Sterile-activated cDC1 cells in neonatal lung induce T cell IL-4 production and lymph node maturation

Abstract

Abstract Neonates are susceptible to respiratory tract infections, possibly due to immature pulmonary dendritic cells (cDCs). Here we assessed the development and function of conventional DCs in the lung and the lung-draining mediastinal lymph node (MedLN). We found that neonatal lungs, from days 3 to 10 of life, contained a higher proportion of CD103+ cDC1 cells than adult lungs and that these cells could be divided into a small population of CD103hi cDC1 and a larger population of CD103int cDC1, which were not found in adult lungs. A similar expansion of cDC1 cells was observed in the MedLN migratory cDCs during the first 2 weeks after birth. Transcriptional and functional assays showed that neonatal CD103int cDC1 cells had an activated phenotype and efficiently migrated to the MedLN, their formation was dependent on the transcription factor Batf3 but CD103int cDC1 cells developed independently of the microbiota or MyD88 signaling. Neonatal cDC1 cells express high levels of OX-40L and produce IL-12p40, but not IL-12p70, and stimulated the differentiation of IL-4-producing OT-II cells. Importantly, the MedLNs of neonatal Batf3−/− had poorly developed HEVs and FRCs, which were restored by transfer of neonatal lung CD103int into Batf3−/− mice. These changes were not observed following transfer of CD103hi or CCR7−/− CD103int DCs. Overall our results indicate that neonatal lung CD103int cDCs are activated as part of a developmental program that promotes MedLN maturation and biases CD4 T cell activation towards IL-4 production.