Inhibition of S-protein RBD and hACE2 Interaction for Control of SARSCoV- 2 Infection (COVID-19)

Author:

Nayak Surendra Kumar1ORCID

Affiliation:

1. Department of Pharmaceutical Chemistry, School of Pharmaceutical Sciences, Lovely Professional University, Jalandhar- Delhi G.T. Road (NH-1), Phagwara, Punjab-144401, India

Abstract

Background: COVID-19 has become a pandemic with higher morbidity and mortality rates after its start from Wuhan city of China. The infection by RNA virus, also known as SARS-CoV-2 or 2019-nCoV, from the beta class of coronaviruses, has been found to be responsible for COVID-19. Structural analysis and evidences have been indicated that interaction between a segment of receptor binding domain (RBD) from S protein of the virus and human angiotensin-converting enzyme 2 (hACE2) is essential for cellular entry of the virus. Objective: The current review sheds light on structural aspects for the inhibition of RBD-hACE2 interaction mediated cellular entry of SARS-CoV-2. Methods: The present study provides a critical review of recently published information on RBDhACE2 interaction and its inhibitors to control SARS-CoV-2 infection. The review highlighted the structural aspects of the interaction between RBD-hACE2 and involved amino acid residues. Results: Recently, several studies are being conducted for the inhibition of the SARS-CoV-2 attachment and entry to the human cellular system. One of the important targets for viral invasion is its binding with cell surface receptor, hACE2, through RBD on S-protein. Mimicking of three residues on ACE2 (Lys31, Glu35 and Lys353 on B chain) provided a hot target directed strategy for the inhibition of early attachment of the virus to the cell. Early screening of peptidic or non-peptidic molecules for the inhibition of RBD-hACE2 interaction has raised the hope for potential therapeutics against COVID-19. The higher affinity of molecules toward RBD than ACE2 is an important factor for selectivity and minimization of ACE2 related adverse events on the cardiovascular system, brain, kidney, and foetus development during pregnancy. Conclusion: Inhibition of RBD-hACE2 interaction by different molecular scaffolds can be used as a preferred strategy for control of SARS-CoV-2 infection. Recently, published reports pointed out Lys31, Glu35 and Lys353 on the B chain of ACE2 as crucial residues for mimicking and design of novel molecules as inhibitors SARS-CoV-2 attachment to human cells. Moreover, some recently identified RBD-hACE2 interaction inhibitors have also been described with their protein binding pattern and potencies (IC50 values), which will help for further improvement in the selectivity.

Publisher

Bentham Science Publishers Ltd.

Subject

Drug Discovery,Pharmacology,General Medicine

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