4.7 Article

Selective transfer of maternal antibodies in preterm and fullterm children

Journal

SCIENTIFIC REPORTS
Volume 12, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s41598-022-18973-4

Keywords

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Funding

  1. SAMANA Kay MGH Research Scholars award
  2. Ragon Institute of MGH, MIT, and Harvard
  3. Massachusetts Consortium on Pathogen Readiness (MassCPR)
  4. NIH [3R37AI080289-11S1, R01AI146785, U19AI42790-01, U19AI135995-02, 1U01CA260476-01, CIVIC75N93019C00052]
  5. Gates Foundation Global Health Vaccine Accelerator Platform [OPP1146996, INV-001650]
  6. Terry and Susan Ragon

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Preterm newborns are more susceptible to infectious diseases at birth compared to full-term infants. The study found that the functional quality of antibodies in preterm and full-term infants is similar, despite quantitative differences. Placental transfer mechanisms are influenced by gestational age, ensuring that children receive robust humoral immunity even if born preterm.
Preterm newborns are more likely to suffer from infectious diseases at birth compared to children delivered at term. Whether this is due to compromised cellular, humoral, or organ-specific development remains unclear. To begin to define whether maternal-fetal antibody transfer profiles differ across preterm (PT) and fullterm (FT) infants, the overall quantity and functional quality of an array of 24 vaccine-, endemic pathogen-, and common antigen-specific antibodies were assessed across a cohort of 11 PT and 12 term-delivered maternal:infant pairs from birth through week 12. While total IgG levels to influenza, pneumo, measles, rubella, EBV, and RSV were higher in FT newborns, selective Fc-receptor binding antibodies was noted in PT newborns. In fact, near equivalent antibody-effector functions were observed across PT and FT infants, despite significant quantitative differences in transferred antibody levels. Moreover, temporal transfer analysis revealed the selective early transfer of FcRn, Fc gamma R2, and Fc gamma R3 binding antibodies, pointing to differential placental sieving mechanisms across gestation. These data point to selectivity in placental transfer at distinct gestational ages, to ensure that children are endowed with the most robust humoral immunity even if born preterm.

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