Abstract
Thrombin acts as a key enzyme in the blood coagulation cascade and represents a potential drug target for the treatment of several cardiovascular diseases. The aim of this study was to identify small-molecule direct thrombin inhibitors from herbs used in traditional Chinese medicine (TCM). A pharmacophore model and molecular docking were utilized to virtually screen a library of chemicals contained in compositions of traditional Chinese herbs, and these analyses were followed by in vitro bioassay validation and binding studies. Berberine (BBR) was first confirmed as a thrombin inhibitor using an enzymatic assay. The BBR IC50 value for thrombin inhibition was 2.92 μM. Direct binding studies using surface plasmon resonance demonstrated that BBR directly interacted with thrombin with a KD value of 16.39 μM. Competitive binding assay indicated that BBR could bind to the same argartroban/thrombin interaction site. A platelet aggregation assay demonstrated that BBR had the ability to inhibit thrombin-induced platelet aggregation in washed platelets samples. This study proved that BBR is a direct thrombin inhibitor that has activity in inhibiting thrombin-induced platelet aggregation. BBR may be a potential candidate for the development of safe and effective thrombin-inhibiting drugs.
Highlights
Important role in disease treatment[11,12,13,14]
A surface plasmon resonance (SPR)-based binding study and molecular docking were carried out to characterize the interaction between BBR and thrombin
The combination of virtual screening, enzymatic bioassay and binding studies performed in this study showed remarkable advantages in identifying direct thrombin inhibitors from traditional Chinese herbs
Summary
We describe a combination of in silico and in vitro experiments that identified a small-molecule direct thrombin inhibitor from TCM. A library of 23,033 natural compounds were screened in silico through pharmacophore modelling and molecular docking. The top 23 hits were evaluated for thrombin inhibition with an enzymatic assay, and berberine (BBR) showed direct thrombin inhibitory activity. A surface plasmon resonance (SPR)-based binding study and molecular docking were carried out to characterize the interaction between BBR and thrombin. A thrombin-induced platelet aggregation assay was conducted to evaluate the in vitro bioactivity of BBR. The strategy used in this work provided an effective and feasible approach for identifying direct thrombin inhibitors from natural products and could promote the development of safe and effective thrombin-inhibiting drugs
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