TY - JOUR
T1 - Birthmode and environment-dependent microbiota transmission dynamics are complemented by breastfeeding during the first year
AU - Selma-Royo, Marta
AU - Dubois, Léonard
AU - Manara, Serena
AU - Armanini, Federica
AU - Cabrera-Rubio, Raúl
AU - Valles-Colomer, Mireia
AU - González, Sonia
AU - Parra-Llorca, Anna
AU - Escuriet, Ramon
AU - Bode, Lars
AU - Martínez-Costa, Cecilia
AU - Segata, Nicola
AU - Collado, Maria Carmen
N1 - Publisher Copyright:
© 2024 The Author(s)
PY - 2024/6/12
Y1 - 2024/6/12
N2 - The composition and maturation of the early-life microbiota are modulated by a number of perinatal factors, whose interplay in relation to microbial vertical transmission remains inadequately elucidated. Using recent strain-tracking methodologies, we analyzed mother-to-infant microbiota transmission in two different birth environments: hospital-born (vaginal/cesarean) and home-born (vaginal) infants and their mothers. While delivery mode primarily explains initial compositional differences, place of birth impacts transmission timing—being early in homebirths and delayed in cesarean deliveries. Transmission patterns vary greatly across species and birth groups, yet certain species, like Bifidobacterium longum, are consistently vertically transmitted regardless of delivery setting. Strain-level analysis of B. longum highlights relevant and consistent subspecies replacement patterns mainly explained by breastfeeding practices, which drive changes in human milk oligosaccharide (HMO) degrading capabilities. Our findings highlight how delivery setting, breastfeeding duration, and other lifestyle preferences collectively shape vertical transmission, impacting infant gut colonization during early life.
AB - The composition and maturation of the early-life microbiota are modulated by a number of perinatal factors, whose interplay in relation to microbial vertical transmission remains inadequately elucidated. Using recent strain-tracking methodologies, we analyzed mother-to-infant microbiota transmission in two different birth environments: hospital-born (vaginal/cesarean) and home-born (vaginal) infants and their mothers. While delivery mode primarily explains initial compositional differences, place of birth impacts transmission timing—being early in homebirths and delayed in cesarean deliveries. Transmission patterns vary greatly across species and birth groups, yet certain species, like Bifidobacterium longum, are consistently vertically transmitted regardless of delivery setting. Strain-level analysis of B. longum highlights relevant and consistent subspecies replacement patterns mainly explained by breastfeeding practices, which drive changes in human milk oligosaccharide (HMO) degrading capabilities. Our findings highlight how delivery setting, breastfeeding duration, and other lifestyle preferences collectively shape vertical transmission, impacting infant gut colonization during early life.
KW - breast milk
KW - early life
KW - infant
KW - maternal transmission
KW - microbiota
KW - strain sharing
KW - vertical transmission
KW - Gut microbiota
KW - Bacterial transmission
KW - Reveals
KW - Bifidobacterium-longum
KW - Alignment
KW - Mother-to-infant
KW - Strains
KW - Database
KW - Patterns
KW - Home
UR - http://www.scopus.com/inward/record.url?scp=85195315352&partnerID=8YFLogxK
UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001253271500001
U2 - 10.1016/j.chom.2024.05.005
DO - 10.1016/j.chom.2024.05.005
M3 - Article
C2 - 38870906
AN - SCOPUS:85195315352
SN - 1931-3128
VL - 32
SP - 996-1010.e4
JO - Cell Host and Microbe
JF - Cell Host and Microbe
IS - 6
ER -