Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes

Ilias Attaye; Pierre Bel Lassen; Solia Adriouch; Emilie Steinbach; Rafael Patiño-Navarrete; Mark Davids; Rohia Alili; Flavien Jacques; Sara Benzeguir; Eugeni Belda; Ina Nemet; James T. Anderson; Laure Alexandre-Heymann; Arno Greyling; Etienne Larger; Stanley L. Hazen; Sophie L. van Oppenraaij; Valentina Tremaroli; Katharina Beck; Per-Olof Bergh; Fredrik Bäckhed; Suzan P. M. ten Brincke; Hilde Herrema; Albert K. Groen; Sara-Joan Pinto-Sietsma; Karine Clément; Max Nieuwdorp

doi:https://doi.org/10.1016/j.isci.2023.107471

Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes

Ilias Attaye, Pierre Bel Lassen, Solia Adriouch, Emilie Steinbach, Rafael Patiño-Navarrete, Mark Davids, Rohia Alili, Flavien Jacques, Sara Benzeguir, Eugeni Belda, Ina Nemet, James T. Anderson, Laure Alexandre-Heymann, Arno Greyling, Etienne Larger, Stanley L. Hazen, Sophie L. van Oppenraaij, Valentina Tremaroli, Katharina Beck, Per-Olof BerghFredrik Bäckhed, Suzan P. M. ten Brincke, Hilde Herrema, Albert K. Groen, Sara-Joan Pinto-Sietsma, Karine Clément, Max Nieuwdorp

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

2 Citations (Scopus)

Abstract

High-protein diets are promoted for individuals with type 2 diabetes (T2D). However, effects of dietary protein interventions on (gut-derived) metabolites in T2D remains understudied. We therefore performed a multi-center, randomized-controlled, isocaloric protein intervention with 151 participants following either 12-week high-protein (HP; 30Energy %, N = 78) vs. low-protein (LP; 10 Energy%, N = 73) diet. Primary objectives were dietary effects on glycemic control which were determined via glycemic excursions, continuous glucose monitors and HbA1c. Secondary objectives were impact of diet on gut microbiota composition and -derived metabolites which were determined by shotgun-metagenomics and mass spectrometry. Analyses were performed using delta changes adjusting for center, baseline, and kidney function when appropriate. This study found that a short-term 12-week isocaloric protein modulation does not affect glycemic parameters or weight in metformin-treated T2D. However, the HP diet slightly worsened kidney function, increased alpha-diversity, and production of potentially harmful microbiota-dependent metabolites, which may affect host metabolism upon prolonged exposure.

Original language	English
Article number	107471
Journal	iScience
Volume	26
Issue number	8
DOIs	https://doi.org/10.1016/j.isci.2023.107471
Publication status	Published - 18 Aug 2023

Keywords

Dietary supplement
Health sciences
Human metabolism
Microbiome

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https://doi.org/10.1016/j.isci.2023.107471

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Attaye, I., Lassen, P. B., Adriouch, S., Steinbach, E., Patiño-Navarrete, R., Davids, M., Alili, R., Jacques, F., Benzeguir, S., Belda, E., Nemet, I., Anderson, J. T., Alexandre-Heymann, L., Greyling, A., Larger, E., Hazen, S. L., van Oppenraaij, S. L., Tremaroli, V., Beck, K., ... Nieuwdorp, M. (2023). Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes. iScience, 26(8), Article 107471. https://doi.org/10.1016/j.isci.2023.107471

@article{bcaca33cace64d638d33b5e8ebda58bd,

title = "Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes",

abstract = "High-protein diets are promoted for individuals with type 2 diabetes (T2D). However, effects of dietary protein interventions on (gut-derived) metabolites in T2D remains understudied. We therefore performed a multi-center, randomized-controlled, isocaloric protein intervention with 151 participants following either 12-week high-protein (HP; 30Energy %, N = 78) vs. low-protein (LP; 10 Energy%, N = 73) diet. Primary objectives were dietary effects on glycemic control which were determined via glycemic excursions, continuous glucose monitors and HbA1c. Secondary objectives were impact of diet on gut microbiota composition and -derived metabolites which were determined by shotgun-metagenomics and mass spectrometry. Analyses were performed using delta changes adjusting for center, baseline, and kidney function when appropriate. This study found that a short-term 12-week isocaloric protein modulation does not affect glycemic parameters or weight in metformin-treated T2D. However, the HP diet slightly worsened kidney function, increased alpha-diversity, and production of potentially harmful microbiota-dependent metabolites, which may affect host metabolism upon prolonged exposure.",

keywords = "Dietary supplement, Health sciences, Human metabolism, Microbiome",

author = "Ilias Attaye and Lassen, {Pierre Bel} and Solia Adriouch and Emilie Steinbach and Rafael Pati{\~n}o-Navarrete and Mark Davids and Rohia Alili and Flavien Jacques and Sara Benzeguir and Eugeni Belda and Ina Nemet and Anderson, {James T.} and Laure Alexandre-Heymann and Arno Greyling and Etienne Larger and Hazen, {Stanley L.} and {van Oppenraaij}, {Sophie L.} and Valentina Tremaroli and Katharina Beck and Per-Olof Bergh and Fredrik B{\"a}ckhed and {ten Brincke}, {Suzan P. M.} and Hilde Herrema and Groen, {Albert K.} and Sara-Joan Pinto-Sietsma and Karine Cl{\'e}ment and Max Nieuwdorp",

note = "Funding Information: I.A. and P.B.L. were supported by a JPI HDHL MICRODIET grant (5290510105). I.A. was also supported by a Fullbright Scholarship (2021). M.N. is supported by a personal ZONMW-VICI grant 2020 [09150182010020]. M.N. K.C. F.B. and S.L.H. are supported by a Leducq consortium grant (fre). K.C. is supported by grants to the French Foundation of Medical research. K.C. and S.A. are also supported by National Agency of Research (ANR, deepIntegromics). E.S. is funded by Ministry of Research (MENRT grant). H.H. is supported by a Senior Fellowship of the Dutch Diabetes Research Foundation (no. 2019.82.004). Supports were also provided by Unilever, the Netherlands, and Nutrisens (Marion Leconte and Cyril Gratadou), France and K sant{\'e} (Mr Vincent Guillet), France which provided food products in a collaborative program with APHP. Trial registration number: NCT03732690 (Paris) and NTR7424 (Amsterdam). I.A. P.B.L. K.C. and M.N. coordinated the clinical trial and drafted the first version of the manuscript. S.A. and S.L.O. coordinated the dietary adherence. R.P.N. V.T. and M.D. performed the metagenamic analysis. I.N. S.L.H. P.O.B. K.B. and F.B. coordinated the metabolomics analyses and integration in the study. I.A. also performed metabolomics analysis with the help of a Fulbright Scholarhip (2021). E.S. R.A. F.V. S.B. E.B. J.T.A. L.A.H. A.G. E.L. S.P.M.B. H.H. A.K.G. and S.J.P.S. helped with drafting the manuscript and provided input in the trial design and analyses. M.N. is in the SAB of Caelus health; however, this is not relevant for the current paper. S.L.H. reports being named as co-inventor on pending and issued patents held by the Cleveland Clinic relating to cardiovascular diagnostics and therapeutics, being a paid consultant formerly for Procter & Gamble in the past, and currently with Zehna Therapeutics, and both receiving research funds from Procter & Gamble, Zehna Therapeutics, and Roche Diagnostics, and being eligible to receive royalty payments for inventions or discoveries related to cardiovascular diagnostics or therapeutics from Procter & Gamble, Zehna Therapeutics, and Cleveland HeartLab, a wholly owned subsidiary of Quest Diagnostics. Funding Information: I.A. and P.B.L. were supported by a JPI HDHL MICRODIET grant ( 5290510105 ). I.A. was also supported by a Fullbright Scholarship (2021). M.N. is supported by a personal ZONMW-VICI grant 2020 [ 09150182010020 ]. M.N., K.C., F.B., and S.L.H. are supported by a Leducq consortium grant (fre). K.C. is supported by grants to the French Foundation of Medical research . K.C. and S.A. are also supported by National Agency of Research (ANR, deepIntegromics). E.S. is funded by Ministry of Research (MENRT grant). H.H. is supported by a Senior Fellowship of the Dutch Diabetes Research Foundation (no. 2019.82.004 ). Supports were also provided by Unilever, the Netherlands , and Nutrisens (Marion Leconte and Cyril Gratadou), France and K sant{\'e} (Mr Vincent Guillet), France which provided food products in a collaborative program with APHP. Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = aug,

day = "18",

doi = "https://doi.org/10.1016/j.isci.2023.107471",

language = "English",

volume = "26",

journal = "iScience",

issn = "2589-0042",

publisher = "Elsevier",

number = "8",

}

Attaye, I, Lassen, PB, Adriouch, S, Steinbach, E, Patiño-Navarrete, R, Davids, M, Alili, R, Jacques, F, Benzeguir, S, Belda, E, Nemet, I, Anderson, JT, Alexandre-Heymann, L, Greyling, A, Larger, E, Hazen, SL, van Oppenraaij, SL, Tremaroli, V, Beck, K, Bergh, P-O, Bäckhed, F, ten Brincke, SPM, Herrema, H , Groen, AK , Pinto-Sietsma, S-J, Clément, K & Nieuwdorp, M 2023, 'Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes', iScience, vol. 26, no. 8, 107471. https://doi.org/10.1016/j.isci.2023.107471

TY - JOUR

T1 - Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes

AU - Attaye, Ilias

AU - Lassen, Pierre Bel

AU - Adriouch, Solia

AU - Steinbach, Emilie

AU - Patiño-Navarrete, Rafael

AU - Davids, Mark

AU - Alili, Rohia

AU - Jacques, Flavien

AU - Benzeguir, Sara

AU - Belda, Eugeni

AU - Nemet, Ina

AU - Anderson, James T.

AU - Alexandre-Heymann, Laure

AU - Greyling, Arno

AU - Larger, Etienne

AU - Hazen, Stanley L.

AU - van Oppenraaij, Sophie L.

AU - Tremaroli, Valentina

AU - Beck, Katharina

AU - Bergh, Per-Olof

AU - Bäckhed, Fredrik

AU - ten Brincke, Suzan P. M.

AU - Herrema, Hilde

AU - Groen, Albert K.

AU - Pinto-Sietsma, Sara-Joan

AU - Clément, Karine

AU - Nieuwdorp, Max

N1 - Funding Information: I.A. and P.B.L. were supported by a JPI HDHL MICRODIET grant (5290510105). I.A. was also supported by a Fullbright Scholarship (2021). M.N. is supported by a personal ZONMW-VICI grant 2020 [09150182010020]. M.N. K.C. F.B. and S.L.H. are supported by a Leducq consortium grant (fre). K.C. is supported by grants to the French Foundation of Medical research. K.C. and S.A. are also supported by National Agency of Research (ANR, deepIntegromics). E.S. is funded by Ministry of Research (MENRT grant). H.H. is supported by a Senior Fellowship of the Dutch Diabetes Research Foundation (no. 2019.82.004). Supports were also provided by Unilever, the Netherlands, and Nutrisens (Marion Leconte and Cyril Gratadou), France and K santé (Mr Vincent Guillet), France which provided food products in a collaborative program with APHP. Trial registration number: NCT03732690 (Paris) and NTR7424 (Amsterdam). I.A. P.B.L. K.C. and M.N. coordinated the clinical trial and drafted the first version of the manuscript. S.A. and S.L.O. coordinated the dietary adherence. R.P.N. V.T. and M.D. performed the metagenamic analysis. I.N. S.L.H. P.O.B. K.B. and F.B. coordinated the metabolomics analyses and integration in the study. I.A. also performed metabolomics analysis with the help of a Fulbright Scholarhip (2021). E.S. R.A. F.V. S.B. E.B. J.T.A. L.A.H. A.G. E.L. S.P.M.B. H.H. A.K.G. and S.J.P.S. helped with drafting the manuscript and provided input in the trial design and analyses. M.N. is in the SAB of Caelus health; however, this is not relevant for the current paper. S.L.H. reports being named as co-inventor on pending and issued patents held by the Cleveland Clinic relating to cardiovascular diagnostics and therapeutics, being a paid consultant formerly for Procter & Gamble in the past, and currently with Zehna Therapeutics, and both receiving research funds from Procter & Gamble, Zehna Therapeutics, and Roche Diagnostics, and being eligible to receive royalty payments for inventions or discoveries related to cardiovascular diagnostics or therapeutics from Procter & Gamble, Zehna Therapeutics, and Cleveland HeartLab, a wholly owned subsidiary of Quest Diagnostics. Funding Information: I.A. and P.B.L. were supported by a JPI HDHL MICRODIET grant ( 5290510105 ). I.A. was also supported by a Fullbright Scholarship (2021). M.N. is supported by a personal ZONMW-VICI grant 2020 [ 09150182010020 ]. M.N., K.C., F.B., and S.L.H. are supported by a Leducq consortium grant (fre). K.C. is supported by grants to the French Foundation of Medical research . K.C. and S.A. are also supported by National Agency of Research (ANR, deepIntegromics). E.S. is funded by Ministry of Research (MENRT grant). H.H. is supported by a Senior Fellowship of the Dutch Diabetes Research Foundation (no. 2019.82.004 ). Supports were also provided by Unilever, the Netherlands , and Nutrisens (Marion Leconte and Cyril Gratadou), France and K santé (Mr Vincent Guillet), France which provided food products in a collaborative program with APHP. Publisher Copyright: © 2023 The Author(s)

PY - 2023/8/18

Y1 - 2023/8/18

N2 - High-protein diets are promoted for individuals with type 2 diabetes (T2D). However, effects of dietary protein interventions on (gut-derived) metabolites in T2D remains understudied. We therefore performed a multi-center, randomized-controlled, isocaloric protein intervention with 151 participants following either 12-week high-protein (HP; 30Energy %, N = 78) vs. low-protein (LP; 10 Energy%, N = 73) diet. Primary objectives were dietary effects on glycemic control which were determined via glycemic excursions, continuous glucose monitors and HbA1c. Secondary objectives were impact of diet on gut microbiota composition and -derived metabolites which were determined by shotgun-metagenomics and mass spectrometry. Analyses were performed using delta changes adjusting for center, baseline, and kidney function when appropriate. This study found that a short-term 12-week isocaloric protein modulation does not affect glycemic parameters or weight in metformin-treated T2D. However, the HP diet slightly worsened kidney function, increased alpha-diversity, and production of potentially harmful microbiota-dependent metabolites, which may affect host metabolism upon prolonged exposure.

AB - High-protein diets are promoted for individuals with type 2 diabetes (T2D). However, effects of dietary protein interventions on (gut-derived) metabolites in T2D remains understudied. We therefore performed a multi-center, randomized-controlled, isocaloric protein intervention with 151 participants following either 12-week high-protein (HP; 30Energy %, N = 78) vs. low-protein (LP; 10 Energy%, N = 73) diet. Primary objectives were dietary effects on glycemic control which were determined via glycemic excursions, continuous glucose monitors and HbA1c. Secondary objectives were impact of diet on gut microbiota composition and -derived metabolites which were determined by shotgun-metagenomics and mass spectrometry. Analyses were performed using delta changes adjusting for center, baseline, and kidney function when appropriate. This study found that a short-term 12-week isocaloric protein modulation does not affect glycemic parameters or weight in metformin-treated T2D. However, the HP diet slightly worsened kidney function, increased alpha-diversity, and production of potentially harmful microbiota-dependent metabolites, which may affect host metabolism upon prolonged exposure.

KW - Dietary supplement

KW - Health sciences

KW - Human metabolism

KW - Microbiome

UR - http://www.scopus.com/inward/record.url?scp=85166940536&partnerID=8YFLogxK

U2 - https://doi.org/10.1016/j.isci.2023.107471

DO - https://doi.org/10.1016/j.isci.2023.107471

M3 - Article

C2 - 37599833

SN - 2589-0042

VL - 26

JO - iScience

JF - iScience

IS - 8

M1 - 107471

ER -

Protein supplementation changes gut microbial diversity and derived metabolites in subjects with type 2 diabetes

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Keywords

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