In vivo manipulation of human gut Bacteroides fitness by abiotic oligosaccharides

Synthetic glycans (SGs) containing glycosidic linkages and structures not identified in nature offer a means for deliberately altering microbial community properties. Here pools of SG oligosaccharides were generated via polymerization of monosaccharides and screened for their ability to increase sac...

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Veröffentlicht in:	Nature chemical biology 2024-10
Hauptverfasser:	Wesener, Darryl A, Beller, Zachary W, Hill, Megan F, Yuan, Han, Belanger, David B, Frankfater, Cheryl, Terrapon, Nicolas, Henrissat, Bernard, Rodionov, Dmitry A, Leyn, Semen A, Osterman, Andrei, van Hylckama Vlieg, Johan E T, Gordon, Jeffrey I
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creator	Wesener, Darryl A Beller, Zachary W Hill, Megan F Yuan, Han Belanger, David B Frankfater, Cheryl Terrapon, Nicolas Henrissat, Bernard Rodionov, Dmitry A Leyn, Semen A Osterman, Andrei van Hylckama Vlieg, Johan E T Gordon, Jeffrey I
description	Synthetic glycans (SGs) containing glycosidic linkages and structures not identified in nature offer a means for deliberately altering microbial community properties. Here pools of SG oligosaccharides were generated via polymerization of monosaccharides and screened for their ability to increase saccharolytic Bacteroides in ex vivo cultures of human fecal samples. A lead SG preparation was orally administered to gnotobiotic mice harboring a consortium of 56 cultured, phylogenetically diverse human gut bacteria and fed a Western diet. The abundances of 3 of 15 Bacteroides strains increased, most prominently B. intestinalis. Underlying mechanisms were characterized by analyzing in vivo expression of the carbohydrate utilization machinery, using retrievable microscopic paramagnetic particles with bound SG oligosaccharides and assaying SG degradation by individual purified B. intestinalis glycoside hydrolases. The results reveal that SGs can selectively co-opt carbohydrate utilization machinery in different human gut Bacteroides and demonstrate a means for identifying artificial carbohydrate structures for targeted bacterial manipulation.
doi_str_mv	10.1038/s41589-024-01763-6
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title	In vivo manipulation of human gut Bacteroides fitness by abiotic oligosaccharides
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