The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production

Shashank Gupta; Arturo Vera-Ponce de León; Miyako Kodama; Matthias Hoetzinger; Cecilie G. Clausen; Louisa Pless; Ana R. A. Verissimo; Bruno Stengel; Virginia Calabuig; Renate Kvingedal; Stanko Skugor; Bjørge Westereng; Thomas Nelson Harvey; Anna Nordborg; Stefan Bertilsson; Morten T. Limborg; Turid Mørkøre; Simen R. Sandve; Phillip B. Pope; Torgeir R. Hvidsten; Sabina Leanti La Rosa

doi:10.1038/s42003-024-07087-4

The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production

Shashank Gupta, Arturo Vera-Ponce de León, Miyako Kodama, Matthias Hoetzinger, Cecilie G. Clausen, Louisa Pless, Ana R. A. Verissimo, Bruno Stengel, Virginia Calabuig, Renate Kvingedal, Stanko Skugor, Bjørge Westereng, Thomas Nelson Harvey, Anna Nordborg, Stefan Bertilsson, Morten T. Limborg, Turid Mørkøre, Simen R. Sandve, Phillip B. Pope, Torgeir R. Hvidsten^*Sabina Leanti La Rosa^*

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

2 Citationer (Scopus)

12 Downloads (Pure)

Abstract

Microbiome-directed dietary interventions such as microbiota-directed fibers (MDFs) have a proven track record in eliciting responses in beneficial gut microbes and are increasingly being promoted as an effective strategy to improve animal production systems. Here we used initial metataxonomic data on fish gut microbiomes as well as a wealth of a priori mammalian microbiome knowledge on α-mannooligosaccharides (MOS) and β-mannan-derived MDFs to study effects of such feed supplements in Atlantic salmon (Salmo salar) and their impact on its gut microbiome composition and functionalities. Our multi-omic analysis revealed that the investigated MDFs (two α-mannans and an acetylated β-galactoglucomannan), at a dose of 0.2% in the diet, had negligible effects on both host gene expression, and gut microbiome structure and function under the studied conditions. While a subsequent trial using a higher (4%) dietary inclusion of β-mannan significantly shifted the gut microbiome composition, there were still no biologically relevant effects on salmon metabolism and physiology. Only a single Burkholderia-Caballeronia-Paraburkholderia (BCP) population demonstrated consistent and significant abundance shifts across both feeding trials, although with no evidence of β-mannan utilization capabilities or changes in gene transcripts for producing metabolites beneficial to the host. In light of these findings, we revisited our omics data to predict and outline previously unreported and potentially beneficial endogenous lactic acid bacteria that should be targeted with future, conceivably more suitable, MDF strategies for salmon.

Originalsprog	Engelsk
Artikelnummer	1391
Tidsskrift	Communications Biology
Vol/bind	7
Antal sider	10
ISSN	2399-3642
DOI	https://doi.org/10.1038/s42003-024-07087-4
Status	Udgivet - 2024

Bibliografisk note

Funding Information:
This work was supported by the Research Council of Norway (project no. 300846), the Swedish Research Council Formas (grant no. 2019-02336) and the European Union\u2019s Horizon 2020 research and innovation program under the ERA-Net Cofund project BlueBio (grant agreement no. 311913). The Danish National, Research Foundation grant no. DNRF143 to M.T.L. The Orion High Performance Computing Center at the Norwegian University of Life Sciences and Sigma2 - the National Infrastructure for High Performance Computing and Data Storage in Norway are acknowledged for providing computational resources that have contributed to meta-omics analyses described in this study. Jacob A. Rasmussen is thanked for help handling and depositing raw sequence data. The authors thank Elixir-Norway (NFR project no. 322392) for bioinformatics and data management related services.

Publisher Copyright:
© The Author(s) 2024.

Adgang til dokumentet

10.1038/s42003-024-07087-4Licens: CC BY

FulltextForlagets udgivne version, 3,96 MBLicens: CC BY

Citationsformater

Gupta, S., de León, A. V.-P., Kodama, M., Hoetzinger, M., Clausen, C. G., Pless, L., Verissimo, A. R. A., Stengel, B., Calabuig, V., Kvingedal, R., Skugor, S., Westereng, B., Harvey, T. N., Nordborg, A., Bertilsson, S., Limborg, M. T., Mørkøre, T., Sandve, S. R., Pope, P. B., ... La Rosa, S. L. (2024). The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production. Communications Biology , 7, Artikel 1391. https://doi.org/10.1038/s42003-024-07087-4

Gupta, S, de León, AV-P, Kodama, M, Hoetzinger, M, Clausen, CG, Pless, L , Verissimo, ARA, Stengel, B, Calabuig, V, Kvingedal, R, Skugor, S, Westereng, B, Harvey, TN, Nordborg, A, Bertilsson, S, Limborg, MT, Mørkøre, T, Sandve, SR, Pope, PB, Hvidsten, TR & La Rosa, SL 2024, 'The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production', Communications Biology , bind 7, 1391. https://doi.org/10.1038/s42003-024-07087-4

@article{9d0f4270467447bdbb32597ac1df6df1,

title = "The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production",

abstract = "Microbiome-directed dietary interventions such as microbiota-directed fibers (MDFs) have a proven track record in eliciting responses in beneficial gut microbes and are increasingly being promoted as an effective strategy to improve animal production systems. Here we used initial metataxonomic data on fish gut microbiomes as well as a wealth of a priori mammalian microbiome knowledge on α-mannooligosaccharides (MOS) and β-mannan-derived MDFs to study effects of such feed supplements in Atlantic salmon (Salmo salar) and their impact on its gut microbiome composition and functionalities. Our multi-omic analysis revealed that the investigated MDFs (two α-mannans and an acetylated β-galactoglucomannan), at a dose of 0.2% in the diet, had negligible effects on both host gene expression, and gut microbiome structure and function under the studied conditions. While a subsequent trial using a higher (4%) dietary inclusion of β-mannan significantly shifted the gut microbiome composition, there were still no biologically relevant effects on salmon metabolism and physiology. Only a single Burkholderia-Caballeronia-Paraburkholderia (BCP) population demonstrated consistent and significant abundance shifts across both feeding trials, although with no evidence of β-mannan utilization capabilities or changes in gene transcripts for producing metabolites beneficial to the host. In light of these findings, we revisited our omics data to predict and outline previously unreported and potentially beneficial endogenous lactic acid bacteria that should be targeted with future, conceivably more suitable, MDF strategies for salmon.",

author = "Shashank Gupta and {de Le{\'o}n}, {Arturo Vera-Ponce} and Miyako Kodama and Matthias Hoetzinger and Clausen, {Cecilie G.} and Louisa Pless and Verissimo, {Ana R. A.} and Bruno Stengel and Virginia Calabuig and Renate Kvingedal and Stanko Skugor and Bj{\o}rge Westereng and Harvey, {Thomas Nelson} and Anna Nordborg and Stefan Bertilsson and Limborg, {Morten T.} and Turid M{\o}rk{\o}re and Sandve, {Simen R.} and Pope, {Phillip B.} and Hvidsten, {Torgeir R.} and {La Rosa}, {Sabina Leanti}",

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

year = "2024",

doi = "10.1038/s42003-024-07087-4",

language = "English",

volume = "7",

journal = "Communications Biology ",

issn = "2399-3642",

publisher = "nature publishing group",

}

TY - JOUR

T1 - The need for high-resolution gut microbiome characterization to design efficient strategies for sustainable aquaculture production

AU - Gupta, Shashank

AU - de León, Arturo Vera-Ponce

AU - Kodama, Miyako

AU - Hoetzinger, Matthias

AU - Clausen, Cecilie G.

AU - Pless, Louisa

AU - Verissimo, Ana R. A.

AU - Stengel, Bruno

AU - Calabuig, Virginia

AU - Kvingedal, Renate

AU - Skugor, Stanko

AU - Westereng, Bjørge

AU - Harvey, Thomas Nelson

AU - Nordborg, Anna

AU - Bertilsson, Stefan

AU - Limborg, Morten T.

AU - Mørkøre, Turid

AU - Sandve, Simen R.

AU - Pope, Phillip B.

AU - Hvidsten, Torgeir R.

AU - La Rosa, Sabina Leanti

PY - 2024

Y1 - 2024

N2 - Microbiome-directed dietary interventions such as microbiota-directed fibers (MDFs) have a proven track record in eliciting responses in beneficial gut microbes and are increasingly being promoted as an effective strategy to improve animal production systems. Here we used initial metataxonomic data on fish gut microbiomes as well as a wealth of a priori mammalian microbiome knowledge on α-mannooligosaccharides (MOS) and β-mannan-derived MDFs to study effects of such feed supplements in Atlantic salmon (Salmo salar) and their impact on its gut microbiome composition and functionalities. Our multi-omic analysis revealed that the investigated MDFs (two α-mannans and an acetylated β-galactoglucomannan), at a dose of 0.2% in the diet, had negligible effects on both host gene expression, and gut microbiome structure and function under the studied conditions. While a subsequent trial using a higher (4%) dietary inclusion of β-mannan significantly shifted the gut microbiome composition, there were still no biologically relevant effects on salmon metabolism and physiology. Only a single Burkholderia-Caballeronia-Paraburkholderia (BCP) population demonstrated consistent and significant abundance shifts across both feeding trials, although with no evidence of β-mannan utilization capabilities or changes in gene transcripts for producing metabolites beneficial to the host. In light of these findings, we revisited our omics data to predict and outline previously unreported and potentially beneficial endogenous lactic acid bacteria that should be targeted with future, conceivably more suitable, MDF strategies for salmon.

AB - Microbiome-directed dietary interventions such as microbiota-directed fibers (MDFs) have a proven track record in eliciting responses in beneficial gut microbes and are increasingly being promoted as an effective strategy to improve animal production systems. Here we used initial metataxonomic data on fish gut microbiomes as well as a wealth of a priori mammalian microbiome knowledge on α-mannooligosaccharides (MOS) and β-mannan-derived MDFs to study effects of such feed supplements in Atlantic salmon (Salmo salar) and their impact on its gut microbiome composition and functionalities. Our multi-omic analysis revealed that the investigated MDFs (two α-mannans and an acetylated β-galactoglucomannan), at a dose of 0.2% in the diet, had negligible effects on both host gene expression, and gut microbiome structure and function under the studied conditions. While a subsequent trial using a higher (4%) dietary inclusion of β-mannan significantly shifted the gut microbiome composition, there were still no biologically relevant effects on salmon metabolism and physiology. Only a single Burkholderia-Caballeronia-Paraburkholderia (BCP) population demonstrated consistent and significant abundance shifts across both feeding trials, although with no evidence of β-mannan utilization capabilities or changes in gene transcripts for producing metabolites beneficial to the host. In light of these findings, we revisited our omics data to predict and outline previously unreported and potentially beneficial endogenous lactic acid bacteria that should be targeted with future, conceivably more suitable, MDF strategies for salmon.

U2 - 10.1038/s42003-024-07087-4

DO - 10.1038/s42003-024-07087-4

M3 - Journal article

C2 - 39455736

AN - SCOPUS:85207628289

SN - 2399-3642

VL - 7

JO - Communications Biology

JF - Communications Biology

M1 - 1391

ER -