Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties

Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties

Commensal gut microbiota and probiotics have numerous effects on the host’s metabolic and protective systems, which occur primarily through the intestinal epithelial cell interface. Prebiotics, like galacto-oligosaccharides (GOS) are widely used to modulate their function and abundance. However, imp...

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Main Authors: Peter I. Duncan, Olli Aitio, Annamari Heiskanen, Ritva Niemelä, Juhani Saarinen, Jari Helin, Nadine Porta, Muriel Fiaux, Denis Moënnoz, Mireille Golliard, Christine Cherbut, Rafael Berrocal, Sean Austin, Norbert Sprenger
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Nutrients
Subjects:
epithelial barrier function
lactobacillus probiotic
host–microbiota interaction
Online Access:https://www.mdpi.com/2072-6643/12/7/2007
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spelling doaj-b18aa25fa2d94e44952808bf925621752020-11-25T03:37:32ZengMDPI AGNutrients2072-66432020-07-01122007200710.3390/nu12072007Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective PropertiesPeter I. Duncan0Olli Aitio1Annamari Heiskanen2Ritva Niemelä3Juhani Saarinen4Jari Helin5Nadine Porta6Muriel Fiaux7Denis Moënnoz8Mireille Golliard9Christine Cherbut10Rafael Berrocal11Sean Austin12Norbert Sprenger13Nestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandGlykos Finland Ltd., 00790 -Helsinki, FinlandGlykos Finland Ltd., 00790 -Helsinki, FinlandGlykos Finland Ltd., 00790 -Helsinki, FinlandGlykos Finland Ltd., 00790 -Helsinki, FinlandGlykos Finland Ltd., 00790 -Helsinki, FinlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Product Technology Center, Société des Produits Nestlé S.A., 3510- Konolfingen, SwitzerlandNestlé Institute of Food Safety and Analytical Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandNestlé Institute of Health Sciences, Société des Produits Nestlé S.A., 1000-Lausanne 26, SwitzerlandCommensal gut microbiota and probiotics have numerous effects on the host’s metabolic and protective systems, which occur primarily through the intestinal epithelial cell interface. Prebiotics, like galacto-oligosaccharides (GOS) are widely used to modulate their function and abundance. However, important structure–function relations may exist, requiring a detailed structural characterization. Here, we detailed the structural characterization of bovine whey derived oligosaccharide preparations enriched with GOS or not, dubbed GOS-enriched milk oligosaccharides (GMOS) or MOS, respectively. We explore GMOS’s and MOS’s potential to improve intestinal epithelial barrier function, assessed in a model based on barrier disruptive effects of the <em>Clostridioides difficile</em> toxin A. GMOS and MOS contain mainly GOS species composed of β1-6- and β1-3-linked galactoses, and 3′- and 6′-sialyllactose. Both GMOS and MOS, combined with lactobacilli, like <em>Lactobacillus rhamnosus</em> (LPR, NCC4007), gave synergistic epithelial barrier protection, while no such effect was observed with <em>Bifidobacterium longum</em> (BL NCC3001), <em>Escherichia coli </em>(Nissle) or fructo-oligosaccharides. Mechanistically, for barrier protection with MOS, (i) viable LPR was required, (ii) acidification of growth medium was not enough, (iii) LPR did not directly neutralize toxin A, and (iv) physical proximity of LPR with the intestinal epithelial cells was necessary. This is the first study, highlighting the importance of structure–function specificity and the necessity of the simultaneous presence of prebiotic, probiotic and host cell interactions required for a biological effect.https://www.mdpi.com/2072-6643/12/7/2007epithelial barrier functionlactobacillus probiotichost–microbiota interaction
collection DOAJ
language English
format Article
sources DOAJ
author Peter I. Duncan
Olli Aitio
Annamari Heiskanen
Ritva Niemelä
Juhani Saarinen
Jari Helin
Nadine Porta
Muriel Fiaux
Denis Moënnoz
Mireille Golliard
Christine Cherbut
Rafael Berrocal
Sean Austin
Norbert Sprenger
spellingShingle Peter I. Duncan
Olli Aitio
Annamari Heiskanen
Ritva Niemelä
Juhani Saarinen
Jari Helin
Nadine Porta
Muriel Fiaux
Denis Moënnoz
Mireille Golliard
Christine Cherbut
Rafael Berrocal
Sean Austin
Norbert Sprenger
Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
Nutrients
epithelial barrier function
lactobacillus probiotic
host–microbiota interaction
author_facet Peter I. Duncan
Olli Aitio
Annamari Heiskanen
Ritva Niemelä
Juhani Saarinen
Jari Helin
Nadine Porta
Muriel Fiaux
Denis Moënnoz
Mireille Golliard
Christine Cherbut
Rafael Berrocal
Sean Austin
Norbert Sprenger
author_sort Peter I. Duncan
title Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
title_short Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
title_full Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
title_fullStr Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
title_full_unstemmed Structure and Function of Bovine Whey Derived Oligosaccharides Showing Synbiotic Epithelial Barrier Protective Properties
title_sort structure and function of bovine whey derived oligosaccharides showing synbiotic epithelial barrier protective properties
publisher MDPI AG
series Nutrients
issn 2072-6643
publishDate 2020-07-01
description Commensal gut microbiota and probiotics have numerous effects on the host’s metabolic and protective systems, which occur primarily through the intestinal epithelial cell interface. Prebiotics, like galacto-oligosaccharides (GOS) are widely used to modulate their function and abundance. However, important structure–function relations may exist, requiring a detailed structural characterization. Here, we detailed the structural characterization of bovine whey derived oligosaccharide preparations enriched with GOS or not, dubbed GOS-enriched milk oligosaccharides (GMOS) or MOS, respectively. We explore GMOS’s and MOS’s potential to improve intestinal epithelial barrier function, assessed in a model based on barrier disruptive effects of the <em>Clostridioides difficile</em> toxin A. GMOS and MOS contain mainly GOS species composed of β1-6- and β1-3-linked galactoses, and 3′- and 6′-sialyllactose. Both GMOS and MOS, combined with lactobacilli, like <em>Lactobacillus rhamnosus</em> (LPR, NCC4007), gave synergistic epithelial barrier protection, while no such effect was observed with <em>Bifidobacterium longum</em> (BL NCC3001), <em>Escherichia coli </em>(Nissle) or fructo-oligosaccharides. Mechanistically, for barrier protection with MOS, (i) viable LPR was required, (ii) acidification of growth medium was not enough, (iii) LPR did not directly neutralize toxin A, and (iv) physical proximity of LPR with the intestinal epithelial cells was necessary. This is the first study, highlighting the importance of structure–function specificity and the necessity of the simultaneous presence of prebiotic, probiotic and host cell interactions required for a biological effect.
topic epithelial barrier function
lactobacillus probiotic
host–microbiota interaction
url https://www.mdpi.com/2072-6643/12/7/2007
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