Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10

Tingting Wang; Jens Richardt Møllegaard Jepsen; Rebecca Vinding; Nicklas Brustad; Liang Chen; María Hernández-Lorca; Mina Ali; Julie Bøjstrup Rosenberg; Parisa Mohammadzadeh; Michael Widdowson; Parvaneh Ebrahimi; Morten A Rasmussen; Jonathan Thorsen; Klaus Bønnelykke; Bjørn H Ebdrup; Bo Chawes

doi:10.1038/s41467-025-68115-3

Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10

Tingting Wang^*, Jens Richardt Møllegaard Jepsen, Rebecca Vinding, Nicklas Brustad, Liang Chen, María Hernández-Lorca, Mina Ali, Julie Bøjstrup Rosenberg, Parisa Mohammadzadeh, Michael Widdowson, Parvaneh Ebrahimi, Morten A Rasmussen, Jonathan Thorsen, Klaus Bønnelykke, Bjørn H Ebdrup, Bo Chawes^*

^*Corresponding author af dette arbejde

Abstract

Neurodevelopmental disorders (NDD) are characterized by impairments in brain development that affect motor and cognitive systems. Early identification of NDD risk factors is crucial for prevention. Metabolomic profiling holds promise for early detection but remains underexplored in longitudinal studies. Here, we map the longitudinal metabolomic profiles in 3212 samples covering 683 metabolites from 581 mother-child pairs at six timepoints in the Danish COPSAC2010 cohort to assess childhood NDD risk over a 10-years follow-up period. Cross-validated sPLS models identify metabolic biomarkers and patterns associated with NDD, with maternal gestational week 24 metabolic profile showing the best prediction. Metabolite trajectories prior 18-month of age are linked to NDD risk. Quinolinate is consistently associated with NDD across timepoints and mediated the effect of maternal inflammation on NDD. In the single metabolite analysis, no metabolites remained significant after multiple testing correction. In this work, we provide valuable insights into the role of the longitudinal metabolome in neurodevelopment.

Originalsprog	Engelsk
Tidsskrift	Nature Communications
ISSN	2041-1722
DOI	https://doi.org/10.1038/s41467-025-68115-3
Status	E-pub ahead of print - 8 jan. 2026

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10.1038/s41467-025-68115-3Licens: CC BY-NC-ND

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Wang, T., Jepsen, J. R. M., Vinding, R., Brustad, N., Chen, L., Hernández-Lorca, M., Ali, M., Rosenberg, J. B., Mohammadzadeh, P., Widdowson, M., Ebrahimi, P., Rasmussen, M. A., Thorsen, J., Bønnelykke, K., Ebdrup, B. H., & Chawes, B. (2026). Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10. Nature Communications. Advance online publication. https://doi.org/10.1038/s41467-025-68115-3

Wang, T , Jepsen, JRM , Vinding, R , Brustad, N , Chen, L , Hernández-Lorca, M , Ali, M , Rosenberg, JB , Mohammadzadeh, P , Widdowson, M , Ebrahimi, P , Rasmussen, MA , Thorsen, J , Bønnelykke, K , Ebdrup, BH & Chawes, B 2026, 'Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10', Nature Communications. https://doi.org/10.1038/s41467-025-68115-3

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title = "Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10",

abstract = "Neurodevelopmental disorders (NDD) are characterized by impairments in brain development that affect motor and cognitive systems. Early identification of NDD risk factors is crucial for prevention. Metabolomic profiling holds promise for early detection but remains underexplored in longitudinal studies. Here, we map the longitudinal metabolomic profiles in 3212 samples covering 683 metabolites from 581 mother-child pairs at six timepoints in the Danish COPSAC2010 cohort to assess childhood NDD risk over a 10-years follow-up period. Cross-validated sPLS models identify metabolic biomarkers and patterns associated with NDD, with maternal gestational week 24 metabolic profile showing the best prediction. Metabolite trajectories prior 18-month of age are linked to NDD risk. Quinolinate is consistently associated with NDD across timepoints and mediated the effect of maternal inflammation on NDD. In the single metabolite analysis, no metabolites remained significant after multiple testing correction. In this work, we provide valuable insights into the role of the longitudinal metabolome in neurodevelopment.",

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doi = "10.1038/s41467-025-68115-3",

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T1 - Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10

AU - Wang, Tingting

AU - Jepsen, Jens Richardt Møllegaard

AU - Vinding, Rebecca

AU - Brustad, Nicklas

AU - Chen, Liang

AU - Hernández-Lorca, María

AU - Ali, Mina

AU - Rosenberg, Julie Bøjstrup

AU - Mohammadzadeh, Parisa

AU - Widdowson, Michael

AU - Ebrahimi, Parvaneh

AU - Rasmussen, Morten A

AU - Thorsen, Jonathan

AU - Bønnelykke, Klaus

AU - Ebdrup, Bjørn H

AU - Chawes, Bo

PY - 2026/1/8

Y1 - 2026/1/8

N2 - Neurodevelopmental disorders (NDD) are characterized by impairments in brain development that affect motor and cognitive systems. Early identification of NDD risk factors is crucial for prevention. Metabolomic profiling holds promise for early detection but remains underexplored in longitudinal studies. Here, we map the longitudinal metabolomic profiles in 3212 samples covering 683 metabolites from 581 mother-child pairs at six timepoints in the Danish COPSAC2010 cohort to assess childhood NDD risk over a 10-years follow-up period. Cross-validated sPLS models identify metabolic biomarkers and patterns associated with NDD, with maternal gestational week 24 metabolic profile showing the best prediction. Metabolite trajectories prior 18-month of age are linked to NDD risk. Quinolinate is consistently associated with NDD across timepoints and mediated the effect of maternal inflammation on NDD. In the single metabolite analysis, no metabolites remained significant after multiple testing correction. In this work, we provide valuable insights into the role of the longitudinal metabolome in neurodevelopment.

AB - Neurodevelopmental disorders (NDD) are characterized by impairments in brain development that affect motor and cognitive systems. Early identification of NDD risk factors is crucial for prevention. Metabolomic profiling holds promise for early detection but remains underexplored in longitudinal studies. Here, we map the longitudinal metabolomic profiles in 3212 samples covering 683 metabolites from 581 mother-child pairs at six timepoints in the Danish COPSAC2010 cohort to assess childhood NDD risk over a 10-years follow-up period. Cross-validated sPLS models identify metabolic biomarkers and patterns associated with NDD, with maternal gestational week 24 metabolic profile showing the best prediction. Metabolite trajectories prior 18-month of age are linked to NDD risk. Quinolinate is consistently associated with NDD across timepoints and mediated the effect of maternal inflammation on NDD. In the single metabolite analysis, no metabolites remained significant after multiple testing correction. In this work, we provide valuable insights into the role of the longitudinal metabolome in neurodevelopment.

U2 - 10.1038/s41467-025-68115-3

DO - 10.1038/s41467-025-68115-3

M3 - Journal article

C2 - 41501024

SN - 2041-1722

JO - Nature Communications

JF - Nature Communications

ER -

Longitudinal metabolome profiling from pregnancy through childhood and risk of neurodevelopmental disorders at age 10

Abstract

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