Specific synbiotics in early life protect against diet-induced obesity in adult mice

Specific synbiotics in early life protect against diet-induced obesity in adult mice

Aims: The metabolic state of human adults is associated with their gut microbiome. The symbiosis between host and microbiome is initiated at birth, and early life microbiome perturbation can disturb health throughout life. Here, we determined how beneficial microbiome interventions in early life affect metabolic health in adulthood. Methods: Postnatal diets were supplemented with either prebiotics (scGOS/lcFOS) or synbiotics (scGOS/lcFOS with Bifidobacterium breve M-16V) until post-natal (PN) day 42 in a well-established rodent model for nutritional programming. Mice were subsequently challenged with a high-fat Western-style diet (WSD) for 8 weeks. Body weight and composition were monitored, as was gut microbiota composition at PN21, 42 and 98. Markers of glucose homeostasis, lipid metabolism and host transcriptomics of 6 target tissues were determined in adulthood (PN98). Results: Early life synbiotics protected mice against WSD-induced excessive fat accumulation throughout life, replicable in 2 independent European animal facilities. Adult insulin sensitivity and dyslipidaemia were improved and most pronounced changes in gene expression were observed in the ileum. We observed subtle changes in faecal microbiota composition, both in early life and in adulthood, including increased abundance of Bifidobacterium. Microbiota transplantation using samples collected from synbiotics-supplemented adolescent mice at PN42 to age-matched germ-free recipients did not transfer the beneficial phenotype, indicating that synbiotics-modified microbiota at PN42 is not sufficient to transfer long-lasting protection of metabolic health status. Conclusion: Together, these findings show the potential and importance of timing of synbiotic interventions in early life during crucial microbiota development as a preventive measure to lower the risk of obesity and improve metabolic health throughout life.

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Main Authors: Mischke, Mona, Arora, Tulika, Tims, Sebastian, Engels, Eefje, Sommer, Nina, van Limpt, Kees, Baars, Annemarie, Oozeer, Raish, Oosting, Annemarie, Bäckhed, Fredrik, Knol, Jan
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Body composition, Dietary intervention, Insulin resistance, Liver, Mouse model, Obesity therapy,
Online Access:https://research.wur.nl/en/publications/specific-synbiotics-in-early-life-protect-against-diet-induced-ob
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spelling dig-wur-nl-wurpubs-5355192024-10-30 Mischke, Mona Arora, Tulika Tims, Sebastian Engels, Eefje Sommer, Nina van Limpt, Kees Baars, Annemarie Oozeer, Raish Oosting, Annemarie Bäckhed, Fredrik Knol, Jan Article/Letter to editor Diabetes, Obesity and Metabolism 20 (2018) 6 ISSN: 1462-8902 Specific synbiotics in early life protect against diet-induced obesity in adult mice 2018 Aims: The metabolic state of human adults is associated with their gut microbiome. The symbiosis between host and microbiome is initiated at birth, and early life microbiome perturbation can disturb health throughout life. Here, we determined how beneficial microbiome interventions in early life affect metabolic health in adulthood. Methods: Postnatal diets were supplemented with either prebiotics (scGOS/lcFOS) or synbiotics (scGOS/lcFOS with Bifidobacterium breve M-16V) until post-natal (PN) day 42 in a well-established rodent model for nutritional programming. Mice were subsequently challenged with a high-fat Western-style diet (WSD) for 8 weeks. Body weight and composition were monitored, as was gut microbiota composition at PN21, 42 and 98. Markers of glucose homeostasis, lipid metabolism and host transcriptomics of 6 target tissues were determined in adulthood (PN98). Results: Early life synbiotics protected mice against WSD-induced excessive fat accumulation throughout life, replicable in 2 independent European animal facilities. Adult insulin sensitivity and dyslipidaemia were improved and most pronounced changes in gene expression were observed in the ileum. We observed subtle changes in faecal microbiota composition, both in early life and in adulthood, including increased abundance of Bifidobacterium. Microbiota transplantation using samples collected from synbiotics-supplemented adolescent mice at PN42 to age-matched germ-free recipients did not transfer the beneficial phenotype, indicating that synbiotics-modified microbiota at PN42 is not sufficient to transfer long-lasting protection of metabolic health status. Conclusion: Together, these findings show the potential and importance of timing of synbiotic interventions in early life during crucial microbiota development as a preventive measure to lower the risk of obesity and improve metabolic health throughout life. en application/pdf https://research.wur.nl/en/publications/specific-synbiotics-in-early-life-protect-against-diet-induced-ob 10.1111/dom.13240 https://edepot.wur.nl/444181 Body composition Dietary intervention Insulin resistance Liver Mouse model Obesity therapy https://creativecommons.org/licenses/by-nc/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Body composition
Dietary intervention
Insulin resistance
Liver
Mouse model
Obesity therapy
Body composition
Dietary intervention
Insulin resistance
Liver
Mouse model
Obesity therapy
spellingShingle Body composition
Dietary intervention
Insulin resistance
Liver
Mouse model
Obesity therapy
Body composition
Dietary intervention
Insulin resistance
Liver
Mouse model
Obesity therapy
Mischke, Mona
Arora, Tulika
Tims, Sebastian
Engels, Eefje
Sommer, Nina
van Limpt, Kees
Baars, Annemarie
Oozeer, Raish
Oosting, Annemarie
Bäckhed, Fredrik
Knol, Jan
Specific synbiotics in early life protect against diet-induced obesity in adult mice
description Aims: The metabolic state of human adults is associated with their gut microbiome. The symbiosis between host and microbiome is initiated at birth, and early life microbiome perturbation can disturb health throughout life. Here, we determined how beneficial microbiome interventions in early life affect metabolic health in adulthood. Methods: Postnatal diets were supplemented with either prebiotics (scGOS/lcFOS) or synbiotics (scGOS/lcFOS with Bifidobacterium breve M-16V) until post-natal (PN) day 42 in a well-established rodent model for nutritional programming. Mice were subsequently challenged with a high-fat Western-style diet (WSD) for 8 weeks. Body weight and composition were monitored, as was gut microbiota composition at PN21, 42 and 98. Markers of glucose homeostasis, lipid metabolism and host transcriptomics of 6 target tissues were determined in adulthood (PN98). Results: Early life synbiotics protected mice against WSD-induced excessive fat accumulation throughout life, replicable in 2 independent European animal facilities. Adult insulin sensitivity and dyslipidaemia were improved and most pronounced changes in gene expression were observed in the ileum. We observed subtle changes in faecal microbiota composition, both in early life and in adulthood, including increased abundance of Bifidobacterium. Microbiota transplantation using samples collected from synbiotics-supplemented adolescent mice at PN42 to age-matched germ-free recipients did not transfer the beneficial phenotype, indicating that synbiotics-modified microbiota at PN42 is not sufficient to transfer long-lasting protection of metabolic health status. Conclusion: Together, these findings show the potential and importance of timing of synbiotic interventions in early life during crucial microbiota development as a preventive measure to lower the risk of obesity and improve metabolic health throughout life.
format Article/Letter to editor
topic_facet Body composition
Dietary intervention
Insulin resistance
Liver
Mouse model
Obesity therapy
author Mischke, Mona
Arora, Tulika
Tims, Sebastian
Engels, Eefje
Sommer, Nina
van Limpt, Kees
Baars, Annemarie
Oozeer, Raish
Oosting, Annemarie
Bäckhed, Fredrik
Knol, Jan
author_facet Mischke, Mona
Arora, Tulika
Tims, Sebastian
Engels, Eefje
Sommer, Nina
van Limpt, Kees
Baars, Annemarie
Oozeer, Raish
Oosting, Annemarie
Bäckhed, Fredrik
Knol, Jan
author_sort Mischke, Mona
title Specific synbiotics in early life protect against diet-induced obesity in adult mice
title_short Specific synbiotics in early life protect against diet-induced obesity in adult mice
title_full Specific synbiotics in early life protect against diet-induced obesity in adult mice
title_fullStr Specific synbiotics in early life protect against diet-induced obesity in adult mice
title_full_unstemmed Specific synbiotics in early life protect against diet-induced obesity in adult mice
title_sort specific synbiotics in early life protect against diet-induced obesity in adult mice
url https://research.wur.nl/en/publications/specific-synbiotics-in-early-life-protect-against-diet-induced-ob
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