Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach

Conor Feehily; Ian J. O’Neill; Calum J. Walsh; Rebecca L. Moore; Sarah Louise Killeen; Aisling A. Geraghty; Elaine M. Lawton; David Byrne; Rocio Sanchez-Gallardo; Sai Ravi Chandra Nori; Ida Busch Nielsen; Esther Wortmann; Elizabeth Matthews; Roisin O’Flaherty; Pauline M. Rudd; David Groeger; Fergus Shanahan; Radka Saldova; Fionnuala M. McAuliffe; Douwe Van Sinderen; Paul D. Cotter

doi:10.1038/s41467-023-38694-0

Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach

Conor Feehily
, Ian J. O’Neill
, Calum J. Walsh
, Rebecca L. Moore
, Sarah Louise Killeen
, Aisling A. Geraghty
, Elaine M. Lawton
, David Byrne
, Rocio Sanchez-Gallardo
, Sai Ravi Chandra Nori
, Ida Busch Nielsen
, Esther Wortmann
, Elizabeth Matthews
, Roisin O’Flaherty
, Pauline M. Rudd
, David Groeger
, Fergus Shanahan
, Radka Saldova
, Fionnuala M. McAuliffe
, Douwe Van Sinderen

Paul D. Cotter

Research output: Contribution to journal › Article › peer-review

Abstract

A significant proportion of the infant gut microbiome is considered to be acquired from the mother during and after birth. Thus begins a lifelong and dynamic relationship with microbes that has an enduring impact on host health. Based on a cohort of 135 mother-infant (F = 72, M = 63) dyads (MicrobeMom: ISRCTN53023014), we investigated the phenomenon of microbial strain transfer, with a particular emphasis on the use of a combined metagenomic-culture-based approach to determine the frequency of strain transfer involving members of the genus Bifidobacterium, including species/strains present at low relative abundance. From the isolation and genome sequencing of over 449 bifidobacterial strains, we validate and augment metagenomics-based evidence to reveal strain transfer in almost 50% of dyads. Factors important in strain transfer include vaginal birth, spontaneous rupture of amniotic membranes, and avoidance of intrapartum antibiotics. Importantly, we reveal that several transfer events are uniquely detected employing either cultivation or metagenomic sequencing, highlighting the requirement for a dual approach to obtain an in-depth insight into this transfer process.

Original language	English
Article number	3015
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-38694-0
Publication status	Published - Dec 2023

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https://hdl.handle.net/10468/15305Licence: CC BY

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Feehily, C., O’Neill, I. J., Walsh, C. J., Moore, R. L., Killeen, S. L., Geraghty, A. A., Lawton, E. M., Byrne, D., Sanchez-Gallardo, R., Nori, S. R. C., Nielsen, I. B., Wortmann, E., Matthews, E., O’Flaherty, R., Rudd, P. M., Groeger, D., Shanahan, F., Saldova, R., McAuliffe, F. M., ... Cotter, P. D. (2023). Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach. Nature Communications, 14(1), Article 3015. https://doi.org/10.1038/s41467-023-38694-0

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title = "Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach",

abstract = "A significant proportion of the infant gut microbiome is considered to be acquired from the mother during and after birth. Thus begins a lifelong and dynamic relationship with microbes that has an enduring impact on host health. Based on a cohort of 135 mother-infant (F = 72, M = 63) dyads (MicrobeMom: ISRCTN53023014), we investigated the phenomenon of microbial strain transfer, with a particular emphasis on the use of a combined metagenomic-culture-based approach to determine the frequency of strain transfer involving members of the genus Bifidobacterium, including species/strains present at low relative abundance. From the isolation and genome sequencing of over 449 bifidobacterial strains, we validate and augment metagenomics-based evidence to reveal strain transfer in almost 50\% of dyads. Factors important in strain transfer include vaginal birth, spontaneous rupture of amniotic membranes, and avoidance of intrapartum antibiotics. Importantly, we reveal that several transfer events are uniquely detected employing either cultivation or metagenomic sequencing, highlighting the requirement for a dual approach to obtain an in-depth insight into this transfer process.",

author = "Conor Feehily and O{\textquoteright}Neill, \{Ian J.\} and Walsh, \{Calum J.\} and Moore, \{Rebecca L.\} and Killeen, \{Sarah Louise\} and Geraghty, \{Aisling A.\} and Lawton, \{Elaine M.\} and David Byrne and Rocio Sanchez-Gallardo and Nori, \{Sai Ravi Chandra\} and Nielsen, \{Ida Busch\} and Esther Wortmann and Elizabeth Matthews and Roisin O{\textquoteright}Flaherty and Rudd, \{Pauline M.\} and David Groeger and Fergus Shanahan and Radka Saldova and McAuliffe, \{Fionnuala M.\} and \{Van Sinderen\}, Douwe and Cotter, \{Paul D.\}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-38694-0",

language = "English",

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Feehily, C, O’Neill, IJ, Walsh, CJ, Moore, RL, Killeen, SL, Geraghty, AA, Lawton, EM, Byrne, D, Sanchez-Gallardo, R, Nori, SRC, Nielsen, IB, Wortmann, E, Matthews, E, O’Flaherty, R, Rudd, PM, Groeger, D, Shanahan, F, Saldova, R, McAuliffe, FM, Van Sinderen, D & Cotter, PD 2023, 'Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach', Nature Communications, vol. 14, no. 1, 3015. https://doi.org/10.1038/s41467-023-38694-0

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T1 - Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach

AU - Feehily, Conor

AU - O’Neill, Ian J.

AU - Walsh, Calum J.

AU - Moore, Rebecca L.

AU - Killeen, Sarah Louise

AU - Geraghty, Aisling A.

AU - Lawton, Elaine M.

AU - Byrne, David

AU - Sanchez-Gallardo, Rocio

AU - Nori, Sai Ravi Chandra

AU - Nielsen, Ida Busch

AU - Wortmann, Esther

AU - Matthews, Elizabeth

AU - O’Flaherty, Roisin

AU - Rudd, Pauline M.

AU - Groeger, David

AU - Shanahan, Fergus

AU - Saldova, Radka

AU - McAuliffe, Fionnuala M.

AU - Van Sinderen, Douwe

AU - Cotter, Paul D.

PY - 2023/12

Y1 - 2023/12

N2 - A significant proportion of the infant gut microbiome is considered to be acquired from the mother during and after birth. Thus begins a lifelong and dynamic relationship with microbes that has an enduring impact on host health. Based on a cohort of 135 mother-infant (F = 72, M = 63) dyads (MicrobeMom: ISRCTN53023014), we investigated the phenomenon of microbial strain transfer, with a particular emphasis on the use of a combined metagenomic-culture-based approach to determine the frequency of strain transfer involving members of the genus Bifidobacterium, including species/strains present at low relative abundance. From the isolation and genome sequencing of over 449 bifidobacterial strains, we validate and augment metagenomics-based evidence to reveal strain transfer in almost 50% of dyads. Factors important in strain transfer include vaginal birth, spontaneous rupture of amniotic membranes, and avoidance of intrapartum antibiotics. Importantly, we reveal that several transfer events are uniquely detected employing either cultivation or metagenomic sequencing, highlighting the requirement for a dual approach to obtain an in-depth insight into this transfer process.

AB - A significant proportion of the infant gut microbiome is considered to be acquired from the mother during and after birth. Thus begins a lifelong and dynamic relationship with microbes that has an enduring impact on host health. Based on a cohort of 135 mother-infant (F = 72, M = 63) dyads (MicrobeMom: ISRCTN53023014), we investigated the phenomenon of microbial strain transfer, with a particular emphasis on the use of a combined metagenomic-culture-based approach to determine the frequency of strain transfer involving members of the genus Bifidobacterium, including species/strains present at low relative abundance. From the isolation and genome sequencing of over 449 bifidobacterial strains, we validate and augment metagenomics-based evidence to reveal strain transfer in almost 50% of dyads. Factors important in strain transfer include vaginal birth, spontaneous rupture of amniotic membranes, and avoidance of intrapartum antibiotics. Importantly, we reveal that several transfer events are uniquely detected employing either cultivation or metagenomic sequencing, highlighting the requirement for a dual approach to obtain an in-depth insight into this transfer process.

UR - https://www.scopus.com/pages/publications/85160243139

U2 - 10.1038/s41467-023-38694-0

DO - 10.1038/s41467-023-38694-0

M3 - Article

C2 - 37230981

AN - SCOPUS:85160243139

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3015

ER -

Detailed mapping of Bifidobacterium strain transmission from mother to infant via a dual culture-based and metagenomic approach

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