Structural and functional characterization of NEMO cleavage by SARS-CoV-2 3CLpro

  1. Mikhail Ali Hameedi
  2. Erica T. Prates
  3. Michael R. Garvin
  4. Irimpan Mathews
  5. B Kirtley Amos
  6. Omar Demerdash
  7. Mark Bechthold
  8. Mamta Iyer
  9. Simin Rahighi
  10. Daniel W. Kneller
  11. Andrey Kovalevsky
  12. Stephan Irle
  13. Van-Quan Vuong
  14. Julie C. Mitchell
  15. Audrey Labbe
  16. Stephanie Galanie
  17. Soichi Wakatsuki
  18. Daniel Jacobson
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Abstract

In addition to its essential role in viral polyprotein processing, the SARS-CoV-2 3C-like (3CLpro) protease can cleave human immune signaling proteins, like NF-κB Essential Modulator (NEMO) and deregulate the host immune response. Here, in vitro assays show that SARS-CoV-2 3CLpro cleaves NEMO with fine-tuned efficiency. Analysis of the 2.14 Å resolution crystal structure of 3CLpro C145S bound to NEMO226-235 reveals subsites that tolerate a range of viral and host substrates through main chain hydrogen bonds while also enforcing specificity using side chain hydrogen bonds and hydrophobic contacts. Machine learning- and physics-based computational methods predict that variation in key binding residues of 3CLpro- NEMO helps explain the high fitness of SARS-CoV-2 in humans. We posit that cleavage of NEMO is an important piece of information to be accounted for in the pathology of COVID-19.

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