Author: Christensen, E. E.; Jørgensen, M. J.; Nore, K. G.; Dahl, T. B.; Yang, K.; Ranheim, T.; Huse, C.; Lind, A.; Nur, S.; Stiksrud, B.; Jenum, S.; Tonby, K.; Holter, J. C.; Holten, A. R.; Halvorsen, B.; Dyrholâ€Riise, A. M.
Title: Critical COVIDâ€19 is associated with distinct leukocyte phenotypes and transcriptome patterns Cord-id: nxs7owjv Document date: 2021_6_3
ID: nxs7owjv
Snippet: BACKGROUND: Prognostic markers for disease severity and identification of therapeutic targets in COVIDâ€19 are urgently needed. We have studied innate and adaptive immunity on protein and transcriptomic level in COVIDâ€19 patients with different disease severity at admission and longitudinally during hospitalization. METHODS: Peripheral blood mononuclear cells (PBMCs) were collected at three time points from 31 patients included in the Norwegian SARSâ€CoVâ€2 cohort study and analysed by flow
Document: BACKGROUND: Prognostic markers for disease severity and identification of therapeutic targets in COVIDâ€19 are urgently needed. We have studied innate and adaptive immunity on protein and transcriptomic level in COVIDâ€19 patients with different disease severity at admission and longitudinally during hospitalization. METHODS: Peripheral blood mononuclear cells (PBMCs) were collected at three time points from 31 patients included in the Norwegian SARSâ€CoVâ€2 cohort study and analysed by flow cytometry and RNA sequencing. Patients were grouped as either mild/moderate (n = 14), severe (n = 11) or critical (n = 6) disease in accordance with WHO guidelines and compared with patients with SARSâ€CoVâ€2â€negative bacterial sepsis (n = 5) and healthy controls (n = 10). RESULTS: COVIDâ€19 severity was characterized by decreased interleukin 7 receptor alpha chain (CD127) expression in naïve CD4 and CD8 T cells. Activation (CD25 and HLAâ€DR) and exhaustion (PDâ€1) markers on T cells were increased compared with controls, but comparable between COVIDâ€19 severity groups. Nonâ€classical monocytes and monocytic HLAâ€DR expression decreased whereas monocytic PDâ€L1 and CD142 expression increased with COVIDâ€19 severity. RNA sequencing exhibited increased plasma Bâ€cell activity in critical COVIDâ€19 and yet predominantly reduced transcripts related to immune response pathways compared with milder disease. CONCLUSION: Critical COVIDâ€19 seems to be characterized by an immune profile of activated and exhausted T cells and monocytes. This immune phenotype may influence the capacity to mount an efficient Tâ€cell immune response. Plasma Bâ€cell activity and calprotectin were higher in critical COVIDâ€19 while most transcripts related to immune functions were reduced, in particular affecting B cells. The potential of these cells as therapeutic targets in COVIDâ€19 should be further explored.
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