Author: Jakwerth, C. A.; Feuerherd, M.; Guerth, F. M.; Oelsner, M.; Schellhammer, L.; Giglberger, J.; Pechtold, L.; Jerin, C.; Kugler, L.; Mogler, C.; Haller, B.; Erb, A.; Wollenberg, B.; Spinner, C. D.; Buch, T.; Protzer, U.; Schmidt-Weber, C. B.; Zissler, U. M.; Chaker, A. M.
Title: Early Reduction of SARS-CoV-2 Replication in Bronchial Epithelium by Kinin B2 Receptor Antagonism Cord-id: c11hjwv9 Document date: 2021_8_18
ID: c11hjwv9
Snippet: Background: SARS-CoV2 has evolved to enter the host via the ACE2 receptor which is part of the Kinin-kallirein pathway. This complex pathway is only poorly understood in context of immune regulation but critical to control infection. This study examines SARS-CoV2 infection and epithelial mechanisms of the kinin-kallikrein system at the kinin B2 receptor level in SARS-CoV-2 infection that is of direct translational relevance. Methods: From acute SARS-CoV-2-positive patients and -negative controls
Document: Background: SARS-CoV2 has evolved to enter the host via the ACE2 receptor which is part of the Kinin-kallirein pathway. This complex pathway is only poorly understood in context of immune regulation but critical to control infection. This study examines SARS-CoV2 infection and epithelial mechanisms of the kinin-kallikrein system at the kinin B2 receptor level in SARS-CoV-2 infection that is of direct translational relevance. Methods: From acute SARS-CoV-2-positive patients and -negative controls, transcriptomes of nasal brushings were analyzed. Primary airway epithelial cells (NHBEs) were infected with SARS-CoV-2 and treated with the approved B2R antagonist icatibant. SARS-CoV-2 RNA RT-qPCR, cytotoxicity assays, plaque assays and transcriptome analyses were performed. The treatment effect was further studied in a murine airway inflammation model in vivo. Results: Here, we report a broad and strong upregulation of kallikreins and the kinin B2 receptor (B2R) in the nasal mucosa of acutely symptomatic SARS-CoV-2-positive patients. A B2R antagonist impeded SARS-CoV-2 replication and spread in NHBEs, as determined in plaque assays on Vero E6 cells. B2R antagonism reduced the expression of SARS-CoV-2 entry receptor ACE2 in vitro and in a murine airway inflammation model in vivo. In addition, it suppressed gene expression broadly, particularly genes involved in G-protein-coupled-receptor signaling and ion transport. Conclusions: In summary, this study provides evidence that treatment with B2R antagonists protects airway epithelial cells from SARS-CoV-2 by inhibiting its replication and spread, through the reduction of ACE2 levels and the interference with several cellular signaling processes. Future clinical studies need to shed light on the airway protection potential of approved B2R antagonists, like icatibant, in the treatment of early-stage COVID-19.
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