Targeted Down Regulation Of Core Mitochondrial Genes During SARS-CoV-2 Infection

  1. Joseph W. Guarnieri
  2. Joseph M. Dybas
  3. Hossein Fazelinia
  4. Man S. Kim
  5. Justin Frere
  6. Yuanchao Zhang
  7. Yentli Soto Albrecht
  8. Deborah G. Murdock
  9. Alessia Angelin
  10. Larry N. Singh
  11. Scott L. Weiss
  12. Sonja M. Best
  13. Marie T. Lott
  14. Henry Cope
  15. Viktorija Zaksas
  16. Amanda Saravia-Butler
  17. Cem Meydan
  18. Jonathan Foox
  19. Christopher Mozsary
  20. Yared H. Kidane
  21. Waldemar Priebe
  22. Mark R. Emmett
  23. Robert Meller
  24. Urminder Singh
  25. Yaron Bram
  26. Benjamin R. tenOever
  27. Mark T. Heise
  28. Nathaniel J. Moorman
  29. Emily A. Madden
  30. Sharon A. Taft-Benz
  31. Elizabeth J. Anderson
  32. Wes A. Sanders
  33. Rebekah J. Dickmander
  34. Victoria K. Baxter
  35. Stephen B. Baylin
  36. Eve Syrkin Wurtele
  37. Pedro M. Moraes-Vieira
  38. Deanne Taylor
  39. Christopher E. Mason
  40. Jonathan C. Schisler
  41. Robert E. Schwartz
  42. Afshin Beheshti
  43. Douglas C. Wallace
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Abstract

Defects in mitochondrial oxidative phosphorylation (OXPHOS) have been reported in COVID-19 patients, but the timing and organs affected vary among reports. Here, we reveal the dynamics of COVID-19 through transcription profiles in nasopharyngeal and autopsy samples from patients and infected rodent models. While mitochondrial bioenergetics is repressed in the viral nasopharyngeal portal of entry, it is up regulated in autopsy lung tissues from deceased patients. In most disease stages and organs, discrete OXPHOS functions are blocked by the virus, and this is countered by the host broadly up regulating unblocked OXPHOS functions. No such rebound is seen in autopsy heart, results in severe repression of genes across all OXPHOS modules. Hence, targeted enhancement of mitochondrial gene expression may mitigate the pathogenesis of COVID-19.

One-Sentence Summary

Covid-19 is associated with targeted inhibition of mitochondrial gene transcription.

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