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. 2020 Aug;38(8):970-979.
doi: 10.1038/s41587-020-0602-4. Epub 2020 Jun 26.

COVID-19 severity correlates with airway epithelium-immune cell interactions identified by single-cell analysis

Robert Lorenz Chua #  1 Soeren Lukassen #  1 Saskia Trump #  2 Bianca P Hennig #  1 Daniel Wendisch #  3 Fabian Pott  4   5 Olivia Debnath  1 Loreen Thürmann  2 Florian Kurth  3   6 Maria Theresa Völker  7 Julia Kazmierski  4   5 Bernd Timmermann  8 Sven Twardziok  1 Stefan Schneider  1 Felix Machleidt  3 Holger Müller-Redetzky  3 Melanie Maier  9 Alexander Krannich  10 Sein Schmidt  10 Felix Balzer  11 Johannes Liebig  1 Jennifer Loske  2 Norbert Suttorp  3   12 Jürgen Eils  1 Naveed Ishaque  1 Uwe Gerd Liebert  9 Christof von Kalle  10 Andreas Hocke  3 Martin Witzenrath  3   12 Christine Goffinet  4   5 Christian Drosten  4 Sven Laudi  13 Irina Lehmann  14   15 Christian Conrad  16 Leif-Erik Sander  17 Roland Eils  18   19   20
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COVID-19 severity correlates with airway epithelium-immune cell interactions identified by single-cell analysis

Robert Lorenz Chua et al. Nat Biotechnol. 2020 Aug.

Abstract

To investigate the immune response and mechanisms associated with severe coronavirus disease 2019 (COVID-19), we performed single-cell RNA sequencing on nasopharyngeal and bronchial samples from 19 clinically well-characterized patients with moderate or critical disease and from five healthy controls. We identified airway epithelial cell types and states vulnerable to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. In patients with COVID-19, epithelial cells showed an average three-fold increase in expression of the SARS-CoV-2 entry receptor ACE2, which correlated with interferon signals by immune cells. Compared to moderate cases, critical cases exhibited stronger interactions between epithelial and immune cells, as indicated by ligand-receptor expression profiles, and activated immune cells, including inflammatory macrophages expressing CCL2, CCL3, CCL20, CXCL1, CXCL3, CXCL10, IL8, IL1B and TNF. The transcriptional differences in critical cases compared to moderate cases likely contribute to clinical observations of heightened inflammatory tissue damage, lung injury and respiratory failure. Our data suggest that pharmacologic inhibition of the CCR1 and/or CCR5 pathways might suppress immune hyperactivation in critical COVID-19.

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References

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