Metabolic stress and disease-stage specific basigin expression of peripheral blood immune cell subsets in COVID-19 patients

  1. Peter J. Siska
  2. Katrin Singer
  3. Jana Klitzke
  4. Nathalie Kauer
  5. Sonja-Maria Decking
  6. Christina Bruss
  7. Carina Matos
  8. Kristina Kolodova
  9. Alice Peuker
  10. Gabriele Schönhammer
  11. Johanna Raithel
  12. Dirk Lunz
  13. Bernhard Graf
  14. Florian Geismann
  15. Matthias Lubnow
  16. Matthias Mack
  17. Peter Hau
  18. Christopher Bohr
  19. Ralph Burkhardt
  20. Andre Gessner
  21. Bernd Salzberger
  22. Frank Hanses
  23. Florian Hitzenbichler
  24. Daniel Heudobler
  25. Florian Lüke
  26. Tobias Pukrop
  27. Wolfgang Herr
  28. Daniel Wolff
  29. Hendrik Poeck
  30. Christoph Brochhausen
  31. Petra Hoffmann
  32. Michael Rehli
  33. Marina Kreutz
  34. Kathrin Renner
1 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

Coronavirus disease 2019 (COVID-19) is driven by dysregulated immune responses yet the role of immunometabolism in COVID-19 pathogenesis remains unclear. By investigating 47 patients with confirmed SARS-CoV-2 infection and 16 uninfected controls, we found an immunometabolic dysregulation specific for patients with progressed disease that was reversible in the recovery phase. Specifically, T cells and monocytes exhibited increased mitochondrial mass, accumulated intracellular ROS and these changes were accompanied by disrupted mitochondrial architecture. Basigin (CD147), but not established markers of T cell activation, was up-regulated on T cells from progressed COVID-19 patients and correlated with ROS accumulation, reflected in the transcriptome. During recovery, basigin and ROS decreased to match the uninfected controls.In vitroanalyses confirmed the correlation and showed a down-regulation of ROS by dexamethasone treatment. Our findings provide evidence of a basigin-related and reversible immunometabolic dysregulation in COVID-19.

Related articles

Related articles are currently not available for this article.