Abstract
There are no approved target therapeutics against SARS-CoV-2 or other beta-CoVs. The beta-CoV Spike protein is a promising target considering the critical role in viral infection and pathogenesis and its surface exposed features. We performed a structure-based strategy targeting highly conserved druggable regions resulting from a comprehensive large-scale sequence analysis and structural characterization of Spike domains across SARSr- and MERSr-CoVs. We have disclosed 28 main consensus druggable pockets within the Spike. The RBD and SD1 (S1 subunit); and the CR, HR1 and CH (S2 subunit) represent the most promising conserved druggable regions. Additionally, we have identified 181 new potential hot spot residues for the hSARSr-CoVs and 72 new hot spot residues for the SARSr- and MERSr-CoVs, which have not been described before in the literature. These sites/residues exhibit advantageous structural features for targeted molecular and pharmacological modulation. This study establishes the Spike as a promising anti-CoV target using an approach with a potential higher resilience to resistance development and directed to a broad spectrum of Beta-CoVs, including the new SARS-CoV-2 responsible for COVID-19. This research also provides a structure-based rationale for the design and discovery of chemical inhibitors, antibodies or other therapeutic modalities successfully targeting the Beta-CoV Spike protein.
Highlights
There are no antiviral drugs approved for the prevention or treatment of coronavirus disease 2019 (COVID-19) caused by SARS-CoV-2; or against any other coronavirus (CoVs).The current recommendations for the clinical management of COVID-19 include infection prevention and control measures and supportive care [1]
SARS-CoV-2 harbours a protein 18-aa longer than the SARS-CoVs (1273 aa); and a high inter-variability in length was observed in bat-SL-CoV S sequences (1128 to 1269 aa), concordant with the high diversity of bat-SLCoVs found in bat populations (Table 1) [24]
RaTG13 clusters with SARS-CoV-2 in a distinct evolutionary group from other severe acute respiratory syndrome-related coronavirus (SARSr-CoVs) [5], whereas LYRa11 is a potential recombinant descended from parental lineages considered as a gap-filling virus between batSL-CoVs and human SARS-CoVs [25]
Summary
There are no antiviral drugs approved for the prevention or treatment of coronavirus disease 2019 (COVID-19) caused by SARS-CoV-2; or against any other coronavirus (CoVs).The current recommendations for the clinical management of COVID-19 include infection prevention and control measures and supportive care [1]. Because there is no sufficient information to recommend for or against broad spectrum antivirals, repurposing drugs or immunomodulatory therapy, moderate to critically ill patients have been managed with these alternative therapies through Emergency Use Authorizations, Emergency Investigational New Drug applications, compassionate use or expanded access programs with drug manufacturers [1,2]. The molecular epidemiology of SARS-CoV-2 in the postpandemic period is uncertain.
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