Cross-tissue, age-specific flow cytometry reference for immune cells in airway and blood of children.

Background: Respiratory diseases are a common cause of morbidity and hospitalization for children. Despite this, treatment options are limited and are often ineffective. The development of curative or disease-modifying treatments for children relies on a better understanding of underlying immunity in the early airway.
Objective: To establish a flow cytometry dataset for immune cells in the pediatric airway, we analyzed 180 samples from 68 children aged between 1 and 15 years. This included 5 tissues of the upper (nasal brushings, palatine tonsils, adenotonsil) and lower (bronchial brushings, bronchoalveolar lavage) airway, as well as whole blood for paired analysis of local and systemic immune response.
Methods: Nasal, bronchial, and alveolar samples were analyzed using a 17-plex antibody panel that captures cells of immune and epithelial lineage, while tonsil, adenoid, and blood samples were analyzed using a 31-plex antibody panel that extensively phenotypes mononuclear immune cells. All protocols, panels, and data are openly available to facilitate implementation in pediatric clinical laboratories.
Results: We provide age-specific airway cell data for infancy (0-2 years), preschool (3-5 years), childhood (6-10 years) and adolescence (11-15 years) for 37 cell populations. We show tissue-specific maturation of the airway immune system across childhood, further highlighting the importance of developing age-specific references of the pediatric airway. Intraindividual, cross-tissue analysis of paired samples revealed marked correlation in immune cell proportions between paired nasal-bronchial samples, paired tonsil-adenoid samples, and paired adenoid-blood samples, which may have implications for clinical testing.
Conclusion: Our study advances knowledge of airway immunity from infancy through to adolescence and provides an openly available control dataset to aid in interpretation of clinical findings in samples obtained from children with respiratory diseases.
Competing Interests: Disclosure statement Funded by a Chan Zuckerberg Initiative Single-Cell Biology grant (2021-237883). Disclosure of potential conflict of interest: The authors declare that they have no relevant conflicts of interest.
(Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)