Frontiers in Immunology (Nov 2022)

Cellular stress modulates severity of the inflammatory response in lungs via cell surface BiP

  • Gustavo Rico-Llanos,
  • Gustavo Rico-Llanos,
  • Óscar Porras-Perales,
  • Óscar Porras-Perales,
  • Sandra Escalante,
  • Sandra Escalante,
  • Daniel B. Vázquez-Calero,
  • Daniel B. Vázquez-Calero,
  • Lucía Valiente,
  • Lucía Valiente,
  • María I. Castillo,
  • José Miguel Pérez-Tejeiro,
  • José Miguel Pérez-Tejeiro,
  • David Baglietto-Vargas,
  • David Baglietto-Vargas,
  • David Baglietto-Vargas,
  • José Becerra,
  • José Becerra,
  • José Becerra,
  • José María Reguera,
  • José María Reguera,
  • Ivan Duran,
  • Ivan Duran,
  • Ivan Duran,
  • Ivan Duran,
  • Fabiana Csukasi,
  • Fabiana Csukasi,
  • Fabiana Csukasi

DOI
https://doi.org/10.3389/fimmu.2022.1054962
Journal volume & issue
Vol. 13

Abstract

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Inflammation is a central pathogenic feature of the acute respiratory distress syndrome (ARDS) in COVID-19. Previous pathologies such as diabetes, autoimmune or cardiovascular diseases become risk factors for the severe hyperinflammatory syndrome. A common feature among these risk factors is the subclinical presence of cellular stress, a finding that has gained attention after the discovery that BiP (GRP78), a master regulator of stress, participates in the SARS-CoV-2 recognition. Here, we show that BiP serum levels are higher in COVID-19 patients who present certain risk factors. Moreover, early during the infection, BiP levels predict severe pneumonia, supporting the use of BiP as a prognosis biomarker. Using a mouse model of pulmonary inflammation, we observed increased levels of cell surface BiP (cs-BiP) in leukocytes during inflammation. This corresponds with a higher number of neutrophiles, which show naturally high levels of cs-BiP, whereas alveolar macrophages show a higher than usual exposure of BiP in their cell surface. The modulation of cellular stress with the use of a clinically approved drug, 4-PBA, resulted in the amelioration of the lung hyperinflammatory response, supporting the anti-stress therapy as a valid therapeutic strategy for patients developing ARDS. Finally, we identified stress-modulated proteins that shed light into the mechanism underlying the cellular stress-inflammation network in lungs.

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