Maternal immune response and placental antibody transfer after COVID-19 vaccination across trimester and platforms.
Caroline G AtyeoLydia L ShookSara M BrigidaRose M De GuzmanStepan DemidkinCordelia MuirBabatunde O AkinwunmiArantxa Medina BaezMaegan L SheehanErin McSweeneyMadeleine D BurnsRuhi NayakMaya K KumarChinmay D PatelAllison FialkowskiDana CvrkIlona Telefus GoldfarbLael M YonkerAlessio FasanoAlejandro B BalazsMichal A ElovitzKathryn J GrayGalit AlterAndrea G EdlowPublished in: Nature communications (2022)
The availability of three COVID-19 vaccines in the United States provides an unprecedented opportunity to examine how vaccine platforms and timing of vaccination in pregnancy impact maternal and neonatal immunity. Here, we characterize the antibody profile after Ad26.COV2.S, mRNA-1273 or BNT162b2 vaccination in 158 pregnant individuals and evaluate transplacental antibody transfer by profiling maternal and umbilical cord blood in 175 maternal-neonatal dyads. These analyses reveal lower vaccine-induced functions and Fc receptor-binding after Ad26.COV2.S compared to mRNA vaccination and subtle advantages in titer and function with mRNA-1273 versus BN162b2. mRNA vaccines have higher titers and functions against SARS-CoV-2 variants of concern. First and third trimester vaccination results in enhanced maternal antibody-dependent NK-cell activation, cellular and neutrophil phagocytosis, and complement deposition relative to second trimester. Higher transplacental transfer ratios following first and second trimester vaccination may reflect placental compensation for waning maternal titers. These results provide novel insight into the impact of platform and trimester of vaccination on maternal humoral immune response and transplacental antibody transfer.
Keyphrases
- pregnancy outcomes
- sars cov
- birth weight
- immune response
- gestational age
- pregnant women
- preterm birth
- respiratory syndrome coronavirus
- coronavirus disease
- mesenchymal stem cells
- umbilical cord
- binding protein
- physical activity
- gene expression
- weight gain
- bone marrow
- transcription factor
- copy number
- endothelial cells
- electron transfer
- high glucose