Login / Signup

High burden of viruses and bacterial pathobionts drives heightened nasal innate immunity in children.

Timothy A WatkinsAlex B GreenJulien A R AmatNagarjuna R CheemarlaKatrin HänselRichard LozanoSarah N DudgeonGregory GermainMarie L LandryWade L SchulzEllen F Foxman
Published in: The Journal of experimental medicine (2024)
Studies during the COVID-19 pandemic showed that children had heightened nasal innate immune responses compared with adults. To evaluate the role of nasal viruses and bacteria in driving these responses, we performed cytokine profiling and comprehensive, symptom-agnostic testing for respiratory viruses and bacterial pathobionts in nasopharyngeal samples from children tested for SARS-CoV-2 in 2021-22 (n = 467). Respiratory viruses and/or pathobionts were highly prevalent (82% of symptomatic and 30% asymptomatic children; 90 and 49% for children <5 years). Virus detection and load correlated with the nasal interferon response biomarker CXCL10, and the previously reported discrepancy between SARS-CoV-2 viral load and nasal interferon response was explained by viral coinfections. Bacterial pathobionts correlated with a distinct proinflammatory response with elevated IL-1β and TNF but not CXCL10. Furthermore, paired samples from healthy 1-year-olds collected 1-2 wk apart revealed frequent respiratory virus acquisition or clearance, with mucosal immunophenotype changing in parallel. These findings reveal that frequent, dynamic host-pathogen interactions drive nasal innate immune activation in children.
Keyphrases
  • sars cov
  • young adults
  • immune response
  • chronic rhinosinusitis
  • gene expression
  • rheumatoid arthritis
  • single cell
  • coronavirus disease
  • quantum dots
  • case control