Insights into standards of care – dexamethasone and antibodies against COVID-19 in hamster models

  1. Emanuel Wyler
  2. Julia M. Adler
  3. Kathrin Eschke
  4. Gustavo Teixeira Alves
  5. Stefan Peidli
  6. Fabian Pott
  7. Julia Kazmierski
  8. Laura Michalick
  9. Olivia Kershaw
  10. Judith Bushe
  11. Sandro Andreotti
  12. Peter Pennitz
  13. Azza Abdelgawad
  14. Dylan Postmus
  15. Christine Goffinet
  16. Jakob Kreye
  17. S Momsen Reincke
  18. Harald Prüss
  19. Nils Blüthgen
  20. Achim D. Gruber
  21. Wolfgang M. Kuebler
  22. Martin Witzenrath
  23. Markus Landthaler
  24. Geraldine Nouailles
  25. Jakob Trimpert
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Abstract

Rationale

In face of the ongoing SARS-CoV-2 pandemic, effective and well-understood treatment options are still scarce. While vaccines have proven instrumental in fighting SARS-CoV-2, their efficacy is challenged by vaccine hesitancy, novel variants and short-lasting immunity. Therefore, understanding and optimization of therapeutic options remains essential.

Objectives

We aimed at generating a deeper understanding on how currently used drugs, specifically dexamethasone and anti-SARS-CoV-2 antibodies, affect SARS-CoV-2 infection and host responses. Possible synergistic effects of both substances are investigated to evaluate combinatorial treatments.

Methods

By using two COVID-19 hamster models, pulmonary immune responses were analyzed to characterize effects of treatment with either dexamethasone, anti-SARS-CoV-2 spike monoclonal antibody or a combination of both. scRNA sequencing was employed to reveal transcriptional response to treatment on a single cell level.

Measurements and main results

Dexamethasone treatment resulted in similar or increased viral loads compared to controls. Anti-SARS-CoV-2 antibody treatment alone or combined with dexamethasone successfully reduced pulmonary viral burden. Dexamethasone exhibited strong anti-inflammatory effects and prevented fulminant disease in a severe COVID-19-like disease model. Combination therapy showed additive benefits with both anti-viral and anti-inflammatory potency. Bulk and single-cell transcriptomic analyses confirmed dampened inflammatory cell recruitment into lungs upon dexamethasone treatment and identified a candidate subpopulation of neutrophils specifically responsive to dexamethasone.

Conclusions

Our analyses i) confirm the anti-inflammatory properties and indicate possible modes of action for dexamethasone, ii) validate anti-viral effects of anti-SARS-CoV-2 antibody treatment, and iii) reveal synergistic effects of a combination therapy and can thus inform more effective COVID-19 therapies.

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