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Does the maternal vaginal microbiota play a role in seeding the microbiota of neonatal gut and nose?

Does the maternal vaginal microbiota play a role in seeding the microbiota of neonatal gut and nose?
Does the maternal vaginal microbiota play a role in seeding the microbiota of neonatal gut and nose?
The acquisition and early maturation of infant microbiota is not well understood despite its likely influence on later health. We investigated the contribution of the maternal microbiota to the microbiota of infant gut and nose in the context of mode of delivery and feeding. Using 16S rRNA sequencing and specific qPCR, we profiled microbiota of 42 mother-infant pairs from the GUSTO birth cohort, at body sites including maternal vagina, rectum and skin; and infant stool and nose. In our study, overlap between maternal vaginal microbiota and infant faecal microbiota was minimal, while the similarity between maternal rectal microbiota and infant microbiota was more pronounced. However, an infant’s nasal and gut microbiota were no more similar to that of its own mother, than to that of unrelated mothers. These findings were independent of delivery mode. We conclude that the transfer of maternal vaginal microbes play a minor role in seeding infant stool microbiota. Transfer of maternal rectal microbiota could play a larger role in seeding infant stool microbiota, but approaches other than the generally used analyses of community similarity measures are likely to be needed to quantify bacterial transmission. We confirmed the clear difference between microbiota of infants born by Caesarean section compared to vaginally delivered infants and the impact of feeding mode on infant gut microbiota. Only vaginally delivered, fully breastfed infants had gut microbiota dominated by Bifidobacteria. Our data suggest that reduced transfer of maternal vaginal microbial is not the main mechanism underlying the differential infant microbiota composition associated with Caesarean delivery. The sources of a large proportion of infant microbiota could not be identified in maternal microbiota, and the sources of seeding of infant gut and nasal microbiota remain to be elucidated.
1876-2883
Sakwinska, O.
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Foata, F.
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Berger, B.
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Brussow, H.
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Combremont, S.
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Mercenier, A.
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Dogra, S.
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Soh, S.E.
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Yen, J.C.K.
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Yeo, George Seow Heong
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Lee, Yung Seng
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Yap, Fabian
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Meaney, M.J.
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Chong, Yap-Seng
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Godfrey, Keith
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Holbrook, Joanna D
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Sakwinska, O.
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Foata, F.
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Berger, B.
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Brussow, H.
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Combremont, S.
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Mercenier, A.
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Dogra, S.
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Soh, S.E.
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Yen, J.C.K.
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Yeo, George Seow Heong
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Lee, Yung Seng
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Yap, Fabian
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Meaney, M.J.
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Chong, Yap-Seng
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Godfrey, Keith
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Holbrook, Joanna D
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Sakwinska, O., Foata, F., Berger, B., Brussow, H., Combremont, S., Mercenier, A., Dogra, S., Soh, S.E., Yen, J.C.K., Yeo, George Seow Heong, Lee, Yung Seng, Yap, Fabian, Meaney, M.J., Chong, Yap-Seng, Godfrey, Keith and Holbrook, Joanna D (2017) Does the maternal vaginal microbiota play a role in seeding the microbiota of neonatal gut and nose? Beneficial Microbes, 8 (5). (doi:10.3920/BM2017.0064).

Record type: Article

Abstract

The acquisition and early maturation of infant microbiota is not well understood despite its likely influence on later health. We investigated the contribution of the maternal microbiota to the microbiota of infant gut and nose in the context of mode of delivery and feeding. Using 16S rRNA sequencing and specific qPCR, we profiled microbiota of 42 mother-infant pairs from the GUSTO birth cohort, at body sites including maternal vagina, rectum and skin; and infant stool and nose. In our study, overlap between maternal vaginal microbiota and infant faecal microbiota was minimal, while the similarity between maternal rectal microbiota and infant microbiota was more pronounced. However, an infant’s nasal and gut microbiota were no more similar to that of its own mother, than to that of unrelated mothers. These findings were independent of delivery mode. We conclude that the transfer of maternal vaginal microbes play a minor role in seeding infant stool microbiota. Transfer of maternal rectal microbiota could play a larger role in seeding infant stool microbiota, but approaches other than the generally used analyses of community similarity measures are likely to be needed to quantify bacterial transmission. We confirmed the clear difference between microbiota of infants born by Caesarean section compared to vaginally delivered infants and the impact of feeding mode on infant gut microbiota. Only vaginally delivered, fully breastfed infants had gut microbiota dominated by Bifidobacteria. Our data suggest that reduced transfer of maternal vaginal microbial is not the main mechanism underlying the differential infant microbiota composition associated with Caesarean delivery. The sources of a large proportion of infant microbiota could not be identified in maternal microbiota, and the sources of seeding of infant gut and nasal microbiota remain to be elucidated.

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Accepted/In Press date: 12 September 2017
e-pub ahead of print date: 12 October 2017

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Local EPrints ID: 415698
URI: http://eprints.soton.ac.uk/id/eprint/415698
ISSN: 1876-2883
PURE UUID: f380012d-20ee-44b2-b991-322146ca2d24
ORCID for Keith Godfrey: ORCID iD orcid.org/0000-0002-4643-0618
ORCID for Joanna D Holbrook: ORCID iD orcid.org/0000-0003-1791-6894

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Date deposited: 20 Nov 2017 17:30
Last modified: 16 Mar 2024 02:42

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Contributors

Author: O. Sakwinska
Author: F. Foata
Author: B. Berger
Author: H. Brussow
Author: S. Combremont
Author: A. Mercenier
Author: S. Dogra
Author: S.E. Soh
Author: J.C.K. Yen
Author: George Seow Heong Yeo
Author: Yung Seng Lee
Author: Fabian Yap
Author: M.J. Meaney
Author: Yap-Seng Chong
Author: Keith Godfrey ORCID iD
Author: Joanna D Holbrook ORCID iD

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