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Shared and non-shared sIgA-coated and uncoated bacteria in intestine of mother-infant pairs
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Date
2022-04-20
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Citation
Mengfan Ding, Haiqin Chen, Renqiang Yu et al. Shared and non-shared sIgA-coated and uncoated bacteria in intestine of mother-infant pairs, 20 April 2022, PREPRINT (Version 1) available at Research Square [https://doi.org/10.21203/rs.3.rs-1560082/v1]
Abstract
Background
The infant gut microbiota is critical for promoting and maintaining early life health. Bacteria coated by
secretory immunoglobulin A (sIgA) may help commensal bacteria colonize the gastrointestinal tract. The
study aimed to analyze the composition of sIgA-coated and sIgA-uncoated bacterial communities at
genus level, and lactobacilli and bifidobacterial communities at species level in human breast milk
(HBM), infant, and maternal feces.
Results
Eleven pregnant women were recruited successfully. HBM, infant feces during colostrum, transition, and
mature stages, and maternal feces within the mature stage were collected. sIgA-coated and sIgAuncoated
bacteria were separated with magnetic-activated cell sorting. Then 16S rRNA sequencing,
bifidobacterial groEL gene sequencing, and lactobacilli groEL gene sequencing were performed to
analyze the bacterial community. The richness of sIgA-coated bacteria was significantly higher than that
of sIgA-uncoated bacteria in HBM. PCoA revealed that the compositions of sIgA-coated and sIgAuncoated
bacteria were different among HBM, infant and maternal feces. The dominant sIgA-coated
bacteria in those samples were Escherichia/shigella and the dominant sIgA-uncoated bacteria was
Pseudomonas. Higher relative abundance of sIgA-uncoated Bifidobacterium was found in the three
lactation stages in infant feces compared to the corresponding HBM, and a higher relative abundance of
sIgA-uncoated Faecalibacterium was found in maternal feces compared to HBM and infant feces. For the
bifidobacterial community, PCoA analysis revealed a significantly different Bifidobacterium composition
only in the sIgA-uncoated segments of infant feces and maternal feces. sIgA-coated and sIgA-uncoated
B. longum subsp. infantis and B. pseudocatenulatum was dominant in infant feces and maternal feces,
respectively. Additionally, the relative abundance of sIgA-uncoated B. longum subsp. infantis was
significantly higher in infant feces compared to that in maternal feces. For the Lactobacillus community,
the composition was significantly different in infant and maternal feces, while at species level, L.
paragasseri and L. mucosae were dominant in infant and maternal feces, respectively.
Conclusion
HBM, infant, and maternal feces showed distinct diversity and composition of both sIgA-coated and sIgAuncoated
bacteria at genus level. Infant and maternal feces showed similar diversity and similar
composition of Bifidobacterium at species level. The same Bifidobacterium species could be detected
both in sIgA-coated and sIgA-uncoated form
Funder
National Key R&D Program of China
National Natural Science Foundation of China
Collaborative Innovation Center of Food Safety and Quality Control in Jiangsu Province, Postgraduate Research & Practice Innovation Program of Jiangsu Province
Nutrition and Care of Maternal & Child Research Fund Project of Guangzhou Biostime Institute of Nutrition & Care
National Natural Science Foundation of China
Collaborative Innovation Center of Food Safety and Quality Control in Jiangsu Province, Postgraduate Research & Practice Innovation Program of Jiangsu Province
Nutrition and Care of Maternal & Child Research Fund Project of Guangzhou Biostime Institute of Nutrition & Care