Author: Hu, Shiling; Wang, Jue; Zhang, Yongjing; Bai, Haoyun; Wang, Cheng; Wang, Nan; He, Langchong
Title: Three salvianolic acids inhibit 2019â€nCoV spike pseudovirus viropexis by binding to both its RBD and receptor ACE2 Cord-id: ilo7klco Document date: 2021_2_19
ID: ilo7klco
Snippet: Since December 2019, the new coronavirus (also known as severe acute respiratory syndrome coronavirus 2 [SARSâ€CoVâ€2, 2019â€nCoV])—induced disease, COVIDâ€19, has spread rapidly worldwide. Studies have reported that the traditional Chinese medicine Salvia miltiorrhiza possesses remarkable antiviral properties; however, the antiâ€coronaviral activity of its main components, salvianolic acid A (SAA), salvianolic acid B (SAB), and salvianolic acid C (SAC) is still debated. In this study, we
Document: Since December 2019, the new coronavirus (also known as severe acute respiratory syndrome coronavirus 2 [SARSâ€CoVâ€2, 2019â€nCoV])—induced disease, COVIDâ€19, has spread rapidly worldwide. Studies have reported that the traditional Chinese medicine Salvia miltiorrhiza possesses remarkable antiviral properties; however, the antiâ€coronaviral activity of its main components, salvianolic acid A (SAA), salvianolic acid B (SAB), and salvianolic acid C (SAC) is still debated. In this study, we used Cell Counting Kitâ€8 staining and flow cytometry to evaluate the toxicity of SAA, SAB, and SAC on ACE2 (angiotensinâ€converting enzyme 2) highâ€expressing HEK293T cells (ACE2(h) cells). We found that SAA, SAB, and SAC had a minor effect on the viability of ACE2(h) cells at concentrations below 100 μM. We further evaluated the binding capacity of SAA, SAB, and SAC to ACE2 and the spike protein of 2019â€nCoV using molecular docking and surface plasmon resonance. They could bind to the receptorâ€binding domain (RBD) of the 2019â€nCoV with a binding constant (K (D)) of (3.82 ± 0.43) e−6 M, (5.15 ± 0.64)e−7 M, and (2.19 ± 0.14)eâ€6 M; and bind to ACE2 with K (D) (4.08 ± 0.61)e−7 M, (2.95 ± 0.78)e−7 M, and (7.32 ± 0.42)e−7 M, respectively. As a result, SAA, SAB, and SAC were determined to inhibit the entry of 2019â€nCoV Spike pseudovirus with an EC(50) of 11.31, 6.22, and 10.14 μM on ACE2(h) cells, respectively. In conclusion, our study revealed that three Salvianolic acids can inhibit the entry of 2019â€nCoV spike pseudovirus into ACE2(h) cells by binding to the RBD of the 2019â€nCoV spike protein and ACE2 protein.
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