Protective immune trajectories in early viral containment of non-pneumonic SARS-CoV-2 infection
Authors
- K. Pekayvaz
- A. Leunig
- R. Kaiser
- M. Joppich
- S. Brambs
- A. Janjic
- O. Popp
- D. Nixdorf
- V. Fumagalli
- N. Schmidt
- V. Polewka
- A. Anjum
- V. Knottenberg
- L. Eivers
- L.E. Wange
- C. Gold
- M. Kirchner
- M. Muenchhoff
- J.C. Hellmuth
- C. Scherer
- R. Rubio-Acero
- T. Eser
- F. Deák
- K. Puchinger
- N. Kuhl
- A. Linder
- K. Saar
- L. Tomas
- C. Schulz
- A. Wieser
- W. Enard
- I. Kroidl
- C. Geldmacher
- M. von Bergwelt-Baildon
- O.T. Keppler
- M. Munschauer
- M. Iannacone
- R. Zimmer
- P. Mertins
- N. Hubner
- M. Hoelscher
- S. Massberg
- K. Stark
- L. Nicolai
Journal
- Nature Communications
Citation
- Nat Commun 13 (1): 1018
Abstract
The antiviral immune response to SARS-CoV-2 infection can limit viral spread and prevent development of pneumonic COVID-19. However, the protective immunological response associated with successful viral containment in the upper airways remains unclear. Here, we combine a multi-omics approach with longitudinal sampling to reveal temporally resolved protective immune signatures in non-pneumonic and ambulatory SARS-CoV-2 infected patients and associate specific immune trajectories with upper airway viral containment. We see a distinct systemic rather than local immune state associated with viral containment, characterized by interferon stimulated gene (ISG) upregulation across circulating immune cell subsets in non-pneumonic SARS-CoV2 infection. We report reduced cytotoxic potential of Natural Killer (NK) and T cells, and an immune-modulatory monocyte phenotype associated with protective immunity in COVID-19. Together, we show protective immune trajectories in SARS-CoV2 infection, which have important implications for patient prognosis and the development of immunomodulatory therapies.