Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition

T. Portlock; T. Shama; S. H. Kakon; B. Hartjen; C. Pook; B. C. Wilson; A. Bhuttor; D. Ho; I. Shennon; A. M. Engelstad; R. Di Lorenzo; G. Greaves; N. Rahman; C. Kelsey; P. D. Gluckman; J. M. O’Sullivan; R. Haque; T. Forrester; C. A. Nelson

doi:10.1038/s41467-024-55798-3

Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition

T. Portlock
, T. Shama
, S. H. Kakon
, B. Hartjen
, C. Pook
, B. C. Wilson
, A. Bhuttor
, D. Ho
, I. Shennon
, A. M. Engelstad
, R. Di Lorenzo
, G. Greaves
, N. Rahman
, C. Kelsey
, P. D. Gluckman
, J. M. O’Sullivan
, R. Haque
, T. Forrester
, C. A. Nelson

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

Abstract

Malnutrition affects over 30 million children annually and has profound immediate and enduring repercussions. Survivors often suffer lasting neurocognitive consequences that impact academic performance and socioeconomic outcomes. Mechanistic understanding of the emergence of these consequences is poorly understood. Using multi-system SHAP interpreted random forest models and network analysis, we show that Moderate Acute Malnutrition (MAM) associates with enrichment of faecal Rothia mucilaginosa, Streptococcus salivarius and depletion of Bacteroides fragilis in a cohort of one-year-old children in Dhaka, Bangladesh. These microbiome changes form interconnected pathways that involve reduced plasma odd-chain fatty acid levels, decreased gamma and beta electroencephalogram power in temporal and frontal brain regions, and reduced vocalization. These findings support the hypothesis that prolonged colonization by oral commensal species delay gut microbiome and brain development. While causal links require empirical validation, this study provides insights to improve interventions targeting MAM-associated neurodevelopmental deficits.

Original language	English (US)
Article number	473
Journal	Nature communications
Volume	16
Issue number	1
Early online date	Jan 8 2025
DOIs	https://doi.org/10.1038/s41467-024-55798-3
State	Published - Dec 2025
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-024-55798-3License: CC BY-NC-ND

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Portlock, T., Shama, T., Kakon, S. H., Hartjen, B., Pook, C., Wilson, B. C., Bhuttor, A., Ho, D., Shennon, I., Engelstad, A. M., Di Lorenzo, R., Greaves, G., Rahman, N., Kelsey, C., Gluckman, P. D., O’Sullivan, J. M., Haque, R., Forrester, T., & Nelson, C. A. (2025). Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition. Nature communications, 16(1), Article 473. https://doi.org/10.1038/s41467-024-55798-3

Portlock, T, Shama, T, Kakon, SH, Hartjen, B, Pook, C, Wilson, BC, Bhuttor, A, Ho, D, Shennon, I, Engelstad, AM, Di Lorenzo, R, Greaves, G, Rahman, N, Kelsey, C, Gluckman, PD, O’Sullivan, JM, Haque, R, Forrester, T & Nelson, CA 2025, 'Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition', Nature communications, vol. 16, no. 1, 473. https://doi.org/10.1038/s41467-024-55798-3

@article{9e54144902f24fedbef3f28f5e09a5b0,

title = "Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition",

abstract = "Malnutrition affects over 30 million children annually and has profound immediate and enduring repercussions. Survivors often suffer lasting neurocognitive consequences that impact academic performance and socioeconomic outcomes. Mechanistic understanding of the emergence of these consequences is poorly understood. Using multi-system SHAP interpreted random forest models and network analysis, we show that Moderate Acute Malnutrition (MAM) associates with enrichment of faecal Rothia mucilaginosa, Streptococcus salivarius and depletion of Bacteroides fragilis in a cohort of one-year-old children in Dhaka, Bangladesh. These microbiome changes form interconnected pathways that involve reduced plasma odd-chain fatty acid levels, decreased gamma and beta electroencephalogram power in temporal and frontal brain regions, and reduced vocalization. These findings support the hypothesis that prolonged colonization by oral commensal species delay gut microbiome and brain development. While causal links require empirical validation, this study provides insights to improve interventions targeting MAM-associated neurodevelopmental deficits.",

author = "T. Portlock and T. Shama and Kakon, \{S. H.\} and B. Hartjen and C. Pook and Wilson, \{B. C.\} and A. Bhuttor and D. Ho and I. Shennon and Engelstad, \{A. M.\} and \{Di Lorenzo\}, R. and G. Greaves and N. Rahman and C. Kelsey and Gluckman, \{P. D.\} and O{\textquoteright}Sullivan, \{J. M.\} and R. Haque and T. Forrester and Nelson, \{C. A.\}",

note = "Work on this clinical trial is supported by Wellcome Leap (9942 Culver Blvd Unit 1277 Culver City, CA 90232-4167, United States; www.wellcomeleap.org) to P.D.G., J.M.O., T.F. and C.A.N. as part of the 1kD Programme. We acknowledge our core donors, the Government of Bangladesh, and Canada, for providing unrestricted support and commitment to icddr,b{\textquoteright}s research effort. The authors would like to acknowledge the participants in Mirpur, Dhaka, Bangladesh for their contributions to this study. The authors would also like to thank the M4EFaD study team within the Infectious Diseases Division, International Centre for Diarrhoeal Disease Research, Bangladesh, Boston, and Auckland for their work in participant recruitment, sample collection, assessments, and analyses.",

year = "2025",

month = dec,

doi = "10.1038/s41467-024-55798-3",

language = "English (US)",

volume = "16",

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AU - Portlock, T.

AU - Shama, T.

AU - Kakon, S. H.

AU - Hartjen, B.

AU - Pook, C.

AU - Wilson, B. C.

AU - Bhuttor, A.

AU - Ho, D.

AU - Shennon, I.

AU - Engelstad, A. M.

AU - Di Lorenzo, R.

AU - Greaves, G.

AU - Rahman, N.

AU - Kelsey, C.

AU - Gluckman, P. D.

AU - O’Sullivan, J. M.

AU - Haque, R.

AU - Forrester, T.

AU - Nelson, C. A.

N1 - Work on this clinical trial is supported by Wellcome Leap (9942 Culver Blvd Unit 1277 Culver City, CA 90232-4167, United States; www.wellcomeleap.org) to P.D.G., J.M.O., T.F. and C.A.N. as part of the 1kD Programme. We acknowledge our core donors, the Government of Bangladesh, and Canada, for providing unrestricted support and commitment to icddr,b’s research effort. The authors would like to acknowledge the participants in Mirpur, Dhaka, Bangladesh for their contributions to this study. The authors would also like to thank the M4EFaD study team within the Infectious Diseases Division, International Centre for Diarrhoeal Disease Research, Bangladesh, Boston, and Auckland for their work in participant recruitment, sample collection, assessments, and analyses.

PY - 2025/12

Y1 - 2025/12

N2 - Malnutrition affects over 30 million children annually and has profound immediate and enduring repercussions. Survivors often suffer lasting neurocognitive consequences that impact academic performance and socioeconomic outcomes. Mechanistic understanding of the emergence of these consequences is poorly understood. Using multi-system SHAP interpreted random forest models and network analysis, we show that Moderate Acute Malnutrition (MAM) associates with enrichment of faecal Rothia mucilaginosa, Streptococcus salivarius and depletion of Bacteroides fragilis in a cohort of one-year-old children in Dhaka, Bangladesh. These microbiome changes form interconnected pathways that involve reduced plasma odd-chain fatty acid levels, decreased gamma and beta electroencephalogram power in temporal and frontal brain regions, and reduced vocalization. These findings support the hypothesis that prolonged colonization by oral commensal species delay gut microbiome and brain development. While causal links require empirical validation, this study provides insights to improve interventions targeting MAM-associated neurodevelopmental deficits.

AB - Malnutrition affects over 30 million children annually and has profound immediate and enduring repercussions. Survivors often suffer lasting neurocognitive consequences that impact academic performance and socioeconomic outcomes. Mechanistic understanding of the emergence of these consequences is poorly understood. Using multi-system SHAP interpreted random forest models and network analysis, we show that Moderate Acute Malnutrition (MAM) associates with enrichment of faecal Rothia mucilaginosa, Streptococcus salivarius and depletion of Bacteroides fragilis in a cohort of one-year-old children in Dhaka, Bangladesh. These microbiome changes form interconnected pathways that involve reduced plasma odd-chain fatty acid levels, decreased gamma and beta electroencephalogram power in temporal and frontal brain regions, and reduced vocalization. These findings support the hypothesis that prolonged colonization by oral commensal species delay gut microbiome and brain development. While causal links require empirical validation, this study provides insights to improve interventions targeting MAM-associated neurodevelopmental deficits.

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DO - 10.1038/s41467-024-55798-3

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VL - 16

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 473

ER -

Interconnected pathways link faecal microbiota plasma lipids and brain activity to childhood malnutrition related cognition

Abstract

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