The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma

The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma

The incidence of pediatric asthma has increased substantially in recent decades, reaching a worldwide prevalence of 14%. This rapid increase may be attributed to the loss of “Old Friend” microbes from the human microbiota resulting in a less diverse and “dysbiotic” gut microbiota, which fails to opt...

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Main Authors: Shirin Moossavi, Kozeta Miliku, Shadi Sepehri, Ehsan Khafipour, Meghan B. Azad
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-07-01
Series:Frontiers in Pediatrics
Subjects:
human milk
microbiota
human milk oligosaccharides
immune development
asthma
pediatrics
Online Access:https://www.frontiersin.org/article/10.3389/fped.2018.00197/full
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spelling doaj-3e6bd6f26d7e4d4fae19ad1dfba9aa042020-11-24T23:43:30ZengFrontiers Media S.A.Frontiers in Pediatrics2296-23602018-07-01610.3389/fped.2018.00197392513The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric AsthmaShirin Moossavi0Shirin Moossavi1Shirin Moossavi2Shirin Moossavi3Kozeta Miliku4Kozeta Miliku5Kozeta Miliku6Shadi Sepehri7Ehsan Khafipour8Ehsan Khafipour9Ehsan Khafipour10Meghan B. Azad11Meghan B. Azad12Meghan B. Azad13Department of Medical Microbiology and Infectious Diseases, University of Manitoba, Winnipeg, MB, CanadaChildren's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDevelopmental Origins of Chronic Diseases in Children Network (DEVOTION), Children's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDigestive Oncology Research Center, Digestive Disease Research Institute, Tehran University of Medical Sciences, Tehran, IranChildren's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDevelopmental Origins of Chronic Diseases in Children Network (DEVOTION), Children's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaPediatrics and Child Health, University of Manitoba, Winnipeg, MB, CanadaChildren's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDepartment of Medical Microbiology and Infectious Diseases, University of Manitoba, Winnipeg, MB, CanadaChildren's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDepartment of Animal Science, University of Manitoba, Winnipeg, MB, CanadaChildren's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaDevelopmental Origins of Chronic Diseases in Children Network (DEVOTION), Children's Hospital Research Institute of Manitoba, Winnipeg, MB, CanadaPediatrics and Child Health, University of Manitoba, Winnipeg, MB, CanadaThe incidence of pediatric asthma has increased substantially in recent decades, reaching a worldwide prevalence of 14%. This rapid increase may be attributed to the loss of “Old Friend” microbes from the human microbiota resulting in a less diverse and “dysbiotic” gut microbiota, which fails to optimally stimulate immune development during infancy. This hypothesis is supported by observations that the gut microbiota is different in infants who develop asthma later in life compared to those who remain healthy. Thus, early life exposures that influence gut microbiota play a crucial role in asthma development. Breastfeeding is one such exposure; it is generally considered protective against pediatric asthma, although conflicting results have been reported, potentially due to variations in milk composition between individuals and across populations. Human milk oligosaccharides (HMOs) and milk microbiota are two major milk components that influence the infant gut microbiota and hence, development of the immune system. Among their many immunomodulatory functions, HMOs exert a selective pressure within the infant gut microbial niche, preferentially promoting the proliferation of specific bacteria including Bifidobacteria. Milk is also a source of viable bacteria originating from the maternal gut and infant oral cavity. As such, breastmilk has prebiotic and probiotic properties that can modulate two of the main forces controlling the gut microbial community assembly, i.e., dispersal and selection. Here, we review the latest evidence, mechanisms and hypotheses for the synergistic and/or additive effects of milk microbiota and HMOs in protecting against pediatric asthma.https://www.frontiersin.org/article/10.3389/fped.2018.00197/fullhuman milkmicrobiotahuman milk oligosaccharidesimmune developmentasthmapediatrics
collection DOAJ
language English
format Article
sources DOAJ
author Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Kozeta Miliku
Kozeta Miliku
Kozeta Miliku
Shadi Sepehri
Ehsan Khafipour
Ehsan Khafipour
Ehsan Khafipour
Meghan B. Azad
Meghan B. Azad
Meghan B. Azad
spellingShingle Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Kozeta Miliku
Kozeta Miliku
Kozeta Miliku
Shadi Sepehri
Ehsan Khafipour
Ehsan Khafipour
Ehsan Khafipour
Meghan B. Azad
Meghan B. Azad
Meghan B. Azad
The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
Frontiers in Pediatrics
human milk
microbiota
human milk oligosaccharides
immune development
asthma
pediatrics
author_facet Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Shirin Moossavi
Kozeta Miliku
Kozeta Miliku
Kozeta Miliku
Shadi Sepehri
Ehsan Khafipour
Ehsan Khafipour
Ehsan Khafipour
Meghan B. Azad
Meghan B. Azad
Meghan B. Azad
author_sort Shirin Moossavi
title The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
title_short The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
title_full The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
title_fullStr The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
title_full_unstemmed The Prebiotic and Probiotic Properties of Human Milk: Implications for Infant Immune Development and Pediatric Asthma
title_sort prebiotic and probiotic properties of human milk: implications for infant immune development and pediatric asthma
publisher Frontiers Media S.A.
series Frontiers in Pediatrics
issn 2296-2360
publishDate 2018-07-01
description The incidence of pediatric asthma has increased substantially in recent decades, reaching a worldwide prevalence of 14%. This rapid increase may be attributed to the loss of “Old Friend” microbes from the human microbiota resulting in a less diverse and “dysbiotic” gut microbiota, which fails to optimally stimulate immune development during infancy. This hypothesis is supported by observations that the gut microbiota is different in infants who develop asthma later in life compared to those who remain healthy. Thus, early life exposures that influence gut microbiota play a crucial role in asthma development. Breastfeeding is one such exposure; it is generally considered protective against pediatric asthma, although conflicting results have been reported, potentially due to variations in milk composition between individuals and across populations. Human milk oligosaccharides (HMOs) and milk microbiota are two major milk components that influence the infant gut microbiota and hence, development of the immune system. Among their many immunomodulatory functions, HMOs exert a selective pressure within the infant gut microbial niche, preferentially promoting the proliferation of specific bacteria including Bifidobacteria. Milk is also a source of viable bacteria originating from the maternal gut and infant oral cavity. As such, breastmilk has prebiotic and probiotic properties that can modulate two of the main forces controlling the gut microbial community assembly, i.e., dispersal and selection. Here, we review the latest evidence, mechanisms and hypotheses for the synergistic and/or additive effects of milk microbiota and HMOs in protecting against pediatric asthma.
topic human milk
microbiota
human milk oligosaccharides
immune development
asthma
pediatrics
url https://www.frontiersin.org/article/10.3389/fped.2018.00197/full
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