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Curcumin Allosterically Inhibits the Dengue NS2B-NS3 Protease by Disrupting Its Active Conformation

Liangzhong Lim, Mei Dang, Amrita Roy, Jian Kang, Jianxing Song

2020ACS Omega48 citationsDOIOpen Access PDF

Abstract

Flaviviruses including dengue virus and Zika virus encode a unique two-component NS2B-NS3 protease essential for maturation/infectivity, thus representing a key target for designing antiflavivirus drugs. Here, for the first time, by NMR and molecular docking, we reveal that curcumin allosterically inhibits the dengue protease by binding to a cavity with no overlap with the active site. Further molecular dynamics simulations decode that the binding of curcumin leads to unfolding/displacing the characteristic β-hairpin of the C-terminal NS2B and consequently disrupting the closed (active) conformation of the protease. Our study identified a cavity most likely conserved in all flaviviral NS2B-NS3 proteases, which could thus serve as a therapeutic target for the discovery/design of small-molecule allosteric inhibitors. Moreover, as curcumin has been used as a food additive for thousands of years in many counties, it can be directly utilized to fight the flaviviral infections and as a promising starting for further design of potent allosteric inhibitors.

Topics & Concepts

NS3Allosteric regulationDengue virusProteaseCurcuminActive siteProteasesDengue feverChemistryBiochemistryDocking (animal)InfectivitySerine proteaseBiologyVirologyEnzymeVirusMedicineNursingMosquito-borne diseases and controlHIV Research and TreatmentMalaria Research and Control
Curcumin Allosterically Inhibits the Dengue NS2B-NS3 Protease by Disrupting Its Active Conformation | Litcius