Author: Bräuninger, Hanna; Stoffers, Bastian; Fitzek, Antonia D E; Meißner, Kira; Aleshcheva, Ganna; Schweizer, Michaela; Weimann, Jessica; Rotter, Björn; Warnke, Svenja; Edler, Carolin; Braun, Fabian; Roedl, Kevin; Scherschel, Katharina; Escher, Felicitas; Kluge, Stefan; Huber, Tobias B; Ondruschka, Benjamin; Schultheiss, Heinz-Peter; Kirchhof, Paulus; Blankenberg, Stefan; Püschel, Klaus; Westermann, Dirk; Lindner, Diana
Title: Cardiac SARS-CoV-2 infection is associated with pro-inflammatory transcriptomic alterations within the heart. Cord-id: uh2l028n Document date: 2021_10_14
ID: uh2l028n
Snippet: AIMS Cardiac involvement in COVID-19 is associated with adverse outcome. However, it is unclear whether cell specific consequences are associated with cardiac SARS-CoV-2 infection. Therefore, we investigated heart tissue utilizing in situ hybridization, immunohistochemistry and RNA-sequencing in consecutive autopsy cases to quantify virus load and characterize cardiac involvement in COVID-19. METHODS AND RESULTS In this study, 95 SARS-CoV-2-positive autopsy cases were included. A relevant SARS-C
Document: AIMS Cardiac involvement in COVID-19 is associated with adverse outcome. However, it is unclear whether cell specific consequences are associated with cardiac SARS-CoV-2 infection. Therefore, we investigated heart tissue utilizing in situ hybridization, immunohistochemistry and RNA-sequencing in consecutive autopsy cases to quantify virus load and characterize cardiac involvement in COVID-19. METHODS AND RESULTS In this study, 95 SARS-CoV-2-positive autopsy cases were included. A relevant SARS-CoV-2 virus load in the cardiac tissue was detected in 41/95 deceased (43%). MACE-RNA-sequencing was performed to identify molecular pathomechanisms caused by the infection of the heart. A signature matrix was generated based on the single-cell dataset "Heart Cell Atlas" and used for digital cytometry on the MACE-RNA-sequencing data. Thus, immune cell fractions were estimated and revealed no difference in immune cell numbers in cases with and without cardiac infection. This result was confirmed by quantitative immunohistological diagnosis.MACE-RNA-sequencing revealed 19 differentially expressed genes (DEGs) with a q-value <0.05 (e.g. up: IFI44L, IFT3, TRIM25; down: NPPB, MB, MYPN). The upregulated DEGs were linked to interferon pathways and originate predominantly from endothelial cells. In contrast, the downregulated DEGs originate predominately from cardiomyocytes. Immunofluorescent staining showed viral protein in cells positive for the endothelial marker ICAM1 but rarely in cardiomyocytes. The GO term analysis revealed that downregulated GO terms were linked to cardiomyocyte structure, whereas upregulated GO terms were linked to anti-virus immune response. CONCLUSION This study reveals, that cardiac infection induced transcriptomic alterations mainly linked to immune response and destruction of cardiomyocytes. While endothelial cells are primarily targeted by the virus, we suggest cardiomyocyte-destruction by paracrine effects. Increased pro-inflammatory gene expression was detected in SARS-CoV-2-infected cardiac tissue but no increased SARS-CoV-2 associated immune cell infiltration was observed. TRANSLATIONAL PERSPECTIVE Cardiac injury can be documented in COVID-19, regardless the direct cardiac virus infection and is known to be associated with outcome. However, the direct virus infection of the myocardium leads to transcriptomic alterations and might therefore additionally contribute to pathophysiological processes in COVID-19. Therefore, consequences of cardiac virus infection need to be investigated in future studies, since they might also contribute to long-term effects in case of survival.
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