Variability of Vaccine Responsiveness in Young Children.

Abstract

Variability in vaccine responsiveness among young children is poorly understood. Nasopharyngeal secretions were collected in the first weeks of life for measurement of cytokines/chemokines seeking a biomarker, and blood samples collected at age one year to identify vaccine responsiveness status, defined as low vaccine responder (LVR), normal (NVR) and high (HVR), to test for vaccine antigen-induced immune memory, and for antigen presenting cell (APC) function. Significantly lower specific cytokine/chemokine levels as biosignatures, measurable in nasopharyngeal secretions at infant age 1-3 weeks old, predicted LVR status compared to NVR and HVR children. Antibiotic exposures were correlated with increased occurrence of LVR. At age 1 year old, LVRs had fewer CD4+ T-helper-1 and T-helper-2 memory cells responsive to specific vaccine antigens. APC responses observed among LVRs, both at rest and in response to TLR7/8 stimulation by R848 were suboptimal, suggesting that altered innate immunity may contribute to immune deficiency in LVRs. Cytokine biosignatures in the first weeks of life may predict vaccine responsiveness in children during the first year of life. Antibiotic exposure associates with LVR in children. CD4+ T-cell memory induction and APC deficiencies occur in LVR children.