This could support the hypothesis that similar Compound Library in vivo protection could be obtained from SIgA antibody in breast milk to GBS in a highly breastfed population. However, maternal SIgA does not appear to enter the neonatal circulation, [61] except in preterm infants, where ingestion of milk rich in IgA to respiratory syncytial virus (RSV) resulted in increased serum IgA levels during the perinatal period [62], so its effectiveness is limited to the mucosal surface. SIgA is more resistant to proteolysis than other immunoglobulins and is therefore able to function in the gastrointestinal tract [46]. This could account for the finding that the faeces of breast fed infants contains
IgA by the second day of life, compared to 30% of formula-fed infants, where IgA is only found in faeces by one month of age [63]. Breast milk contains SIgA antibodies against bacterial-adhesion-site-like pili [46] and [64]. SIgA antibody in milk blocks adherence of S. pneumoniae and
Haemophilus influenza to human retropharyngeal cells [64] and casein in vitro [65]. The neutralizing capacity Vismodegib of milk anti-poliovirus antibodies has also been reported [66] and [67]. The effect of third trimester maternal immunization with a single dose of licensed quadrivalent meningococcal vaccine on the potential protection of infants, including by breast milk demonstrated elevated N. meningitidis-specific IgA antibodies in breast milk up to six months post partum in vaccinated infants [68]. Similarly, in mothers
who received pneumococcal polysaccharide vaccine (PSV) during the third trimester, the geometric mean concentration of IgA in breast milk was significantly higher two months postpartum than in women who received conjugate H. influenzae vaccine in the third trimester and remained higher at seven months post partum. [69] As described above, high levels of breast milk SIgA could offer protection to neonates via interference of antibody with the carbohydrate-mediated attachment Rolziracetam of GBS to nasopharyngeal epithelial cells. Through this mechanism, colonizing organism load may be reduced with a consequent reduction in morbidity and mortality caused by GBS in the neonatal period [70]. In transition milk, low or moderate IgA antibodies to CPS type III GBS, were detected in approximately 63% of a cohort of 70 Swedish women [71]. In a study of IgG antibody concentration in transition milk in 46 women from the USA, Weisman and Dobson [70] found concentrations of IgG to types Ia, II or III which were approximately 10% of those in maternal serum. Edwards et al. measured IgG and IgA in breast milk to type III GBS in 18 women with high and low antibody titers and found measurable levels of antibody in both groups up to 2 months post-delivery [72]. Detectable levels of CPS serotype III antibody in breast milk in women correlated with concurrently high levels in their serum.