Abstract
Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) causes coronavirus disease 2019 (COVID-19). As of October 21, 2020, more than 41.4 million confirmed cases and 1.1 million deaths have been reported. Thus, it is immensely important to develop drugs and vaccines to combat COVID-19. The spike protein present on the outer surface of the virion plays a major role in viral infection by binding to receptor proteins present on the outer membrane of host cells, triggering membrane fusion and internalization, which enables release of viral ssRNA into the host cell. Understanding the interactions between the SARS-CoV-2 trimeric spike protein and its host cell receptor protein, angiotensin converting enzyme 2 (ACE2), is important for developing drugs and vaccines to prevent and treat COVID-19. Several crystal structures of partial and mutant SARS-CoV-2 spike proteins have been reported; however, an atomistic structure of the wild-type SARS-CoV-2 trimeric spike protein complexed with ACE2 is not yet available. Therefore, in our study, homology modeling was used to build the trimeric form of the spike protein complexed with human ACE2, followed by all-atom molecular dynamics simulations to elucidate interactions at the interface between the spike protein and ACE2. Molecular Mechanics Poisson-Boltzmann Surface Area (MMPBSA) and in silico alanine scanning were employed to characterize the interacting residues at the interface. Twenty interacting residues in the spike protein were identified that are likely to be responsible for tightly binding to ACE2, of which five residues (Val445, Thr478, Gly485, Phe490, and Ser494) were not reported in the crystal structure of the truncated spike protein receptor binding domain (RBD) complexed with ACE2. These data indicate that the interactions between ACE2 and the tertiary structure of the full-length spike protein trimer are different from those between ACE2 and the truncated monomer of the spike protein RBD. These findings could facilitate the development of drugs and vaccines to prevent SARS-CoV-2 infection and combat COVID-19.
Highlights
The Severe Acute Respiratory Syndrome Coronavirus 2 (SARSCoV-2) was first identified in Hubei, China, and causes the severe respiratory syndrome known as COVID-19 in humans
Superimpositions between Model_4 and the reported structure of the trimeric form of the spike protein with the one-up conformation, and between Model_4 and the crystal structure of the truncated spike protein receptor binding domain (RBD) bound with angiotensin converting enzyme 2 (ACE2) (Figure 2), showed root mean squared deviation (RMSD) values of 0.28Å and 0.744 Å, respectively
The structure of the trimeric form of the full-length wildtype spike protein complexed with ACE2 was generated using homology modeling
Summary
The Severe Acute Respiratory Syndrome Coronavirus 2 (SARSCoV-2) was first identified in Hubei, China, and causes the severe respiratory syndrome known as COVID-19 in humans. Spike proteins present on the virion surface are responsible for targeting host cells and triggering fusion of viral and host cell membranes, which are critical steps in initiating infection and enabling the transfer of viral RNA into host cells. The nucleocapsid protein enters the host cell along with the SARS-CoV-2 genetic material, which serves to facilitate RNA transcription, replication, virus assembly, and release (Kang et al, 2020; Zeng et al, 2020). Since the spike protein plays a major role in initializing viral infection through binding to ACE2, inhibiting the binding of the spike protein to ACE2 is an attractive strategy for developing drugs to block the spread of SARS-CoV-2 infection and treat COVID-19 (Das et al, 2020; Wu et al, 2020). Understanding interactions between the spike protein and ACE2 may facilitate the development of drugs that target binding of the spike protein to ACE2
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