Neonatal intestinal colonization of Streptococcus agalactiae and the multiple modes of protection limiting translocation.
Kara G GreenfieldOlivia S HarlowLila T WittEvelyn M DziekanChristian R TamarJosephine MeierJane E BrumbaughEmily R LevyKathryn A KnoopPublished in: Gut microbes (2024)
Streptococcus agalactiae , also known as Group B Streptococcus (GBS), is a predominant pathogen of neonatal sepsis, commonly associated with early-onset neonatal sepsis. GBS has also been associated with cases of late-onset sepsis potentially originating from the intestine. Previous findings have shown GBS can colonize the infant intestinal tract as part of the neonatal microbiota. To better understand GBS colonization dynamics in the neonatal intestine, we collected stool and milk samples from prematurely born neonates for identification of potential pathogens in the neonatal intestinal microbiota. GBS was present in approximately 10% of the cohort, and this colonization was not associated with maternal GBS status, delivery route, or gestational weight. Interestingly, we observed the relative abundance of GBS in the infant stool negatively correlated with maternal IgA concentration in matched maternal milk samples. Using a preclinical murine model of GBS infection, we report that both vertical transmission and direct oral introduction resulted in intestinal colonization of GBS; however, translocation beyond the intestine was limited. Finally, vaccination of dams prior to breeding induced strong immunoglobulin responses, including IgA responses, which were associated with reduced mortality and GBS intestinal colonization. Taken together, we show that maternal IgA may contribute to infant immunity by limiting the colonization of GBS in the intestine.
Keyphrases
- early onset
- late onset
- birth weight
- intensive care unit
- acute kidney injury
- pregnancy outcomes
- candida albicans
- weight gain
- stem cells
- biofilm formation
- type diabetes
- pregnant women
- weight loss
- staphylococcus aureus
- risk assessment
- oxidative stress
- multidrug resistant
- wastewater treatment
- low birth weight
- preterm infants
- pseudomonas aeruginosa
- coronary artery disease
- endothelial cells
- high glucose
- diabetic rats