Abstract
Highly pathogenic coronaviruses, including the Middle East Respiratory Syndrome Coronavirus (Mers-CoV) and Severe Acute Respiratory Syndrome Coronavirus-2 (Sars-CoV2), have recently emerged and represent a serious threat to global health. Accordingly, a search for potent inhibitors against coronavirus diseases is warranted. Therefore, this study aimed at identifying potential inhibitors from Crinum distichum against the papain-like protease (PLpro), an important antiviral target due to its essential role in viral replication. A bacterial expression system was used for the recombinant expression of Mers-CoV-PLpro and Sars-CoV2-PLpro which was used to assess the inhibitory effect of compounds isolated from C. distichum against their proteolytic and deubiquitinating (DUB) activities. Then, the inhibition mechanism of hit compounds was determined through enzyme kinetic studies. Protein-ligand stability was assessed by Differential Scanning Fluorometry and Molecular docking was used to predict the possible molecular interactions. Five compounds, namely (2S)-4´,7-dimethoxyflavan (CDS1), (2S)-4´‑hydroxy-7-methoxyflavan (CDS2), Hippadine (CDS3), (2R)-4´‑hydroxy-5,7-dimethoxyflavan (CDS4) and Hippacine (CDS5) were tested in this study. They markedly inhibited both the proteolytic and deubiquitinating activities of CoV-PLpro. Their IC50 values were in the low micromolar range. The most potent inhibitors were CDS3 and CDS4, with IC50 values of 9.28 and 6.45 µM, and 11.63 and 6.10 µM against the proteolytic and DUB activities of Mers-CoV-PLpro and Sars-CoV2-PLpro, respectively. They exert their inhibitory effect through competitive and non-competitive inhibition mechanisms. These compounds induced the instability of the enzymes by reducing their melting temperature and molecular docking analysis revealed several molecular interactions between the compounds and various amino acids of the enzymes. Overall, our findings suggest C. distichum active constituents to be promising candidates for development into potential inhibitors against coronavirus.
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