Dear editor
We would like to add our views regarding the article “Identification of covalent active site inhibitors of dengue virus protease” by Koh-Stenta et al.Citation1 The article suggests the development of a possible drug to combat dengue virus. The drug will inhibit the ability of the virus to replicate by inhibiting the protease enzyme of the virus.
The genome of dengue virus is a single-stranded, positive-sense RNA that encodes for a polyprotein. The polyprotein is translated into three structural components, namely capsid, envelope, and membrane, and seven nonstructural proteins, namely NS1, NS2A, NS2B, NS3, NS4A, NS4B, and NS5. NS3 is a serine protease that has a critical role alongside host cell proteases in the protein breakdown of viral polyprotein that leads to replication.Citation2 The foundation of Koh-Stenta et al’s study was fundamentally based on the similarity of the amino acid sequence of proteases, especially at the active sites, of the dengue virus and the West Nile virus.Citation3 As extensive knowledge was available on the West Nile virus and peptide-bound X-ray crystal structure confirmed many protein–ligand interactions similar to the two viruses,Citation4 the knowledge could be applied on dengue virus.
The results of Koh-Stenta et al’s research are highly encouraging and show a possibility for the development of an anti-dengue drug in the near future. Another recent study by Dutch investigators suggested that a protein manufactured by the dengue virus NS4B would make a plausible target for antiviral drug.Citation5 Their data suggested that a metabolite of acetaminophen (a common pain killer) AM404 was able to inhibit dengue virus replication. In our opinion, this is a ground-breaking discovery, and the study not only brings us one step closer to the development of an antiviral drug against dengue virus, but also enables the determination of when the replication of the virus is inhibited. The latter was achieved by using a derivative of dengue virus that expressed luciferase, a molecule that produces bioluminescence, during replication.
Hence, by correlating the two studies, we conclude that two proteins, ie, NS4B and NS2B, are potential targets for the development of an anti-dengue drug. Moreover, other areas should be explored, of the viral genome, to target other potential sites for drug development. It could be possible to manufacture drugs that stop the virus from entering the cell (entry inhibitors) or drugs that inhibit the strand of RNA (5′ capping) inhibiting viral replication.Citation6
Disclosure
The authors report no conflicts of interest in this communication.
References
- Koh-StentaXJoyJWangSFIdentification of covalent active site inhibitors of dengue virus proteaseDrug Des Devel Ther2015963896399
- LimSPWangQYNobleCGTen years of dengue drug discovery: progress and prospectsAntiviral Res2013100250051924076358
- ErbelPSchieringND’ArcyAStructural basis for the activation of flaviviral NS3 proteases from dengue and West Nile virusNat Struct Mol Biol200613437237316532006
- van CleefKWOverheulGJThomassenMCMarjakangasJMvan RijRPEscape mutations in NS4B render dengue virus insensitive to the antiviral activity of the paracetamol metabolite AM404Antimicrob Agents Chemother20166042554255726856827
- NobleCGSehCCChaoATShiPYLigand-bound structures of the dengue virus protease reveal the active conformationJ Virol201286143844622031935
- SampathAPadmanabhanRMolecular targets for flavivirus drug discoveryAntiviral Res200981161518796313