In-silico screening of bioactive compounds from nut grass (Cyperus rotundus) to inhibit the α-bungarotoxin from Kraits (Bungarus spp.) venom

Abstract

ABSTRACT Kraits (Bungarus spp.) are the snakes that commonly cause fatal bites in Tropical Asia due to their neurotoxic venom. The complex process of antivenom production contributes to the lack of available antivenom and amplifies the burden of snakebite in that region. Thus, the victims seek traditional medicine such as root extract from nut grass (Cyperus rotundus). In the present study, we utilized bioinformatics methods to analyze the potential inhibitory activity of bioactive compounds from nut grass (Cyperus rotundus) against kraits’ α-bungarotoxin. Twenty-one bioactive compounds were screened using ADMET, membrane permeability prediction, molecular docking and molecular dynamics simulations. Among these bioactive compounds, we found that alpha-cyperone, cyperol, cyperusol, rotundine A, rotundine B and 4,6,3’,4’-Tetramethoxyaurone had inhibitory activity by presenting a good ability to pass phospholipid bilayer and could bind stably into active sites of α-bungarotoxin with minimum energy required. Importantly, the neutralization property of these bioactive compounds resides in their combinational function, underscoring the crucial significance of their combined action rather than individual contributions. In conclusion, this study identifies a combination of six bioactive compounds from C. rotundus with a potential as an alternative antivenom based on in-silico screening and provides essential data for the development of a plant-based antivenom.