Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts

Paolo Manghi; Amrisha Bhosle; Kai Wang; Roberta Marconi; Marta Selma-Royo; Liviana Ricci; Francesco Asnicar; Davide Golzato; Wenjie Ma; Dong Hang; Kelsey N. Thompson; Eric A. Franzosa; Amir Nabinejad; Sabrina Tamburini; Eric B. Rimm; Wendy S. Garrett; Qi Sun; Andrew T. Chan; Mireia Valles-Colomer; Manimozhiyan Arumugam; Kate M. Bermingham; Francesca Giordano; Richard Davies; George Hadjigeorgiou; Jonathan Wolf; Till Strowig; Sarah E. Berry; Curtis Huttenhower; Tim D. Spector; Nicola Segata; Mingyang Song

doi:10.1038/s41564-024-01858-9

Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts

Paolo Manghi, Amrisha Bhosle, Kai Wang, Roberta Marconi, Marta Selma-Royo, Liviana Ricci, Francesco Asnicar, Davide Golzato, Wenjie Ma, Dong Hang, Kelsey N. Thompson, Eric A. Franzosa, Amir Nabinejad, Sabrina Tamburini, Eric B. Rimm, Wendy S. Garrett, Qi Sun, Andrew T. Chan, Mireia Valles-Colomer, Manimozhiyan ArumugamKate M. Bermingham, Francesca Giordano, Richard Davies, George Hadjigeorgiou, Jonathan Wolf, Till Strowig, Sarah E. Berry, Curtis Huttenhower, Tim D. Spector, Nicola Segata, Mingyang Song

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

6 Scopus citations

Abstract

Although diet is a substantial determinant of the human gut microbiome, the interplay between specific foods and microbial community structure remains poorly understood. Coffee is a habitually consumed beverage with established metabolic and health benefits. We previously found that coffee is, among >150 items, the food showing the highest correlation with microbiome components. Here we conducted a multi-cohort, multi-omic analysis of US and UK populations with detailed dietary information from a total of 22,867 participants, which we then integrated with public data from 211 cohorts (N = 54,198). The link between coffee consumption and microbiome was highly reproducible across different populations (area under the curve of 0.89), largely driven by the presence and abundance of the species Lawsonibacter asaccharolyticus. Using in vitro experiments, we show that coffee can stimulate growth of L. asaccharolyticus. Plasma metabolomics on 438 samples identified several metabolites enriched among coffee consumers, with quinic acid and its potential derivatives associated with coffee and L. asaccharolyticus. This study reveals a metabolic link between a specific gut microorganism and a specific food item, providing a framework for the understanding of microbial dietary responses at the biochemical level.

Original language	English
Pages (from-to)	3120-3134
Number of pages	15
Journal	Nature Microbiology
Volume	9
Issue number	12
DOIs	https://doi.org/10.1038/s41564-024-01858-9
State	Published - Dec 2024
Externally published	Yes

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Manghi, P., Bhosle, A., Wang, K., Marconi, R., Selma-Royo, M., Ricci, L., Asnicar, F., Golzato, D., Ma, W., Hang, D., Thompson, K. N., Franzosa, E. A., Nabinejad, A., Tamburini, S., Rimm, E. B., Garrett, W. S., Sun, Q., Chan, A. T., Valles-Colomer, M., ... Song, M. (2024). Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts. Nature Microbiology, 9(12), 3120-3134. https://doi.org/10.1038/s41564-024-01858-9

@article{7a9b3e63ea2f4afeb5ec3ba310c1df3a,

title = "Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts",

abstract = "Although diet is a substantial determinant of the human gut microbiome, the interplay between specific foods and microbial community structure remains poorly understood. Coffee is a habitually consumed beverage with established metabolic and health benefits. We previously found that coffee is, among >150 items, the food showing the highest correlation with microbiome components. Here we conducted a multi-cohort, multi-omic analysis of US and UK populations with detailed dietary information from a total of 22,867 participants, which we then integrated with public data from 211 cohorts (N = 54,198). The link between coffee consumption and microbiome was highly reproducible across different populations (area under the curve of 0.89), largely driven by the presence and abundance of the species Lawsonibacter asaccharolyticus. Using in vitro experiments, we show that coffee can stimulate growth of L. asaccharolyticus. Plasma metabolomics on 438 samples identified several metabolites enriched among coffee consumers, with quinic acid and its potential derivatives associated with coffee and L. asaccharolyticus. This study reveals a metabolic link between a specific gut microorganism and a specific food item, providing a framework for the understanding of microbial dietary responses at the biochemical level.",

author = "Paolo Manghi and Amrisha Bhosle and Kai Wang and Roberta Marconi and Marta Selma-Royo and Liviana Ricci and Francesco Asnicar and Davide Golzato and Wenjie Ma and Dong Hang and Thompson, {Kelsey N.} and Franzosa, {Eric A.} and Amir Nabinejad and Sabrina Tamburini and Rimm, {Eric B.} and Garrett, {Wendy S.} and Qi Sun and Chan, {Andrew T.} and Mireia Valles-Colomer and Manimozhiyan Arumugam and Bermingham, {Kate M.} and Francesca Giordano and Richard Davies and George Hadjigeorgiou and Jonathan Wolf and Till Strowig and Berry, {Sarah E.} and Curtis Huttenhower and Spector, {Tim D.} and Nicola Segata and Mingyang Song",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41564-024-01858-9",

language = "English",

volume = "9",

pages = "3120--3134",

journal = "Nature Microbiology",

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Manghi, P, Bhosle, A, Wang, K, Marconi, R, Selma-Royo, M, Ricci, L, Asnicar, F, Golzato, D, Ma, W, Hang, D, Thompson, KN, Franzosa, EA, Nabinejad, A, Tamburini, S, Rimm, EB, Garrett, WS, Sun, Q, Chan, AT, Valles-Colomer, M, Arumugam, M, Bermingham, KM, Giordano, F, Davies, R, Hadjigeorgiou, G, Wolf, J, Strowig, T, Berry, SE, Huttenhower, C, Spector, TD, Segata, N & Song, M 2024, 'Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts', Nature Microbiology, vol. 9, no. 12, pp. 3120-3134. https://doi.org/10.1038/s41564-024-01858-9

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AU - Manghi, Paolo

AU - Bhosle, Amrisha

AU - Wang, Kai

AU - Marconi, Roberta

AU - Selma-Royo, Marta

AU - Ricci, Liviana

AU - Asnicar, Francesco

AU - Golzato, Davide

AU - Ma, Wenjie

AU - Hang, Dong

AU - Thompson, Kelsey N.

AU - Franzosa, Eric A.

AU - Nabinejad, Amir

AU - Tamburini, Sabrina

AU - Rimm, Eric B.

AU - Garrett, Wendy S.

AU - Sun, Qi

AU - Chan, Andrew T.

AU - Valles-Colomer, Mireia

AU - Arumugam, Manimozhiyan

AU - Bermingham, Kate M.

AU - Giordano, Francesca

AU - Davies, Richard

AU - Hadjigeorgiou, George

AU - Wolf, Jonathan

AU - Strowig, Till

AU - Berry, Sarah E.

AU - Huttenhower, Curtis

AU - Spector, Tim D.

AU - Segata, Nicola

AU - Song, Mingyang

PY - 2024/12

Y1 - 2024/12

N2 - Although diet is a substantial determinant of the human gut microbiome, the interplay between specific foods and microbial community structure remains poorly understood. Coffee is a habitually consumed beverage with established metabolic and health benefits. We previously found that coffee is, among >150 items, the food showing the highest correlation with microbiome components. Here we conducted a multi-cohort, multi-omic analysis of US and UK populations with detailed dietary information from a total of 22,867 participants, which we then integrated with public data from 211 cohorts (N = 54,198). The link between coffee consumption and microbiome was highly reproducible across different populations (area under the curve of 0.89), largely driven by the presence and abundance of the species Lawsonibacter asaccharolyticus. Using in vitro experiments, we show that coffee can stimulate growth of L. asaccharolyticus. Plasma metabolomics on 438 samples identified several metabolites enriched among coffee consumers, with quinic acid and its potential derivatives associated with coffee and L. asaccharolyticus. This study reveals a metabolic link between a specific gut microorganism and a specific food item, providing a framework for the understanding of microbial dietary responses at the biochemical level.

AB - Although diet is a substantial determinant of the human gut microbiome, the interplay between specific foods and microbial community structure remains poorly understood. Coffee is a habitually consumed beverage with established metabolic and health benefits. We previously found that coffee is, among >150 items, the food showing the highest correlation with microbiome components. Here we conducted a multi-cohort, multi-omic analysis of US and UK populations with detailed dietary information from a total of 22,867 participants, which we then integrated with public data from 211 cohorts (N = 54,198). The link between coffee consumption and microbiome was highly reproducible across different populations (area under the curve of 0.89), largely driven by the presence and abundance of the species Lawsonibacter asaccharolyticus. Using in vitro experiments, we show that coffee can stimulate growth of L. asaccharolyticus. Plasma metabolomics on 438 samples identified several metabolites enriched among coffee consumers, with quinic acid and its potential derivatives associated with coffee and L. asaccharolyticus. This study reveals a metabolic link between a specific gut microorganism and a specific food item, providing a framework for the understanding of microbial dietary responses at the biochemical level.

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DO - 10.1038/s41564-024-01858-9

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AN - SCOPUS:85209370948

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VL - 9

SP - 3120

EP - 3134

JO - Nature Microbiology

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ER -

Coffee consumption is associated with intestinal Lawsonibacter asaccharolyticus abundance and prevalence across multiple cohorts

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