Frontiers in Immunology (Dec 2023)

Taming the SARS-CoV-2-mediated proinflammatory response with BromAc®

  • Geovane Marques Ferreira,
  • Felipe Alves Clarindo,
  • Ágata Lopes Ribeiro,
  • Letícia Gomes-de-Pontes,
  • Luciana Debortoli de Carvalho,
  • Olindo Assis Martins-Filho,
  • Flávio Guimarães da Fonseca,
  • Flávio Guimarães da Fonseca,
  • Mauro Martins Teixeira,
  • Adriano de Paula Sabino,
  • Mathew Suji Eapen,
  • David L. Morris,
  • David L. Morris,
  • David L. Morris,
  • Sarah J. Valle,
  • Sarah J. Valle,
  • Sarah J. Valle,
  • Jordana Grazziela Alves Coelho-dos-Reis,
  • Jordana Grazziela Alves Coelho-dos-Reis

DOI
https://doi.org/10.3389/fimmu.2023.1308477
Journal volume & issue
Vol. 14

Abstract

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IntroductionIn the present study, the impact of BromAc®, a specific combination of bromelain and acetylcysteine, on the SARS-CoV-2-specific inflammatory response was evaluated.MethodsAn in vitro stimulation system was standardized using blood samples from 9 healthy donors, luminex assays and flow cytometry were performed. Results and discussionBromAc® demonstrated robust anti-inflammatory activity in human peripheral blood cells upon SARS-CoV-2 viral stimuli, reducing the cytokine storm, composed of chemokines, growth factors, and proinflammatory and regulatory cytokines produced after short-term in vitro culture with the inactivated virus (iSARS-CoV-2). A combined reduction in vascular endothelial growth factor (VEGF) induced by SARS-CoV-2, in addition to steady-state levels of platelet recruitment-associated growth factor-PDGFbb, was observed, indicating that BromAc® may be important to reduce thromboembolism in COVID-19. The immunophenotypic analysis of the impact of BromAc® on leukocytes upon viral stimuli showed that BromAc® was able to downmodulate the populations of CD16+ neutrophils and CD14+ monocytes observed after stimulation with iSARS-CoV-2. Conversely, BromAc® treatment increased steady-state HLA-DR expression in CD14+ monocytes and preserved this activation marker in this subset upon iSARS-CoV-2 stimuli, indicating improved monocyte activation upon BromAc® treatment. Additionally, BromAc® downmodulated the iSARS-CoV-2-induced production of TNF-a by the CD19+ B-cells. System biology approaches, utilizing comprehensive correlation matrices and networks, showed distinct patterns of connectivity in groups treated with BromAc®, suggesting loss of connections promoted by the compound and by iSARS-CoV-2 stimuli. Negative correlations amongst proinflammatory axis and other soluble and cellular factors were observed in the iSARS-CoV-2 group treated with BromAc® as compared to the untreated group, demonstrating that BromAc® disengages proinflammatory responses and their interactions with other soluble factors and the axis orchestrated by SARS-CoV-2.ConclusionThese results give new insights into the mechanisms for the robust anti-inflammatory effect of BromAc® in the steady state and SARS-CoV-2-specific immune leukocyte responses, indicating its potential as a therapeutic strategy for COVID-19.

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