadian Paediatric Demyelinating Disease Network study. Stool-derived gut metagenome gene abundances were used to estimate relative abundances and turnover scores of individual microbial metabolites and the composition and diversity of carbohydrate-active enzymes (CAZymes). MS participants and controls were compared using the Wilcoxon rank-sum test, as were the disease-modifying drug (DMD) exposed and naïve MS participants. Results: The median age(s) at MS symptom onset=16.1 years (interquartile range [IQR]=1.7), and at stool sample procurement=16.9/15.8 years (IQR=2.0/1.4), for the MS participants/controls. Most MS and control participants were girls (80–82%). Five (29%) of the MS participants had never been exposed to a DMD pre-stool sample and 12 (71%) had (7 to beta-interferon and 5 glatiramer acetate). While the relative abundance of metabolites did not differ between MS participants and controls, turnover scores did. MS participants had a greater potential to metabolize lipopolysaccharides than controls (score difference=1.6E-04, p = 0.034) but lower potential to metabolize peptidoglycan molecules and starch (score differences<2.2E-02, p<0.040). Further, although CAZymes diversity did not differ (p>0.050), starch-degrading subfamilies were underrepresented in MS participants versus controls (relative abundance differences >-0.34, p<0.040) and in the DMD exposed verses DMD naïve MS participants (relative abundance differences>-0.20, p<0.049). Conclusion: Paediatric-onset MS participants had an altered gut microbiome-related metabolic potential compared to controls, including higher breakdown of lipopolysaccharide molecules, but lower resistant starch metabolism.

KW - CAZymes

KW - Gut microbiome

KW - Metabolism

KW - Metabolome

KW - Metagenomics

KW - Microbial metabolites

KW - Multiple sclerosis

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U2 - 10.1016/j.msard.2022.103829

DO - 10.1016/j.msard.2022.103829

M3 - Article

C2 - 35500534

AN - SCOPUS:85129384961

SN - 2211-0348

VL - 63

JO - Multiple Sclerosis and Related Disorders

JF - Multiple Sclerosis and Related Disorders

M1 - 103829

ER -

The metabolic potential of the paediatric-onset multiple sclerosis gut microbiome

Abstract

Keywords

ASJC Scopus subject areas

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