Large-scale metagenomic analysis of oral microbiomes reveals markers for autism spectrum disorders

Paolo Manghi; Michele Filosi; Moreno Zolfo; Lucas G. Casten; Albert Garcia-Valiente; Stefania Mattevi; Vitor Heidrich; Davide Golzato; Samuel Perini; Andrew M. Thomas; Simone Montalbano; Samuele Cancellieri; Levi Waldron; Jacob B. Hall; Simon Xu; Natalia Volfovsky; Lee Anne Green Snyder; Pamela Feliciano; Francesco Asnicar; Mireia Valles-Colomer; Jacob J. Michaelson; Nicola Segata; Enrico Domenici

doi:10.1038/s41467-024-53934-7

Large-scale metagenomic analysis of oral microbiomes reveals markers for autism spectrum disorders

Paolo Manghi^*, Michele Filosi, Moreno Zolfo, Lucas G. Casten, Albert Garcia-Valiente, Stefania Mattevi, Vitor Heidrich, Davide Golzato, Samuel Perini, Andrew M. Thomas, Simone Montalbano, Samuele Cancellieri, Levi Waldron, Jacob B. Hall, Simon Xu, Natalia Volfovsky, Lee Anne Green Snyder, Pamela Feliciano, Francesco Asnicar, Mireia Valles-ColomerJacob J. Michaelson, Nicola Segata^*, Enrico Domenici^*

^*Corresponding author af dette arbejde

21 Citationer (Scopus)

Abstract

The link between the oral microbiome and neurodevelopmental disorders remains a compelling hypothesis, still requiring confirmation in large-scale datasets. Leveraging over 7000 whole-genome sequenced salivary samples from 2025 US families with children diagnosed with autism spectrum disorders (ASD), our cross-sectional study shows that the oral microbiome composition can discriminate ASD subjects from neurotypical siblings (NTs, AUC = 0.66), with 108 differentiating species (q < 0.005). The relative abundance of these species is highly correlated with cognitive impairment as measured by Full-Scale Intelligence Quotient (IQ). ASD children with IQ < 70 also exhibit lower microbiome strain sharing with parents (p < 10⁻⁶) with respect to NTs. A two-pronged functional enrichment analysis suggests the contribution of enzymes from the serotonin, GABA, and dopamine degradation pathways to the distinct microbial community compositions observed between ASD and NT samples. Although measures of restrictive eating diet and proxies of oral hygiene show relatively minor effects on the microbiome composition, the observed associations with ASD and IQ may still represent unaccounted-for underlying differences in lifestyle among groups. While causal relationships could not be established, our study provides substantial support to the investigation of oral microbiome biomarkers in ASD.

Originalsprog	Engelsk
Artikelnummer	9743
Tidsskrift	Nature Communications
Vol/bind	15
Udgave nummer	1
ISSN	2041-1722
DOI	https://doi.org/10.1038/s41467-024-53934-7
Status	Udgivet - 11 nov. 2024

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10.1038/s41467-024-53934-7Licens: CC BY-NC-ND

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Manghi, P., Filosi, M., Zolfo, M., Casten, L. G., Garcia-Valiente, A., Mattevi, S., Heidrich, V., Golzato, D., Perini, S., Thomas, A. M., Montalbano, S., Cancellieri, S., Waldron, L., Hall, J. B., Xu, S., Volfovsky, N., Green Snyder, L. A., Feliciano, P., Asnicar, F., ... Domenici, E. (2024). Large-scale metagenomic analysis of oral microbiomes reveals markers for autism spectrum disorders. Nature Communications, 15(1), Artikel 9743. https://doi.org/10.1038/s41467-024-53934-7

Manghi, P, Filosi, M, Zolfo, M, Casten, LG, Garcia-Valiente, A, Mattevi, S, Heidrich, V, Golzato, D, Perini, S, Thomas, AM, Montalbano, S, Cancellieri, S, Waldron, L, Hall, JB, Xu, S, Volfovsky, N, Green Snyder, LA, Feliciano, P, Asnicar, F, Valles-Colomer, M, Michaelson, JJ, Segata, N & Domenici, E 2024, 'Large-scale metagenomic analysis of oral microbiomes reveals markers for autism spectrum disorders', Nature Communications, bind 15, nr. 1, 9743. https://doi.org/10.1038/s41467-024-53934-7

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abstract = "The link between the oral microbiome and neurodevelopmental disorders remains a compelling hypothesis, still requiring confirmation in large-scale datasets. Leveraging over 7000 whole-genome sequenced salivary samples from 2025 US families with children diagnosed with autism spectrum disorders (ASD), our cross-sectional study shows that the oral microbiome composition can discriminate ASD subjects from neurotypical siblings (NTs, AUC = 0.66), with 108 differentiating species (q < 0.005). The relative abundance of these species is highly correlated with cognitive impairment as measured by Full-Scale Intelligence Quotient (IQ). ASD children with IQ < 70 also exhibit lower microbiome strain sharing with parents (p < 10−6) with respect to NTs. A two-pronged functional enrichment analysis suggests the contribution of enzymes from the serotonin, GABA, and dopamine degradation pathways to the distinct microbial community compositions observed between ASD and NT samples. Although measures of restrictive eating diet and proxies of oral hygiene show relatively minor effects on the microbiome composition, the observed associations with ASD and IQ may still represent unaccounted-for underlying differences in lifestyle among groups. While causal relationships could not be established, our study provides substantial support to the investigation of oral microbiome biomarkers in ASD.",

author = "Paolo Manghi and Michele Filosi and Moreno Zolfo and Casten, \{Lucas G.\} and Albert Garcia-Valiente and Stefania Mattevi and Vitor Heidrich and Davide Golzato and Samuel Perini and Thomas, \{Andrew M.\} and Simone Montalbano and Samuele Cancellieri and Levi Waldron and Hall, \{Jacob B.\} and Simon Xu and Natalia Volfovsky and \{Green Snyder\}, \{Lee Anne\} and Pamela Feliciano and Francesco Asnicar and Mireia Valles-Colomer and Michaelson, \{Jacob J.\} and Nicola Segata and Enrico Domenici",

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AU - Garcia-Valiente, Albert

AU - Mattevi, Stefania

AU - Heidrich, Vitor

AU - Golzato, Davide

AU - Perini, Samuel

AU - Thomas, Andrew M.

AU - Montalbano, Simone

AU - Cancellieri, Samuele

AU - Waldron, Levi

AU - Hall, Jacob B.

AU - Xu, Simon

AU - Volfovsky, Natalia

AU - Green Snyder, Lee Anne

AU - Feliciano, Pamela

AU - Asnicar, Francesco

AU - Valles-Colomer, Mireia

AU - Michaelson, Jacob J.

AU - Segata, Nicola

AU - Domenici, Enrico

PY - 2024/11/11

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N2 - The link between the oral microbiome and neurodevelopmental disorders remains a compelling hypothesis, still requiring confirmation in large-scale datasets. Leveraging over 7000 whole-genome sequenced salivary samples from 2025 US families with children diagnosed with autism spectrum disorders (ASD), our cross-sectional study shows that the oral microbiome composition can discriminate ASD subjects from neurotypical siblings (NTs, AUC = 0.66), with 108 differentiating species (q < 0.005). The relative abundance of these species is highly correlated with cognitive impairment as measured by Full-Scale Intelligence Quotient (IQ). ASD children with IQ < 70 also exhibit lower microbiome strain sharing with parents (p < 10−6) with respect to NTs. A two-pronged functional enrichment analysis suggests the contribution of enzymes from the serotonin, GABA, and dopamine degradation pathways to the distinct microbial community compositions observed between ASD and NT samples. Although measures of restrictive eating diet and proxies of oral hygiene show relatively minor effects on the microbiome composition, the observed associations with ASD and IQ may still represent unaccounted-for underlying differences in lifestyle among groups. While causal relationships could not be established, our study provides substantial support to the investigation of oral microbiome biomarkers in ASD.

AB - The link between the oral microbiome and neurodevelopmental disorders remains a compelling hypothesis, still requiring confirmation in large-scale datasets. Leveraging over 7000 whole-genome sequenced salivary samples from 2025 US families with children diagnosed with autism spectrum disorders (ASD), our cross-sectional study shows that the oral microbiome composition can discriminate ASD subjects from neurotypical siblings (NTs, AUC = 0.66), with 108 differentiating species (q < 0.005). The relative abundance of these species is highly correlated with cognitive impairment as measured by Full-Scale Intelligence Quotient (IQ). ASD children with IQ < 70 also exhibit lower microbiome strain sharing with parents (p < 10−6) with respect to NTs. A two-pronged functional enrichment analysis suggests the contribution of enzymes from the serotonin, GABA, and dopamine degradation pathways to the distinct microbial community compositions observed between ASD and NT samples. Although measures of restrictive eating diet and proxies of oral hygiene show relatively minor effects on the microbiome composition, the observed associations with ASD and IQ may still represent unaccounted-for underlying differences in lifestyle among groups. While causal relationships could not be established, our study provides substantial support to the investigation of oral microbiome biomarkers in ASD.

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Large-scale metagenomic analysis of oral microbiomes reveals markers for autism spectrum disorders

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