Furin cleaves SARS-CoV-2 spike-glycoprotein at S1/S2 and S2'for viral fusion/entry: indirect role for TMPRSS2 (preprint)

Rachid Essalmani; Jaspreet Jain; Delia Susan-Resiga; Ursula Andreo; Alexandra Evagelidis; Rabeb Mouna Derbali; David Huynh; Frederic Dallaire; Melanie Laporte; Adrien Delpal; Priscila Sutto-Ortiz; Bruno Coutard; Claudine Mapa; Keith Wilcoxen; Etienne Decroly; Tram Pham; Eric A. Cohen; Nabil G. G Seidah; Massimo Zollo; Achille Iolascon; Mario Capasso; Nour Albes; Hani M. Al-Afghani; Bader Alghamdi; Mansour Almutair; Ebrahim Sabri Mahmoud; Leen Abu Safie; Hadeel El Bardisy; Fawz S. Al Harthi; Abdulraheem Alshareef; Bandar Ali Suliman; Saleh Alqahtani; Abdulaziz AlMalik; May M. Alrashed; Salam Massadeh; Vincent Mooser; Mark Lathrop; Yaseen Arabi; Hamdi Mbarek; Chadi Saad; Wadha Al-Muftah; Radja Badji; Asma Al Thani; Said I. Ismail; Ali G. Gharavi; Malak S. Abedalthagafi; J Brent Richards; David B. Goldstein; Krzysztof Kiryluk

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Furin cleaves SARS-CoV-2 spike-glycoprotein at S1/S2 and S2'for viral fusion/entry: indirect role for TMPRSS2 (preprint)

Rachid Essalmani; Jaspreet Jain; Delia Susan-Resiga; Ursula Andreo; Alexandra Evagelidis; Rabeb Mouna Derbali; David Huynh; Frederic Dallaire; Melanie Laporte; Adrien Delpal; Priscila Sutto-Ortiz; Bruno Coutard; Claudine Mapa; Keith Wilcoxen; Etienne Decroly; Tram Pham; Eric A. Cohen; Nabil G. G Seidah; Massimo Zollo; Achille Iolascon; Mario Capasso; Nour Albes; Hani M. Al-Afghani; Bader Alghamdi; Mansour Almutair; Ebrahim Sabri Mahmoud; Leen Abu Safie; Hadeel El Bardisy; Fawz S. Al Harthi; Abdulraheem Alshareef; Bandar Ali Suliman; Saleh Alqahtani; Abdulaziz AlMalik; May M. Alrashed; Salam Massadeh; Vincent Mooser; Mark Lathrop; Yaseen Arabi; Hamdi Mbarek; Chadi Saad; Wadha Al-Muftah; Radja Badji; Asma Al Thani; Said I. Ismail; Ali G. Gharavi; Malak S. Abedalthagafi; J Brent Richards; David B. Goldstein; Krzysztof Kiryluk.

biorxiv; 2020.

Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.12.18.423106

ABSTRACT

ABSTRACT

The Spike (S)-protein of SARS-CoV-2 binds host-cell receptor ACE2 and requires proteolytic 'priming' (S1/S2) and 'fusion-activation' (S2') for viral entry. The S-protein furin-like motifs PRRAR685{downarrow} and KPSKR815{downarrow} indicated that proprotein convertases promote virus entry. We demonstrate that furin and PC5A induce cleavage at both sites, ACE2 enhances S2' processing, and their pharmacological inhibition (BOS-inhibitors) block endogenous cleavages. S1/S2-mutations (S1/S2) limit S-protein-mediated cell-to-cell fusion, similarly to BOS-inhibitors. Unexpectedly, TMPRSS2 does not cleave at S1/S2 or S2', but it can (i) cleave/inactivate S-protein into S2a/S2b; (ii) shed ACE2; (iii) cleave S1-subunit into secreted S1', activities inhibited by Camostat. In lung-derived Calu-3 cells, BOS-inhibitors and S1/S2 severely curtail 'pH-independent' viral entry, and BOS-inhibitors alone/with Camostat potently reduce infectious viral titer and cytopathic effects. Overall, our results show that furin plays a critical role in generating fusion-competent S-protein, and indirectly, TMPRSS2 promotes viral entry, supporting furin and TMPRSS2 inhibitors as potential antivirals against SARS-CoV-2

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Full text: Available Collection: Preprints Database: bioRxiv Language: English Year: 2020 Document Type: Preprint