Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism

Amira Metwaly; Andreas Dunkel; Nadine Waldschmitt; Abilash Chakravarthy Durai Raj; Ilias Lagkouvardos; Ana Maria Corraliza; Aida Mayorgas; Margarita Martinez-Medina; Sinah Reiter; Michael Schloter; Thomas Hofmann; Matthieu Allez; Julian Panes; Azucena Salas; Dirk Haller

doi:10.1038/s41467-020-17956-1

Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism

Amira Metwaly, Andreas Dunkel, Nadine Waldschmitt, Abilash Chakravarthy Durai Raj, Ilias Lagkouvardos, Ana Maria Corraliza, Aida Mayorgas, Margarita Martinez-Medina, Sinah Reiter, Michael Schloter, Thomas Hofmann, Matthieu Allez, Julian Panes, Azucena Salas, Dirk Haller

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Abstract

Gut microbial and metabolite alterations have been linked to the pathogenesis of inflammatory bowel diseases. Here we perform a multi-omics microbiome and metabolite analysis of a longitudinal cohort of Crohn’s disease patients undergoing autologous hematopoietic stem cell transplantation, and investigational therapy that induces drug free remission in a subset of patients. Via comparison of patients who responded and maintained remission, responded but experienced disease relapse and patients who did not respond to therapy, we identify shared functional signatures that correlate with disease activity despite the variability of gut microbiota profiles at taxonomic level. These signatures reflect the disease state when transferred to gnotobiotic mice. Taken together, the integration of microbiome and metabolite profiles from human cohort and mice improves the predictive modelling of disease outcome, and allows the identification of a network of bacteria-metabolite interactions involving sulfur metabolism as a key mechanism linked to disease activity in Crohn’s disease.

Original language	English
Article number	4322
Journal	Nature Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-17956-1
State	Published - 1 Dec 2020

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Metwaly, A., Dunkel, A., Waldschmitt, N., Raj, A. C. D., Lagkouvardos, I., Corraliza, A. M., Mayorgas, A., Martinez-Medina, M., Reiter, S., Schloter, M., Hofmann, T., Allez, M., Panes, J., Salas, A., & Haller, D. (2020). Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism. Nature Communications, 11(1), Article 4322. https://doi.org/10.1038/s41467-020-17956-1

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title = "Integrated microbiota and metabolite profiles link Crohn{\textquoteright}s disease to sulfur metabolism",

abstract = "Gut microbial and metabolite alterations have been linked to the pathogenesis of inflammatory bowel diseases. Here we perform a multi-omics microbiome and metabolite analysis of a longitudinal cohort of Crohn{\textquoteright}s disease patients undergoing autologous hematopoietic stem cell transplantation, and investigational therapy that induces drug free remission in a subset of patients. Via comparison of patients who responded and maintained remission, responded but experienced disease relapse and patients who did not respond to therapy, we identify shared functional signatures that correlate with disease activity despite the variability of gut microbiota profiles at taxonomic level. These signatures reflect the disease state when transferred to gnotobiotic mice. Taken together, the integration of microbiome and metabolite profiles from human cohort and mice improves the predictive modelling of disease outcome, and allows the identification of a network of bacteria-metabolite interactions involving sulfur metabolism as a key mechanism linked to disease activity in Crohn{\textquoteright}s disease.",

author = "Amira Metwaly and Andreas Dunkel and Nadine Waldschmitt and Raj, {Abilash Chakravarthy Durai} and Ilias Lagkouvardos and Corraliza, {Ana Maria} and Aida Mayorgas and Margarita Martinez-Medina and Sinah Reiter and Michael Schloter and Thomas Hofmann and Matthieu Allez and Julian Panes and Azucena Salas and Dirk Haller",

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doi = "10.1038/s41467-020-17956-1",

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Metwaly, A, Dunkel, A, Waldschmitt, N, Raj, ACD, Lagkouvardos, I, Corraliza, AM, Mayorgas, A, Martinez-Medina, M, Reiter, S, Schloter, M , Hofmann, T, Allez, M, Panes, J, Salas, A & Haller, D 2020, 'Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism', Nature Communications, vol. 11, no. 1, 4322. https://doi.org/10.1038/s41467-020-17956-1

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T1 - Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism

AU - Metwaly, Amira

AU - Dunkel, Andreas

AU - Waldschmitt, Nadine

AU - Raj, Abilash Chakravarthy Durai

AU - Lagkouvardos, Ilias

AU - Corraliza, Ana Maria

AU - Mayorgas, Aida

AU - Martinez-Medina, Margarita

AU - Reiter, Sinah

AU - Schloter, Michael

AU - Hofmann, Thomas

AU - Allez, Matthieu

AU - Panes, Julian

AU - Salas, Azucena

AU - Haller, Dirk

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Gut microbial and metabolite alterations have been linked to the pathogenesis of inflammatory bowel diseases. Here we perform a multi-omics microbiome and metabolite analysis of a longitudinal cohort of Crohn’s disease patients undergoing autologous hematopoietic stem cell transplantation, and investigational therapy that induces drug free remission in a subset of patients. Via comparison of patients who responded and maintained remission, responded but experienced disease relapse and patients who did not respond to therapy, we identify shared functional signatures that correlate with disease activity despite the variability of gut microbiota profiles at taxonomic level. These signatures reflect the disease state when transferred to gnotobiotic mice. Taken together, the integration of microbiome and metabolite profiles from human cohort and mice improves the predictive modelling of disease outcome, and allows the identification of a network of bacteria-metabolite interactions involving sulfur metabolism as a key mechanism linked to disease activity in Crohn’s disease.

AB - Gut microbial and metabolite alterations have been linked to the pathogenesis of inflammatory bowel diseases. Here we perform a multi-omics microbiome and metabolite analysis of a longitudinal cohort of Crohn’s disease patients undergoing autologous hematopoietic stem cell transplantation, and investigational therapy that induces drug free remission in a subset of patients. Via comparison of patients who responded and maintained remission, responded but experienced disease relapse and patients who did not respond to therapy, we identify shared functional signatures that correlate with disease activity despite the variability of gut microbiota profiles at taxonomic level. These signatures reflect the disease state when transferred to gnotobiotic mice. Taken together, the integration of microbiome and metabolite profiles from human cohort and mice improves the predictive modelling of disease outcome, and allows the identification of a network of bacteria-metabolite interactions involving sulfur metabolism as a key mechanism linked to disease activity in Crohn’s disease.

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VL - 11

JO - Nature Communications

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Integrated microbiota and metabolite profiles link Crohn’s disease to sulfur metabolism

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