Author: Hussain, Mushtaq; Jabeen, Nusrat; Raza, Fozia; Shabbir, Sanya; Baig, Ayesha A.; Amanullah, Anusha; Aziz, Basma
Title: Structural variations in human ACE2 may influence its binding with SARSâ€CoVâ€2 spike protein Cord-id: m0w0fl2u Document date: 2020_4_15
ID: m0w0fl2u
Snippet: The recent pandemic of COVIDâ€19, caused by SARSâ€CoVâ€2, is unarguably the most fearsome compared with the earlier outbreaks caused by other coronaviruses, SARSâ€CoV and MERSâ€CoV. Human ACE2 is now established as a receptor for the SARSâ€CoVâ€2 spike protein. Where variations in the viral spike protein, in turn, lead to the crossâ€species transmission of the virus, genetic variations in the host receptor ACE2 may also contribute to the susceptibility and/or resistance against the viral
Document: The recent pandemic of COVIDâ€19, caused by SARSâ€CoVâ€2, is unarguably the most fearsome compared with the earlier outbreaks caused by other coronaviruses, SARSâ€CoV and MERSâ€CoV. Human ACE2 is now established as a receptor for the SARSâ€CoVâ€2 spike protein. Where variations in the viral spike protein, in turn, lead to the crossâ€species transmission of the virus, genetic variations in the host receptor ACE2 may also contribute to the susceptibility and/or resistance against the viral infection. This study aims to explore the binding of the proteins encoded by different human ACE2 allelic variants with SARSâ€CoVâ€2 spike protein. Briefly, coding variants of ACE2 corresponding to the reported binding sites for its attachment with coronavirus spike protein were selected and molecular models of these variants were constructed by homology modeling. The models were then superimposed over the native ACE2 and ACE2â€spike protein complex, to observe structural changes in the ACE2 variants and their intermolecular interactions with SARSâ€CoVâ€2 spike protein, respectively. Despite strong overall structural similarities, the spatial orientation of the key interacting residues varies in the ACE2 variants compared with the wildâ€type molecule. Most ACE2 variants showed a similar binding affinity for SARSâ€CoVâ€2 spike protein as observed in the complex structure of wildâ€type ACE2 and SARSâ€CoVâ€2 spike protein. However, ACE2 alleles, rs73635825 (S19P) and rs143936283 (E329G) showed noticeable variations in their intermolecular interactions with the viral spike protein. In summary, our data provide a structural basis of potential resistance against SARSâ€CoVâ€2 infection driven by ACE2 allelic variants.
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