TY - JOUR
T1 - Maternal inheritance of bifidobacterial communities and bifidophages in infants through vertical transmission
AU - Duranti, Sabrina
AU - Lugli, Gabriele Andrea
AU - Mancabelli, Leonardo
AU - Armanini, Federica
AU - Turroni, Francesca
AU - James, Kieran
AU - Ferretti, Pamela
AU - Gorfer, Valentina
AU - Ferrario, Chiara
AU - Milani, Christian
AU - Mangifesta, Marta
AU - Anzalone, Rosaria
AU - Zolfo, Moreno
AU - Viappiani, Alice
AU - Pasolli, Edoardo
AU - Bariletti, Ilaria
AU - Canto, Rosarita
AU - Clementi, Rosanna
AU - Cologna, Marina
AU - Crifò, Tiziana
AU - Cusumano, Giuseppina
AU - Fedi, Sabina
AU - Gottardi, Stefania
AU - Innamorati, Claudia
AU - Masè, Caterina
AU - Postai, Daniela
AU - Savoi, Daniela
AU - Soffiati, Massimo
AU - Tateo, Saverio
AU - Pedrotti, Anna
AU - Segata, Nicola
AU - Van Sinderen, Douwe
AU - Ventura, Marco
N1 - Publisher Copyright:
© 2017 The Author(s).
PY - 2017/6/26
Y1 - 2017/6/26
N2 - Background: The correct establishment of the human gut microbiota represents a crucial development that commences at birth. Different hypotheses propose that the infant gut microbiota is derived from, among other sources, the mother's fecal/vaginal microbiota and human milk. Results: The composition of bifidobacterial communities of 25 mother-infant pairs was investigated based on an internal transcribed spacer (ITS) approach, combined with cultivation-mediated and genomic analyses. We identified bifidobacterial strains/communities that are shared between mothers and their corresponding newborns. Notably, genomic analyses together with growth profiling assays revealed that bifidobacterial strains that had been isolated from human milk are genetically adapted to utilize human milk glycans. In addition, we identified particular bacteriophages specific of bifidobacterial species that are common in the viromes of mother and corresponding child. Conclusions: This study highlights the transmission of bifidobacterial communities from the mother to her child and implies human milk as a potential vehicle to facilitate this acquisition. Furthermore, these data represent the first example of maternal inheritance of bifidobacterial phages, also known as bifidophages in infants following a vertical transmission route.
AB - Background: The correct establishment of the human gut microbiota represents a crucial development that commences at birth. Different hypotheses propose that the infant gut microbiota is derived from, among other sources, the mother's fecal/vaginal microbiota and human milk. Results: The composition of bifidobacterial communities of 25 mother-infant pairs was investigated based on an internal transcribed spacer (ITS) approach, combined with cultivation-mediated and genomic analyses. We identified bifidobacterial strains/communities that are shared between mothers and their corresponding newborns. Notably, genomic analyses together with growth profiling assays revealed that bifidobacterial strains that had been isolated from human milk are genetically adapted to utilize human milk glycans. In addition, we identified particular bacteriophages specific of bifidobacterial species that are common in the viromes of mother and corresponding child. Conclusions: This study highlights the transmission of bifidobacterial communities from the mother to her child and implies human milk as a potential vehicle to facilitate this acquisition. Furthermore, these data represent the first example of maternal inheritance of bifidobacterial phages, also known as bifidophages in infants following a vertical transmission route.
KW - Bifidobacteria
KW - Microbiome
KW - Microbiota
KW - Vertical transmission
KW - Virome
UR - https://www.scopus.com/pages/publications/85030184237
U2 - 10.1186/s40168-017-0282-6
DO - 10.1186/s40168-017-0282-6
M3 - Article
C2 - 28651630
AN - SCOPUS:85030184237
SN - 2049-2618
VL - 5
JO - Microbiome
JF - Microbiome
IS - 1
M1 - 66
ER -