Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease

Rafael Valdés-Mas; Avner Leshem; Danping Zheng; Yotam Cohen; Lara Kern; Niv Zmora; Yiming He; Corine Katina; Shimrit Eliyahu-Miller; Tal Yosef-Hevroni; Liron Richman; Barbara Raykhel; Shira Allswang; Reut Better; Merav Shmueli; Aurelia Saftien; Nyssa Cullin; Fernando Slamovitz; Dragos Ciocan; Kyanna S. Ouyang; Uria Mor; Mally Dori-Bachash; Shahar Molina; Yishai Levin; Koji Atarashi; Ghil Jona; Jens Puschhof; Alon Harmelin; Noa Stettner; Minhu Chen; Jotham Suez; Kenya Honda; Wolfgang Lieb; Corinna Bang; Michal Kori; Nitsan Maharshak; Yifat Merbl; Oren Shibolet; Zamir Halpern; Dror S. Shouval; Raanan Shamir; Andre Franke; Suhaib K. Abdeen; Hagit Shapiro; Alon Savidor; Eran Elinav

doi:10.1016/j.cell.2024.12.016

Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease

Rafael Valdés-Mas, Avner Leshem, Danping Zheng, Yotam Cohen, Lara Kern, Niv Zmora, Yiming He, Corine Katina, Shimrit Eliyahu-Miller, Tal Yosef-Hevroni, Liron Richman, Barbara Raykhel, Shira Allswang, Reut Better, Merav Shmueli, Aurelia Saftien, Nyssa Cullin, Fernando Slamovitz, Dragos Ciocan, Kyanna S. OuyangUria Mor, Mally Dori-Bachash, Shahar Molina, Yishai Levin, Koji Atarashi, Ghil Jona, Jens Puschhof, Alon Harmelin, Noa Stettner, Minhu Chen, Jotham Suez, Kenya Honda, Wolfgang Lieb, Corinna Bang, Michal Kori, Nitsan Maharshak, Yifat Merbl, Oren Shibolet, Zamir Halpern, Dror S. Shouval, Raanan Shamir, Andre Franke, Suhaib K. Abdeen, Hagit Shapiro, Alon Savidor, Eran Elinav^*

^*Corresponding author for this work

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

4 Scopus citations

Abstract

Host-microbiome-dietary interactions play crucial roles in regulating human health, yet their direct functional assessment remains challenging. We adopted metagenome-informed metaproteomics (MIM), in mice and humans, to non-invasively explore species-level microbiome-host interactions during commensal and pathogen colonization, nutritional modification, and antibiotic-induced perturbation. Simultaneously, fecal MIM accurately characterized the nutritional exposure landscape in multiple clinical and dietary contexts. Implementation of MIM in murine auto-inflammation and in human inflammatory bowel disease (IBD) characterized a “compositional dysbiosis” and a concomitant species-specific “functional dysbiosis” driven by suppressed commensal responses to inflammatory host signals. Microbiome transfers unraveled early-onset kinetics of these host-commensal cross-responsive patterns, while predictive analyses identified candidate fecal host-microbiome IBD biomarker protein pairs outperforming S100A8/S100A9 (calprotectin). Importantly, a simultaneous fecal nutritional MIM assessment enabled the determination of IBD-related consumption patterns, dietary treatment compliance, and small intestinal digestive aberrations. Collectively, a parallelized dietary-bacterial-host MIM assessment functionally uncovers trans-kingdom interactomes shaping gastrointestinal ecology while offering personalized diagnostic and therapeutic insights into microbiome-associated disease.

Original language	English
Pages (from-to)	1062-1083.e36
Journal	Cell
Volume	188
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2024.12.016
State	Published - 20 Feb 2025

Funding

Funders	Funder number
Kahn Foundation
Yükseköğretim Kurulu
Excellent Young Scientists Fund
VATAT
KINDRED
Weizmann Institute of Science
Leona M. and Harry B. Helmsley Charitable Trust
Deutsches Krebsforschungszentrum
Bill and Melinda Gates Foundation
Howard Hughes Medical Institute
Ministry of Education, Culture, Sports, Science and Technology
Israel Ministry of Science and Technology Zvi Yanai Fellowship
Japan Society for the Promotion of Science	20H05627
Bundesministerium für Bildung und Forschung	01ZX1606A
Deutsche Forschungsgemeinschaft	EXC 2167, FOR 5042, EXC 306
National Natural Science Foundation of China	82100549
Israel Science Foundation	1197/19
Japan Agency for Medical Research and Development	JP22zf0127007, JP21ae0121041

Keywords

biomarker
diet
inflammatory bowel disease
metagenome-informed metaproteomics
microbiome

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10.1016/j.cell.2024.12.016

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Valdés-Mas, R., Leshem, A., Zheng, D., Cohen, Y., Kern, L., Zmora, N., He, Y., Katina, C., Eliyahu-Miller, S., Yosef-Hevroni, T., Richman, L., Raykhel, B., Allswang, S., Better, R., Shmueli, M., Saftien, A., Cullin, N., Slamovitz, F., Ciocan, D., ... Elinav, E. (2025). Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease. Cell, 188(4), 1062-1083.e36. https://doi.org/10.1016/j.cell.2024.12.016

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title = "Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease",

abstract = "Host-microbiome-dietary interactions play crucial roles in regulating human health, yet their direct functional assessment remains challenging. We adopted metagenome-informed metaproteomics (MIM), in mice and humans, to non-invasively explore species-level microbiome-host interactions during commensal and pathogen colonization, nutritional modification, and antibiotic-induced perturbation. Simultaneously, fecal MIM accurately characterized the nutritional exposure landscape in multiple clinical and dietary contexts. Implementation of MIM in murine auto-inflammation and in human inflammatory bowel disease (IBD) characterized a “compositional dysbiosis” and a concomitant species-specific “functional dysbiosis” driven by suppressed commensal responses to inflammatory host signals. Microbiome transfers unraveled early-onset kinetics of these host-commensal cross-responsive patterns, while predictive analyses identified candidate fecal host-microbiome IBD biomarker protein pairs outperforming S100A8/S100A9 (calprotectin). Importantly, a simultaneous fecal nutritional MIM assessment enabled the determination of IBD-related consumption patterns, dietary treatment compliance, and small intestinal digestive aberrations. Collectively, a parallelized dietary-bacterial-host MIM assessment functionally uncovers trans-kingdom interactomes shaping gastrointestinal ecology while offering personalized diagnostic and therapeutic insights into microbiome-associated disease.",

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author = "Rafael Vald{\'e}s-Mas and Avner Leshem and Danping Zheng and Yotam Cohen and Lara Kern and Niv Zmora and Yiming He and Corine Katina and Shimrit Eliyahu-Miller and Tal Yosef-Hevroni and Liron Richman and Barbara Raykhel and Shira Allswang and Reut Better and Merav Shmueli and Aurelia Saftien and Nyssa Cullin and Fernando Slamovitz and Dragos Ciocan and Ouyang, {Kyanna S.} and Uria Mor and Mally Dori-Bachash and Shahar Molina and Yishai Levin and Koji Atarashi and Ghil Jona and Jens Puschhof and Alon Harmelin and Noa Stettner and Minhu Chen and Jotham Suez and Kenya Honda and Wolfgang Lieb and Corinna Bang and Michal Kori and Nitsan Maharshak and Yifat Merbl and Oren Shibolet and Zamir Halpern and Shouval, {Dror S.} and Raanan Shamir and Andre Franke and Abdeen, {Suhaib K.} and Hagit Shapiro and Alon Savidor and Eran Elinav",

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doi = "10.1016/j.cell.2024.12.016",

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Valdés-Mas, R, Leshem, A, Zheng, D, Cohen, Y, Kern, L, Zmora, N, He, Y, Katina, C, Eliyahu-Miller, S, Yosef-Hevroni, T, Richman, L, Raykhel, B, Allswang, S, Better, R, Shmueli, M, Saftien, A, Cullin, N, Slamovitz, F, Ciocan, D, Ouyang, KS, Mor, U, Dori-Bachash, M, Molina, S, Levin, Y, Atarashi, K, Jona, G, Puschhof, J, Harmelin, A, Stettner, N, Chen, M, Suez, J, Honda, K, Lieb, W, Bang, C, Kori, M, Maharshak, N, Merbl, Y, Shibolet, O , Halpern, Z , Shouval, DS , Shamir, R, Franke, A, Abdeen, SK, Shapiro, H, Savidor, A & Elinav, E 2025, 'Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease', Cell, vol. 188, no. 4, pp. 1062-1083.e36. https://doi.org/10.1016/j.cell.2024.12.016

TY - JOUR

T1 - Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease

AU - Valdés-Mas, Rafael

AU - Leshem, Avner

AU - Zheng, Danping

AU - Cohen, Yotam

AU - Kern, Lara

AU - Zmora, Niv

AU - He, Yiming

AU - Katina, Corine

AU - Eliyahu-Miller, Shimrit

AU - Yosef-Hevroni, Tal

AU - Richman, Liron

AU - Raykhel, Barbara

AU - Allswang, Shira

AU - Better, Reut

AU - Shmueli, Merav

AU - Saftien, Aurelia

AU - Cullin, Nyssa

AU - Slamovitz, Fernando

AU - Ciocan, Dragos

AU - Ouyang, Kyanna S.

AU - Mor, Uria

AU - Dori-Bachash, Mally

AU - Molina, Shahar

AU - Levin, Yishai

AU - Atarashi, Koji

AU - Jona, Ghil

AU - Puschhof, Jens

AU - Harmelin, Alon

AU - Stettner, Noa

AU - Chen, Minhu

AU - Suez, Jotham

AU - Honda, Kenya

AU - Lieb, Wolfgang

AU - Bang, Corinna

AU - Kori, Michal

AU - Maharshak, Nitsan

AU - Merbl, Yifat

AU - Shibolet, Oren

AU - Halpern, Zamir

AU - Shouval, Dror S.

AU - Shamir, Raanan

AU - Franke, Andre

AU - Abdeen, Suhaib K.

AU - Shapiro, Hagit

AU - Savidor, Alon

AU - Elinav, Eran

PY - 2025/2/20

Y1 - 2025/2/20

N2 - Host-microbiome-dietary interactions play crucial roles in regulating human health, yet their direct functional assessment remains challenging. We adopted metagenome-informed metaproteomics (MIM), in mice and humans, to non-invasively explore species-level microbiome-host interactions during commensal and pathogen colonization, nutritional modification, and antibiotic-induced perturbation. Simultaneously, fecal MIM accurately characterized the nutritional exposure landscape in multiple clinical and dietary contexts. Implementation of MIM in murine auto-inflammation and in human inflammatory bowel disease (IBD) characterized a “compositional dysbiosis” and a concomitant species-specific “functional dysbiosis” driven by suppressed commensal responses to inflammatory host signals. Microbiome transfers unraveled early-onset kinetics of these host-commensal cross-responsive patterns, while predictive analyses identified candidate fecal host-microbiome IBD biomarker protein pairs outperforming S100A8/S100A9 (calprotectin). Importantly, a simultaneous fecal nutritional MIM assessment enabled the determination of IBD-related consumption patterns, dietary treatment compliance, and small intestinal digestive aberrations. Collectively, a parallelized dietary-bacterial-host MIM assessment functionally uncovers trans-kingdom interactomes shaping gastrointestinal ecology while offering personalized diagnostic and therapeutic insights into microbiome-associated disease.

AB - Host-microbiome-dietary interactions play crucial roles in regulating human health, yet their direct functional assessment remains challenging. We adopted metagenome-informed metaproteomics (MIM), in mice and humans, to non-invasively explore species-level microbiome-host interactions during commensal and pathogen colonization, nutritional modification, and antibiotic-induced perturbation. Simultaneously, fecal MIM accurately characterized the nutritional exposure landscape in multiple clinical and dietary contexts. Implementation of MIM in murine auto-inflammation and in human inflammatory bowel disease (IBD) characterized a “compositional dysbiosis” and a concomitant species-specific “functional dysbiosis” driven by suppressed commensal responses to inflammatory host signals. Microbiome transfers unraveled early-onset kinetics of these host-commensal cross-responsive patterns, while predictive analyses identified candidate fecal host-microbiome IBD biomarker protein pairs outperforming S100A8/S100A9 (calprotectin). Importantly, a simultaneous fecal nutritional MIM assessment enabled the determination of IBD-related consumption patterns, dietary treatment compliance, and small intestinal digestive aberrations. Collectively, a parallelized dietary-bacterial-host MIM assessment functionally uncovers trans-kingdom interactomes shaping gastrointestinal ecology while offering personalized diagnostic and therapeutic insights into microbiome-associated disease.

KW - biomarker

KW - diet

KW - inflammatory bowel disease

KW - metagenome-informed metaproteomics

KW - microbiome

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DO - 10.1016/j.cell.2024.12.016

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C2 - 39837331

AN - SCOPUS:85217214200

SN - 0092-8674

VL - 188

SP - 1062-1083.e36

JO - Cell

JF - Cell

IS - 4

ER -

Metagenome-informed metaproteomics of the human gut microbiome, host, and dietary exposome uncovers signatures of health and inflammatory bowel disease

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