EMBO Molecular Medicine (Nov 2020)

Altered bioenergetics and mitochondrial dysfunction of monocytes in patients with COVID‐19 pneumonia

  • Lara Gibellini,
  • Sara De Biasi,
  • Annamaria Paolini,
  • Rebecca Borella,
  • Federica Boraldi,
  • Marco Mattioli,
  • Domenico Lo Tartaro,
  • Lucia Fidanza,
  • Alfredo Caro‐Maldonado,
  • Marianna Meschiari,
  • Vittorio Iadisernia,
  • Erica Bacca,
  • Giovanni Riva,
  • Luca Cicchetti,
  • Daniela Quaglino,
  • Giovanni Guaraldi,
  • Stefano Busani,
  • Massimo Girardis,
  • Cristina Mussini,
  • Andrea Cossarizza

DOI
https://doi.org/10.15252/emmm.202013001
Journal volume & issue
Vol. 12, no. 12
pp. 1 – 13

Abstract

Read online

Abstract In patients infected by SARS‐CoV‐2 who experience an exaggerated inflammation leading to pneumonia, monocytes likely play a major role but have received poor attention. Thus, we analyzed peripheral blood monocytes from patients with COVID‐19 pneumonia and found that these cells show signs of altered bioenergetics and mitochondrial dysfunction, had a reduced basal and maximal respiration, reduced spare respiratory capacity, and decreased proton leak. Basal extracellular acidification rate was also diminished, suggesting reduced capability to perform aerobic glycolysis. Although COVID‐19 monocytes had a reduced ability to perform oxidative burst, they were still capable of producing TNF and IFN‐γ in vitro. A significantly high amount of monocytes had depolarized mitochondria and abnormal mitochondrial ultrastructure. A redistribution of monocyte subsets, with a significant expansion of intermediate/pro‐inflammatory cells, and high amounts of immature monocytes were found, along with a concomitant compression of classical monocytes, and an increased expression of inhibitory checkpoints like PD‐1/PD‐L1. High plasma levels of several inflammatory cytokines and chemokines, including GM‐CSF, IL‐18, CCL2, CXCL10, and osteopontin, finally confirm the importance of monocytes in COVID‐19 immunopathogenesis.

Keywords