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Bifidobacterium species associated with breastfeeding produce aromatic lactic acids in the infant gut

Authors :
Laursen, Martin Frederik
Sakanaka, Mikiyasu
von Burg, Nicole
Mörbe, Urs
Andersen, Daniel
Moll, Janne Marie
Pekmez, Ceyda Tugba
Rivollier, Aymeric
Michaelsen, Kim F.
Mølgaard, Christian
Lind, Mads Vendelbo
Dragsted, Lars Ove
Katayama, Takane
Frandsen, Henrik Lauritz
Vinggaard, Anne Marie
Bahl, Martin Iain
Brix, Susanne
Agace, William
Licht, Tine R
Roager, Henrik Munch
Laursen, Martin Frederik
Sakanaka, Mikiyasu
von Burg, Nicole
Mörbe, Urs
Andersen, Daniel
Moll, Janne Marie
Pekmez, Ceyda Tugba
Rivollier, Aymeric
Michaelsen, Kim F.
Mølgaard, Christian
Lind, Mads Vendelbo
Dragsted, Lars Ove
Katayama, Takane
Frandsen, Henrik Lauritz
Vinggaard, Anne Marie
Bahl, Martin Iain
Brix, Susanne
Agace, William
Licht, Tine R
Roager, Henrik Munch
Source :
Laursen , M F , Sakanaka , M , von Burg , N , Mörbe , U , Andersen , D , Moll , J M , Pekmez , C T , Rivollier , A , Michaelsen , K F , Mølgaard , C , Lind , M V , Dragsted , L O , Katayama , T , Frandsen , H L , Vinggaard , A M , Bahl , M I , Brix , S , Agace , W , Licht , T R & Roager , H M 2021 , ' Bifidobacterium species associated with breastfeeding produce aromatic lactic acids in the infant gut ' , Nature Microbiology , vol. 6 , no. 11 , pp. 1367-1382 .
Publication Year :
2021

Abstract

Breastfeeding profoundly shapes the infant gut microbiota, which is critical for early life immune development, and the gut microbiota can impact host physiology in various ways, such as through the production of metabolites. However, few breastmilk-dependent microbial metabolites mediating host-microbiota interactions are currently known. Here, we demonstrate that breastmilk-promoted Bifidobacterium species convert aromatic amino acids (tryptophan, phenylalanine and tyrosine) into their respective aromatic lactic acids (indolelactic acid, phenyllactic acid and 4-hydroxyphenyllactic acid) via a previously unrecognized aromatic lactate dehydrogenase (ALDH). The ability of Bifidobacterium species to convert aromatic amino acids to their lactic acid derivatives was confirmed using monocolonized mice. Longitudinal profiling of the faecal microbiota composition and metabolome of Danish infants (n = 25), from birth until 6 months of age, showed that faecal concentrations of aromatic lactic acids are correlated positively with the abundance of human milk oligosaccharide-degrading Bifidobacterium species containing the ALDH, including Bifidobacterium longum, B. breve and B. bifidum. We further demonstrate that faecal concentrations of Bifidobacterium-derived indolelactic acid are associated with the capacity of these samples to activate in vitro the aryl hydrocarbon receptor (AhR), a receptor important for controlling intestinal homoeostasis and immune responses. Finally, we show that indolelactic acid modulates ex vivo immune responses of human CD4+ T cells and monocytes in a dose-dependent manner by acting as an agonist of both the AhR and hydroxycarboxylic acid receptor 3 (HCA3). Our findings reveal that breastmilk-promoted Bifidobacterium species produce aromatic lactic acids in the gut of infants and suggest that these microbial metabolites may impact immune function in early life.

Details

Database :
OAIster
Journal :
Laursen , M F , Sakanaka , M , von Burg , N , Mörbe , U , Andersen , D , Moll , J M , Pekmez , C T , Rivollier , A , Michaelsen , K F , Mølgaard , C , Lind , M V , Dragsted , L O , Katayama , T , Frandsen , H L , Vinggaard , A M , Bahl , M I , Brix , S , Agace , W , Licht , T R & Roager , H M 2021 , ' Bifidobacterium species associated with breastfeeding produce aromatic lactic acids in the infant gut ' , Nature Microbiology , vol. 6 , no. 11 , pp. 1367-1382 .
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1322768026
Document Type :
Electronic Resource